WO2013002362A1 - ヘテロ二量化ポリペプチド - Google Patents
ヘテロ二量化ポリペプチド Download PDFInfo
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- WO2013002362A1 WO2013002362A1 PCT/JP2012/066665 JP2012066665W WO2013002362A1 WO 2013002362 A1 WO2013002362 A1 WO 2013002362A1 JP 2012066665 W JP2012066665 W JP 2012066665W WO 2013002362 A1 WO2013002362 A1 WO 2013002362A1
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- C07K1/107—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length by chemical modification of precursor peptides
- C07K1/1072—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length by chemical modification of precursor peptides by covalent attachment of residues or functional groups
- C07K1/1075—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length by chemical modification of precursor peptides by covalent attachment of residues or functional groups by covalent attachment of amino acids or peptide residues
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- C—CHEMISTRY; METALLURGY
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- C07K—PEPTIDES
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- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
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- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/22—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against growth factors ; against growth regulators
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- C—CHEMISTRY; METALLURGY
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- C07K—PEPTIDES
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- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
- C07K16/2866—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants against receptors for cytokines, lymphokines, interferons
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- C—CHEMISTRY; METALLURGY
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- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
- C07K16/30—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants from tumour cells
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
- C07K16/30—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants from tumour cells
- C07K16/303—Liver or Pancreas
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- C—CHEMISTRY; METALLURGY
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- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/36—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against blood coagulation factors
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- C—CHEMISTRY; METALLURGY
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- C07K16/46—Hybrid immunoglobulins
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- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/566—Immunoassay; Biospecific binding assay; Materials therefor using specific carrier or receptor proteins as ligand binding reagents where possible specific carrier or receptor proteins are classified with their target compounds
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- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
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- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/72—Increased effector function due to an Fc-modification
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- C—CHEMISTRY; METALLURGY
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- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/73—Inducing cell death, e.g. apoptosis, necrosis or inhibition of cell proliferation
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- C07K2317/90—Immunoglobulins specific features characterized by (pharmaco)kinetic aspects or by stability of the immunoglobulin
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- C07K2317/00—Immunoglobulins specific features
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Definitions
- the present invention provides an antibody constant region having an amino acid sequence modified from a naturally occurring antibody constant region, an antibody containing the constant region, a pharmaceutical composition containing the antibody, and a method for producing them.
- Non-patent Documents 1 and 2 Antibodies are attracting attention as pharmaceuticals because of their high stability in blood and few side effects (Non-patent Documents 1 and 2).
- Most antibody drugs currently on the market are antibodies of the human IgG1 subclass.
- ADCC antibody-dependent cytotoxicity
- CDC complement-dependent cytotoxicity
- IgG1 subclass antibodies have the highest ADCC activity and CDC activity (Non-patent Document 3).
- ADCP Antibody-dependent cell-mediated phagocytosis
- Fc ⁇ R antibody Fc region and antibody receptor
- Non-patent Documents 7 and 8 The importance of Fc ⁇ R-mediated effector function for the antitumor effect of antibodies has been reported using mouse models (Non-patent Documents 7 and 8). In addition, a correlation was observed between clinical effects in humans and high affinity polymorphic allotypes (V158) and low affinity polymorphic allotypes (F158) of Fc ⁇ RIIIa (Non-patent Document 9). These reports indicate that antibodies with Fc regions that are optimized for binding to specific Fc ⁇ Rs mediate stronger effector functions and thereby exert an effective anti-tumor effect.
- the balance of the binding activity of the antibody to the activating receptor consisting of Fc ⁇ RIa, Fc ⁇ RIIa, Fc ⁇ RIIIa, and Fc ⁇ RIIIb and the inhibitory receptor consisting of Fc ⁇ RIIb is an important factor in optimizing the effector function of the antibody.
- an optimal effector function can be imparted to an antibody by using an Fc region with enhanced binding activity to an activated receptor and reduced binding activity for an inhibitory receptor.
- immunosuppressive action can be imparted to the antibody by maintaining or reducing the binding activity to the activated receptor and using the Fc region with enhanced binding activity for the inhibitory receptor. (Non-patent document 11).
- Non-patent document 12 Non-patent document 13, Non-patent document 14
- Fc region variants having various Fc ⁇ R-binding properties have been studied so far, centering on this binding site, and Fc region variants having higher activation Fc ⁇ R-binding activity have been obtained (Patent Literature). 1, Patent Document 2).
- Patent Document 2 For example, Lazar et al.
- Non-patent document 15 Patent document 239th Ser, 330 Ala, and 332 Ile of human IgG1 with Asp, Leu, and Glu, respectively.
- This variant has a binding ratio (A / I ratio) to Fc ⁇ RIIIa and Fc ⁇ IIb of about 9 times that of the wild type.
- Lazar et al. also succeeded in enhancing the binding to Fc ⁇ IIb by about 430 times (Non-patent Document 16).
- Shinkawa et al. Succeeded in increasing the binding to Fc ⁇ RIIIa to about 100 times by deleting the fucose of the sugar chain added to 297th Asn of EU numbering (Non-patent Document 17).
- the present invention has been made in view of such a situation, and the problem is a conventional homodimer, which is a polypeptide having an improved function of the Fc region compared to a polypeptide having the Fc region.
- a pharmaceutical composition containing the polypeptide, a therapeutic or prophylactic agent for immunoinflammatory diseases containing the pharmaceutical composition, a therapeutic agent or prophylactic agent for various cancers, and a method for producing the same. is there.
- the subject of this invention is a conventional homodimer, Comprising: It is providing the method of improving the function of this Fc area
- the present inventors have conducted intensive research to solve the above problems. As a result, the present inventors have produced a heterodimerized polypeptide having an Fc region consisting of two polypeptides having different amino acid sequences (a first polypeptide and a second polypeptide).
- a heterodimerized polypeptide comprising an Fc region in which the function of the Fc region is improved as compared to a homodimer consisting of only the first polypeptide or a homodimer consisting of the second polypeptide. Succeeded in producing.
- the present invention provides the following [1] to [78].
- a polypeptide comprising an Fc region, wherein the Fc region is composed of a heterodimer comprising a first polypeptide and a second polypeptide, A polypeptide characterized by being composed of a homodimer containing only one polypeptide, and the Fc region is composed of a homodimer containing only a second polypeptide, A polypeptide characterized in that the function of the Fc region is altered as compared to a polypeptide.
- the polypeptide according to [1] wherein at least one amino acid mutation is introduced in the Fc region.
- the amino acid mutation is mutated only in one Fc region as compared to the case where no mutation is introduced and the case where the mutation is introduced into both Fc regions of the first polypeptide and the second polypeptide.
- the polypeptide according to [1] or [2] which contains at least one amino acid mutation that improves the function of the Fc region when is introduced.
- the modification of the function of the Fc region is at least one modification selected from the group consisting of enhancement of binding activity to Fc ⁇ receptor and improvement of binding selectivity.
- the polypeptide according to [6], wherein the modification of the function of the Fc region is enhancement of binding activity to Fc ⁇ receptor.
- the polypeptide according to [7], wherein the Fc ⁇ receptor is at least one receptor selected from the group consisting of Fc ⁇ RIa, Fc ⁇ RIIa R, Fc ⁇ RIIa H, Fc ⁇ RIIb, and Fc ⁇ RIIIa.
- the polypeptide according to [8], wherein the Fc ⁇ receptor is Fc ⁇ RIa.
- [10] A group consisting of amino acid mutations described in the region i of Table 2-1 and Table 2-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in the region ii of the specification Table 2-1, Table 2-2, and Table 2-3.
- the polypeptide according to [9] wherein at least one amino acid mutation selected from the group consisting of amino acid mutations is introduced.
- [13] A group consisting of amino acid mutations described in the region i of Table 3-1 and Table 3-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region
- a group consisting of amino acid mutations described in region ii of Table 3-1 and Table 3-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region The polypeptide according to [12], wherein at least one or more amino acid mutations selected are introduced.
- [15] The polypeptide according to [8], wherein the Fc ⁇ receptor is Fc ⁇ RIIa H.
- the polypeptide according to [24], wherein the selectivity of the binding activity to the Fc ⁇ receptor is selectivity between an active Fc ⁇ receptor and an inhibitory Fc ⁇ receptor.
- the active Fc ⁇ receptor is at least one receptor selected from the group consisting of Fc ⁇ RIa, Fc ⁇ RIIa R, Fc ⁇ RIIa H, and Fc ⁇ RIIIa, and the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb.
- the active Fc ⁇ receptor is Fc ⁇ RIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIa is selectively enhanced as compared to Fc ⁇ RIIb. Polypeptide.
- the active Fc ⁇ receptor is Fc ⁇ RIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIa is selectively attenuated as compared to Fc ⁇ RIIb.
- Polypeptide [31] A group consisting of amino acid mutations described in the region c of Table 23-1 and Table 23-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region The polypeptide according to [30], wherein at least one or more amino acid mutations selected are introduced.
- [32] A group consisting of amino acid mutations described in the region d of the specification Table 23-1 and Table 23-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region
- the active Fc ⁇ receptor is Fc ⁇ RIIa R
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIa R is selectively enhanced as compared to Fc ⁇ RIIb.
- the described polypeptide The described polypeptide.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in region a of Table 20-1.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in the region b of the specification Table 20-1, Table 20-2 and Table 20-3.
- the polypeptide according to [33] wherein at least one amino acid mutation selected from the group consisting of amino acid mutations is introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIa R
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIa R is selectively attenuated as compared to Fc ⁇ RIIb.
- the described polypeptide [37]
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in region c of Table 24-1.
- the polypeptide according to [36] wherein at least one amino acid mutation is introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIa H
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIa H is selectively enhanced as compared with Fc ⁇ RIIb.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in region a of the specification Table 21-1.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in the region b of the specification Table 21-1, Table 21-2, and Table 21-3.
- the polypeptide according to [39], wherein at least one amino acid mutation selected from the group consisting of amino acid mutations is introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIa H
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIa H is selectively attenuated compared to Fc ⁇ RIIb
- the described polypeptide A group consisting of amino acid mutations described in the region c of Table 25-1 and Table 25-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in the region d of the specification Table 25-1, Table 25-2, and Table 25-3.
- the active Fc ⁇ receptor is Fc ⁇ RIIIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIIa is selectively enhanced as compared to Fc ⁇ RIIb.
- the active Fc ⁇ receptor is Fc ⁇ RIIIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the binding activity to Fc ⁇ RIIIa is selectively attenuated as compared to Fc ⁇ RIIb.
- Polypeptide [49] A group consisting of amino acid mutations described in the region c of Table 26-1 and Table 26-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region. The polypeptide according to [48], wherein at least one or more amino acid mutations selected are introduced.
- any mutation of (i) to (vi) is introduced, The polypeptide according to [1], [21] or [45], wherein a mutation of any one of (vii) to (ix) is introduced in the amino acid sequence of the other polypeptide: (i) EU numbering 234th amino acid L to Y substitution, EU numbering 235th amino acid L to Y substitution, EU numbering 236th amino acid G to W substitution, EU numbering 268th amino acid H from amino acid H D substitution and EU numbering 298th amino acid S to A substitution (Ii) EU numbering 234th amino acid L to Y substitution, EU numbering 235th amino acid L to Y substitution, EU numbering 236th amino acid G to W substitution, EU numbering 268th amino acid H from D substitution, EU numbering 270th amino acid D to E substitution and EU numbering 298th amino acid S to A substitution (iii) EU numbering 234th amino acid
- the modification of the function of the Fc region is at least one modification selected from the group consisting of enhancement of binding activity of the polypeptide to Fc ⁇ receptor, reduction of binding, and improvement of binding selectivity.
- the modification in which the physicochemical stability is improved is characterized in that the Fc region is composed of a heterodimer comprising the first polypeptide and the second polypeptide, A polypeptide characterized in that the Fc region is composed of a homodimer containing only the first polypeptide, or the Fc region is composed of a homodimer containing only the second polypeptide
- the modification of the function of the Fc region is enhancement of binding activity to the Fc ⁇ receptor, and the Fc ⁇ receptor is at least one selected from the group consisting of Fc ⁇ RIa, Fc ⁇ RIIa R, Fc ⁇ RIIa H, Fc ⁇ RIIb, and F
- the polypeptide according to [62] In the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region, from the amino acid mutation described in the specification Table 31-1, Table 31-2 and Table 31-3 [61] The polypeptide according to [61], wherein at least one amino acid mutation selected from the group consisting of is introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of the amino acid mutations described in Table 32-1 and Table 32-2.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in the specification Table 33-1 and Table 33-2 The polypeptide according to [65], wherein at least one amino acid mutation is introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in the specification Table 34-1 and Table 34-2 The polypeptide according to [67], wherein at least one amino acid mutation is introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is selected from the group consisting of amino acid mutations described in Table 35-1 and Table 35-2 of the specification.
- the amino acid modification for imparting a difference in isoelectric point is performed by the EU numbering 137th Gly, 138th Gly, 139th in the amino acid sequence of the first polypeptide and / or the second polypeptide.
- the amino acid modification for imparting a difference in isoelectric point is performed by the EU numbering 196th Gln, 199th Ile, 263th Val, 272nd Glu, 316th Gly, 358th Leu, 364th Ser, 383th Ser, 387th Pro, and 397th Val, at least One or more amino acid mutations are introduced, and in the amino acid sequence of the other polypeptide, EU numbering 137th Gly, 138th Gly, 139th Thr, 147th Lys, 192th Ser, 193 Th Leu, 198th Tyr, 199th Ile, 203th Asn, 214th Lys, 274th Lys, 278th Tyr, 288th Lys, 290th Eye Lys, 316th Gly, 317th Lys, 320th Lys, 324th Lys, 335th Thr, 337th Ser, 340th Lys, 358th
- the antigen-binding molecule is an Fc fusion molecule such as an antibody, a bispecific antibody, a peptide Fc fusion protein, or a scaffold Fc fusion protein .
- a pharmaceutical composition comprising the polypeptide according to [74] or [75] and a medically acceptable carrier.
- a method for altering the function of a polypeptide comprising the step of altering the function of an Fc region as compared with a case where the Fc region becomes a homodimer by introducing an amino acid mutation into a heterodimer.
- a method for producing a polypeptide comprising an Fc region comprising a step of modifying the function of the Fc region as compared with a case where the Fc region becomes a homodimer by introduction of an amino acid mutation.
- a polypeptide suitable as a pharmaceutical product in which the binding activity is modified by modifying the amino acid sequence of the constant region of the antibody and the physical properties (eg, stability and uniformity) are improved.
- GpH7-G1d / GpL16-k0 The binding activity of GpH7-G1d / GpL16-k0 (SEQ ID NO: 2, 5) to each Fc ⁇ R was defined as 100.
- Samples and their sequences used for evaluation were GpH7-G1d / GpL16-k0 (SEQ ID NOs: 2, 5), GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NOs: 3, 4, 5), GpH7-B3 / GpL16-k0 (SEQ ID NO: 4, 5), GpH7-A5 / GpL16-k0 (SEQ ID NO: 3, 5).
- FIG. 3 shows that the 329th Pro of EU numbering in the Fc region interacts with Fc ⁇ RIII mainly in one CH2 domain, CH A 2.
- the left side in the figure is called the HA chain, CH A 2, CH A 3, and the right side is called the H B chain, CH B 2, and CH B 3.
- FIG. 3 is a diagram comparing the binding activity to each Fc ⁇ R when P329R is introduced into the same H chain or different H chains with respect to a heterodimerized antibody in which G237A is introduced into one H chain.
- the binding activity of each of GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) to Fc ⁇ R was defined as 100.
- He / Con shows the binding activity to Fc ⁇ RIa of the heterodimerized antibody GpH7-A5 / GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutation in one H chain, GpH7 without mutation It is a value obtained by dividing 100 by the value divided by the binding activity to the Fc ⁇ RIa of the heterodimerized antibody GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NO: 3, 4, 5) using -B3.
- Ho / Con shows the value of the binding activity to Fc ⁇ RIa of the homodimerized antibody GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutation in both H chains, and GpH7-B3 without mutation Is a value obtained by multiplying by 100 the value obtained by dividing by the value of the binding activity to the Fc ⁇ RIa of the homodimerized antibody GpH7-B3 / GpL16-k0 (SEQ ID NOs: 4, 5). It is the figure which compared the binding activity with respect to Fc (gamma) RIIa (R) of the hetero dimerization antibody and homodimerization antibody which introduce
- He / Con does not introduce a mutation into the Fc ⁇ RIIa R binding activity of the heterodimerized antibody GpH7-A5 / GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with a mutation in one H chain It is a value obtained by dividing the heterodimeric antibody GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NO: 3, 4, 5) using GpH7-B3 by the binding activity to Fc ⁇ RIIa R.
- Ho / Con shows the value of the binding activity to Fc ⁇ RIIa R of the homodimerized antibody GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutations in both H chains. This is a value obtained by multiplying by 100 the value obtained by dividing the homodimerized antibody GpH7-B3 / GpL16-k0 (SEQ ID NOs: 4, 5) using B3 by the value of the binding activity to Fc ⁇ RIIa R. It is the figure which compared the binding activity with respect to Fc ⁇ RIIaIIH of the heterodimerized antibody and the homodimerized antibody introduced with the same modification.
- the horizontal axis shows Ho / Con and the vertical axis shows He / Co values.
- He / Con does not introduce mutations into the binding activity of FpH ⁇ RIIa H of the heterodimerized antibody GpH7-A5 / GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutation in one H chain
- This is a value obtained by dividing the heterodimeric antibody GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NO: 3, 4, 5) using GpH7-B3 by the binding activity to Fc ⁇ RIIa H.
- Ho / Con shows the value of the binding activity to Fc ⁇ RIIa H of the homodimerized antibody GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutations in both H chains. This is a value obtained by multiplying by 100 the value obtained by dividing the homodimeric antibody GpH7-B3 / GpL16-k0 (SEQ ID NOs: 4, 5) using B3 by the value of the binding activity to Fc ⁇ RIIa H. It is the figure which compared the binding activity with respect to Fc (gamma) RIIb of the hetero dimerization antibody which introduce
- He / Con shows the binding activity of GpH7-A5 / GpH7-B3 variant / GpL16-k0, which is a heterodimerized antibody using GpH7-B3 variant with mutation to one H chain, to Gc7RIIb without mutation. It is a value divided by the binding activity to the Fc ⁇ RIIb of the heterodimerized antibody GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) using -B3.
- Ho / Con shows the value of the binding activity to Fc ⁇ RIIb of the homodimerized antibody GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutation in both H chains
- GpH7-B3 without mutation Is a value obtained by multiplying by 100 the value obtained by dividing by the value of the binding activity to the Fc ⁇ RIIb of the homodimerized antibody GpH7-B3 / GpL16-k0 (SEQ ID NOs: 4, 5). It is the figure which compared the binding activity with respect to Fc (gamma) RIIIa of the hetero dimerization antibody which introduce
- the horizontal axis shows Ho / Con and the vertical axis shows He / Co values.
- the horizontal axis shows Ho / Con and the vertical axis shows He / Co values.
- He / Con shows the binding activity to Fc ⁇ RIIIa of heterodimerized antibody GpH7-A5 / GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutation in one H chain, GpH7 without mutation It is a value divided by the binding activity to the Fc ⁇ RIIIa of the heterodimerized antibody GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NO: 3, 4, 5) using -B3.
- Ho / Con shows the value of the binding activity to Fc ⁇ RIIIa of the homodimerized antibody GpH7-B3 variant / GpL16-k0 using GpH7-B3 variant with mutations in both H chains and GpH7-B3 without mutations Is a value obtained by multiplying by 100 the value obtained by dividing the homodimeric antibody GpH7-B3 / GpL16-k0 (SEQ ID NOs: 4, 5) using Fc by the value of the binding activity to Fc ⁇ RIIIa.
- FIG. 3 is a conceptual diagram comparing Fc ⁇ R binding in each of a heterodimerized antibody and a homodimerized antibody using a modified H chain.
- the plotted point is included in the region i, it means that the modification introduced in the Fc region has an effect of He / Con> 100, Ho / Con ⁇ 100, He / Con> Ho / Con.
- the plotted point is included in the region ii, it means that the modification introduced into the Fc region has an effect of He / Con> 100, Ho / Con> 100, and He / Con> Ho / Con.
- the plotted point is included in the region iii, it means that the modification introduced into the Fc region has an effect of He / Con ⁇ ⁇ > 100, Ho / Con> 100, and He / Con ⁇ Ho / Con.
- each variant on the active Fc ⁇ R (Activating Receptor) is plotted on the vertical axis
- the binding activity on the inhibitory Fc ⁇ R Inhibitory Receptor
- the binding activity of the natural antibody on the active Fc ⁇ R and inhibitory Fc ⁇ R is 100 and respectively. did.
- the antibody in which the binding activity of the variant to the active Fc ⁇ R is enhanced than that of the natural antibody and the binding activity to the inhibitory Fc ⁇ R is reduced is plotted in the region a (shaded part).
- the antibody in which the binding activity of the variant to the inhibitory Fc ⁇ R is enhanced than that of the natural antibody and the binding activity to the active Fc ⁇ R is decreased is plotted in the region c (shaded area). It is a figure which shows the comparison of the binding activity with respect to active type Fc ⁇ R and inhibitory type Fc ⁇ R. It is the conceptual diagram which compared the binding activity with respect to active type Fc ⁇ R and inhibitory type Fc ⁇ R of each variant.
- the binding activity of the natural antibody to the activated Fc ⁇ R (Activating Receptor) is plotted on the vertical axis and the binding activity on the inhibitory Fc ⁇ R (Inhibitory Receptor) is plotted on the horizontal axis. It was.
- He / Con is a heterodimeric antibody GpH7-A5 / GpH7-B3 that does not introduce a modification to the Fc ⁇ R binding activity of GpH7-A5 / GpH7-B3 variant / GpL16-k0 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) divided by 100 and multiplied by the binding activity to Fc ⁇ R. It is a figure which shows the comparison of the binding activity with respect to Fc ⁇ RIIaRR and Fc ⁇ RIIb of the heterodimerized antibody.
- FIG. 3 is a diagram comparing the binding activity of the modified heterodimerized antibody to Fc ⁇ RIIa R, which is an active Fc ⁇ R, and Fc ⁇ RIIb, which is an inhibitory Fc ⁇ R.
- the horizontal axis represents the He / Con value for the inhibitory Fc ⁇ R, and the vertical axis represents the He / Con value for the active Fc ⁇ R.
- He / Con is a heterodimeric antibody GpH7-A5 / GpH7-B3 that does not introduce a modification to the Fc ⁇ R binding activity of GpH7-A5 / GpH7-B3 variant / GpL16-k0 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) divided by 100 and multiplied by the binding activity to Fc ⁇ R. It is a figure which shows the comparison of the binding activity with respect to Fc ⁇ RIIaRH and Fc ⁇ RIIb of the heterodimerized antibody.
- He / Con is a heterodimeric antibody GpH7-A5 / GpH7-B3 that does not introduce a modification to the Fc ⁇ R binding activity of GpH7-A5 / GpH7-B3 variant / GpL16-k0 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) divided by 100 and multiplied by the binding activity to Fc ⁇ R. It is a figure which shows the comparison of the binding activity with respect to Fc ⁇ RIIIa and Fc ⁇ RIIb of the heterodimerized antibody.
- He / Con is a heterodimeric antibody GpH7-A5 / GpH7-B3 that does not introduce a modification to the Fc ⁇ R binding activity of GpH7-A5 / GpH7-B3 variant / GpL16-k0 / GpL16-k0 (SEQ ID NOs: 3, 4, 5) divided by 100 and multiplied by the binding activity to Fc ⁇ R.
- the vertical axis represents the cytotoxic activity of the antibody, and the horizontal axis represents the antibody concentration ( ⁇ g / mL).
- FIG. 14 is a graph showing the results of examining ADCC activity of the Fc heterodimerized antibody described in Example 12.
- the effector cells were human PBMC.
- GpH7-G1d / GpL16-k0 (SEQ ID NOs: 2, 5), GpH7-Kn033 / GpH7-Hl033 / GpL16-k0 (SEQ ID NOs: 51, 56, 5), GpH7-Kn032 / GpH7-Hl032 / GpL16-k0 (SEQ ID NO: 53, 58, 5), GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 (SEQ ID NO: 54, 59, 5), GpH7-Kn056 / GpH7-Hl055 / GpL16 -k0 (SEQ ID NOs: 55, 60, 5), GpH7-Kn037 / GpH7-H1036 / GpL16-k0 (SEQ ID NOs: 52, 57, 5).
- the vertical axis represents the cytotoxic activity of the antibody, and the horizontal axis represents the antibody concentration ( ⁇ g / mL). It is a figure which shows the examination result of ADCC activity of the hetero dimerization antibody H240-Kn061 / H240-Hl071 / L73-k0.
- the effector cells were human PBMC.
- the sample used for the evaluation and its sequence are H240-Kn033 / H240-Hl033 / L73-k0 (SEQ ID NO: 84, 85, 106), H240-Kn032 / H240-Hl032 / L73-k0 (SEQ ID NO: 86, 87, 106), H240-Kn061 / H240-Hl071 / L73-k0 (SEQ ID NO: 81, 82, 106), H240-afucosyl_G1d (H240-afucosyl_G1d has the same amino acid sequence as H240-G1d (SEQ ID NO: 83), The fucose is removed) / L73-k0 (SEQ ID NO: 83, 106).
- the vertical axis represents the cytotoxic activity of the antibody, and the horizontal axis represents the antibody concentration ( ⁇ g / mL). It is a figure which shows the binding activity with respect to FcgRI of the point mutant which used the hetero dimerization antibody H240-Kn061 / H240-Hl071 / L73-k0 as a template.
- Relative KD on the vertical axis represents the value obtained by dividing KDmol (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 for FcgRI by the KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Relative KD on the vertical axis represents a value obtained by dividing KD (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 with respect to FcgRIIa R by KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Relative KD on the vertical axis represents a value obtained by dividing KD (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 with respect to FcgRIIa H by KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Relative KD on the vertical axis represents the value obtained by dividing the KD (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 for FcgRIIb by the KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Relative KD on the vertical axis represents the value obtained by dividing KD (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 for FcgRIIIa F by the KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Relative KD on the vertical axis represents the value obtained by dividing KD (mol / L) of H240-Kn061 / H240-Hl071 / L73-k0 for FcgRIIIaIIIV by the KD of each variant.
- the numbers on the horizontal axis represent the order when Relative KD is arranged in ascending order.
- Samples used for evaluation and their sequences were H240-Kn033 / H240-Hl033 / L73-k0 (SEQ ID NOs: 84, 85, 106), H240-Kn061 / H240-Hl071 / L73-k0 (SEQ ID NOs: 81, 82, 106), H240-afucosyl_G1d / L73-k0 (SEQ ID NO: 83, 106), H240-Kn072 / H240-Hl076 / L73-k0 (SEQ ID NO: 90, 91, 106).
- the vertical axis represents the cytotoxic activity of the antibody, and the horizontal axis represents the antibody concentration ( ⁇ g / mL).
- Samples used for evaluation and their sequences were H240-Kn033 / H240-Hl033 / L73-k0 (SEQ ID NO: 84, 85, 106), H240-afucosyl_G1d / L73-k0 (SEQ ID NO: 83, 106), H240-Kn113 / H240-Hl076 / L73-k0 (SEQ ID NO: 92, 91, 106), H240-Kn115 / H240-Hl076 / L73-k0 (SEQ ID NO: 93, 91, 106), H240-Kn125 / H240-Hl076 / L73 -k0 (SEQ ID NO: 94, 91, 106).
- the vertical axis represents the cytotoxic activity of the antibody, and the horizontal axis represents the antibody concentration ( ⁇ g / mL). It is a figure which shows the examination result of ADCC activity, such as heterodimerization antibody H240-Kn067 / H240-Hl068 / L73-k0.
- the effector cells were human PBMC.
- Samples used for evaluation and their sequences were H240-Kn033 / H240-Hl033 / L73-k0 (SEQ ID NO: 84, 85, 106), H240-afucosyl_G1d / L73-k0 (SEQ ID NO: 83, 106), H240-Kn067 / H240-Hl068 / L73-k0 (SEQ ID NO: 95, 96, 106), H240-Kn120 / H240-Hl068 / L73-k0 (SEQ ID NO: 99, 96, 106), H240-Kn126 / H240-Hl068 / L73 -k0 (SEQ ID NO: 100, 96, 106).
- the side chains of three residues Gln127, Leu132, and Phe160 that differ between FcgRIIa R and FcgRIIb are shown in the vicinity of the interaction interface between Fc and FcgRIIa R of the same structure.
- the corresponding amino acid residues in FcgRIIb are represented by one letter.
- FIG. 4 is a diagram showing the structure around Lys127 (Gln in the FcgRIIaGR type) of the FcgRIIb extracellular region in the Fc (Kn120 / Hl068) / FcgRIIb extracellular region complex determined by X-ray crystal structure analysis.
- Lys127 Gln in the FcgRIIaGR type
- Fc (R) BP208
- FcgRIIb extracellular region complex For each of the CH2 domain and the CH3 domain, the left side was designated as domain A and the right side as domain B.
- the Fc (BP208) / FcgRIIb extracellular region complex is drawn with a bold line
- the Fc (WT) / FcgRIIa extracellular region complex is drawn with a thin line.
- the structure of Fc ⁇ ⁇ ⁇ ⁇ (WT) ⁇ ⁇ ⁇ ⁇ / FFcgRIIa extracellular region complex only CH2 domain A is drawn. It is the figure which showed the structure around Ser239 of Fc (BP208) CH2 domain B among Fc (BP208) / FcgRIIb extracellular region complex determined by X-ray crystal structure analysis.
- A H240-AK072 / H240-BH076 / L73-k0
- B H240-FA021 / H240-FB084 / L73-k0
- B results of ion exchange rechromatography
- the present invention provides a polypeptide comprising an Fc region, wherein the Fc region is composed of a heterodimer comprising a first polypeptide and a second polypeptide, wherein the Fc region is A polypeptide characterized by being composed of a homodimer containing only the first polypeptide, and the Fc region is composed of a homodimer containing only the second polypeptide, Provided is a polypeptide characterized in that the function of the Fc region is altered compared to the polypeptide to be prepared. Furthermore, a method for producing the polypeptide and a method for modifying the function of the polypeptide containing the Fc region are also provided.
- a polypeptide comprising an Fc region, wherein the Fc region is composed of a heterodimer comprising a first polypeptide and a second polypeptide refers to the first It may be a polypeptide complex composed of the polypeptide and the second polypeptide, and other plural polypeptides.
- first polypeptide and “second polypeptide” mean polypeptides constituting the Fc region of an antibody.
- First polypeptide” and “second polypeptide” mean that the sequences are different from each other, and preferably means that the sequences of at least the CH2 regions are different.
- the polypeptide may be, for example, a polypeptide that constitutes the Fc region of natural IgG, or a polypeptide in which a modification is made to the polypeptide that constitutes the Fc region of natural IgG. .
- Natural IgG refers to a polypeptide that includes the same amino acid sequence as IgG found in nature and belongs to the class of antibodies substantially encoded by immunoglobulin gamma genes.
- natural human IgG means natural human IgG1, natural human IgG2, natural human IgG3, natural human IgG4, and the like.
- Naturally-occurring IgG includes naturally occurring mutants.
- polypeptide usually refers to peptides and proteins having a length of about 10 amino acids or more. Moreover, although it is normally a polypeptide derived from a living organism
- the protein molecule in the present invention refers to a molecule containing the polypeptide.
- polypeptide of the present invention include antibodies. Further preferred examples include natural IgG, particularly natural human IgG.
- Native IgG refers to a polypeptide that includes the same amino acid sequence as an IgG found in nature and belongs to the class of antibodies substantially encoded by immunoglobulin gamma genes.
- natural human IgG means natural human IgG1, natural human IgG2, natural human IgG3, natural human IgG4, and the like.
- Naturally-occurring IgG includes naturally occurring mutants.
- IgK secreta, secretor
- IgL1, IgL2, IgL3, IgL6, IgL7 (Lambda, ⁇ chain) type in the light chain constant region of the antibody. May be.
- human IgK (Kappa) constant region and human IgL7 (Lambda) constant region multiple allotype sequences due to gene polymorphisms are described in Sequences of proteins of immunological interest, NIH Publication No.91-3242. Any of them may be used.
- the light chain constant region may be a light chain constant region in which alterations such as amino acid substitution, addition, deletion, insertion and / or modification have been performed.
- the Fc region of the antibody examples include IgA1, IgA2, IgD, IgE, IgG1, IgG2, IgG3, IgG4, and IgM type Fc regions.
- the Fc region of the antibody of the present invention for example, the Fc region of a human IgG antibody can be used, and preferably the Fc region of a human IgG1 antibody.
- a constant region of natural IgG specifically, a constant region originating from natural human IgG1 (SEQ ID NO: 76), a constant region originating from natural human IgG2 (sequence) No.
- FIG. 32 shows the sequences of the constant regions of natural IgG1, IgG2, IgG3, and IgG4.
- the constant region of natural IgG includes mutants naturally occurring therefrom.
- constant regions of human IgG1, human IgG2, human IgG3, and human IgG4 antibodies multiple allotype sequences due to gene polymorphisms are described in SequencesSof proteins of immunological interest, NIH Publication No.91-3242. Any of them may be used.
- the sequence of human IgG1 may be DEL or EEM as the amino acid sequence of EU numbering 356-358.
- the “Fc region” refers to a region consisting of a hinge region or a part thereof, CH2 and CH3 domains in an antibody molecule.
- the Fc region of the IgG class is EU numbering (also referred to as EU INDEX in this specification) and means, for example, from 226th cysteine to C-terminus, or from 230th proline to C-terminus, but is not limited thereto.
- Fc region is suitably obtained by re-elution of the fraction adsorbed on the protein A column or protein G column after partial digestion of IgG1, IgG2, IgG3, IgG4 monoclonal antibody, etc. with a protease such as pepsin Can be done.
- protease such as pepsin
- Such proteolytic enzymes are not particularly limited as long as they can digest full-length antibodies so that Fab and F (ab ') 2 can be produced in a limited manner by appropriately setting the reaction conditions of the enzyme such as pH.
- pepsin, papain, etc. can be illustrated.
- heterodimerization means that one polypeptide is composed of two polypeptides having different amino acid sequences
- heterodimer means two polypeptides having different amino acid sequences. It means a polypeptide composed of “Homodimerization” means that one polypeptide is composed of two polypeptides having the same amino acid sequence
- homodimer means a polypeptide consisting of two identical amino acid sequences.
- heterodimer or “homodimer” preferably means “heterodimerization” or “homodimerization” with respect to the Fc region, more preferably CH2 in the Fc region.
- heterodimerization or “homodimerization”.
- the “parent polypeptide” means a polypeptide before introduction of a modification such as an amino acid mutation.
- amino acid mutations of the present invention may be used alone or in combination.
- the number of combinations is not particularly limited, and can be set as appropriate within the range in which the object of the invention can be achieved. For example, it is 2 or more and 30 or less, preferably 2 or more and 15 or less. .
- the amino acid mutation may be added to only one of the two polypeptides constituting the Fc region, or may be added to both of the two polypeptides as appropriate. Further, in the present invention, in order to obtain the effect of modifying the higher function of the Fc region, compared to the case where no mutation is introduced and the case where the mutation is introduced into both Fc regions of two polypeptides, When only the mutation is introduced, it is preferable that at least one amino acid mutation that improves the function of the Fc region is introduced.
- the site to be modified is not particularly limited as long as it is an Fc region, and can be appropriately set within a range in which the object of the present invention can be achieved.
- a hinge region for example, a CH2 region, a CH3 region, and the like.
- the site to be modified is the CH2 region.
- the CH2 region means EU numbering 231st to 340th
- the CH3 region means EU numbering 341th to 447th.
- Modifications can be made to amino acid residues at positions.
- amino acid alteration means any one of substitution, deletion, addition, insertion or modification, or a combination thereof.
- amino acid modification can be rephrased as amino acid mutation and is used interchangeably.
- the purpose is to modify, for example, the following points (a) to (c) by substituting with another amino acid residue.
- Amino acid residues are divided into the following groups based on general side chain properties: (1) Hydrophobicity: norleucine, met, ala, val, leu, ile; (2) Neutral hydrophilicity: cys, ser, thr, asn, gln; (3) Acidity: asp, glu; (4) Basicity: his, lys, arg; (5) Residues that affect chain orientation: gly, pro; and (6) Aromaticity: trp, tyr, phe.
- substitution of amino acid residues within each of these groups is called conservative substitution, while the substitution of amino acid residues between other groups is called non-conservative substitution.
- substitution in the present invention may be conservative substitution, non-conservative substitution, or a combination of conservative substitution and non-conservative substitution.
- polypeptide of the present invention can further contain additional modifications. Additional alterations can be selected from, for example, amino acid substitutions, deletions, modifications, or combinations thereof.
- the polypeptide of the present invention can be arbitrarily modified as long as it does not substantially change the target function of the polypeptide.
- the polypeptide of the present invention is an antibody
- the heavy chain and the light chain can be modified.
- mutations can be made by conservative substitution of amino acid residues.
- such a modification can be performed as long as the change in the function is within the scope of the object of the present invention.
- the alteration of the amino acid sequence in the present invention includes post-translational modification.
- post-translational modifications addition or deletion of sugar chains can be shown.
- the 297th amino acid residue of the EU numbering can be modified with a sugar chain.
- the sugar chain structure to be modified is not limited.
- antibodies expressed in eukaryotic cells contain glycosylation in the constant region. Therefore, antibodies expressed in the following cells are usually modified with some sugar chain.
- Mammalian antibody-producing cells ⁇ Eukaryotic cells transformed with an expression vector containing DNA encoding the antibody
- the eukaryotic cells shown here include yeast and animal cells.
- CHO cells and HEK293H cells are representative animal cells for transformation with an expression vector containing DNA encoding an antibody.
- those having no sugar chain modification at the position are also included in the antibody of the present invention.
- An antibody whose constant region is not modified with a sugar chain can be obtained by expressing a gene encoding the antibody in a prokaryotic cell such as Escherichia coli.
- a sialic acid may be added to the sugar chain of the Fc region (MAbs. 2010 2010 Sep-Oct; 2 (5): 519-27. .).
- polypeptide of the present invention is an antibody
- an amino acid substitution J Immunol. 2006 Jan 1; 176 (1): 346-56, J Biol Chem. 2006 Aug
- an amino acid substitution J Immunol. 2006 Dec; 18 (12): 1759-69., Nat Biotechnol. 2010 Feb; 28 (2): 157-9.
- amino acid substitution (WO / 2009/041613)) for improving the heterogeneity and stability of the antibody
- heterodimerized polypeptide of the present invention it is necessary to associate polypeptides having different amino acids with each other, or to separate the target heterodimerized polypeptide from other homodimerized polypeptides.
- amino acid residues that contact at the interface of other constant regions of the H chain include, for example, EU in the CH3 region Numbering 356th residue, EU numbering 439th residue, EU numbering 357th residue, EU numbering 370th residue, EU numbering 399th residue, region corresponding to EU numbering 409th residue Can be mentioned.
- a set of 3 to 3 amino acid residues can be an antibody having the same type of charge; (1) Amino acid residues contained in the H chain CH3 region, wherein the amino acid residues at EU positions 356 and 439, (2) amino acid residues contained in the H chain CH3 region, EU amino acid residues at positions 357 and 370, (3) Amino acid residues contained in the H chain CH3 region and having EU numbering at positions 399 and 409.
- a set of amino acid residues selected from the set of amino acid residues shown in the above (1) to (3) in a second H chain CH3 region different from the first H chain CH3 region are the first H chain CH3 region.
- the antibody may have an opposite charge to the corresponding amino acid residue in.
- amino acid residues described in (1) to (3) above are close to each other when they are associated.
- a person skilled in the art finds a site corresponding to the amino acid residue described in (1) to (3) above by using homology modeling using commercially available software for the desired H chain CH3 region or H chain constant region.
- the amino acid residue at the site can be subjected to modification.
- the “charged amino acid residue” is preferably selected from, for example, amino acid residues included in any of the following groups (X) or (Y); (X) glutamic acid (E), aspartic acid (D), (Y) Lysine (K), Arginine (R), Histidine (H).
- “having the same kind of charge” means, for example, that two or more amino acid residues each have an amino acid residue included in any one group of (X) or (Y). Means that. “Having an opposite charge” means, for example, an amino acid residue in which at least one amino acid residue of two or more amino acid residues is included in any one group of the above (X) or (Y) Means that the remaining amino acid residues have amino acid residues contained in different groups.
- the first H chain CH3 region and the second H chain CH3 region may be cross-linked by a disulfide bond.
- the amino acid residues to be modified in the present invention are not limited to the above-described antibody variable region or antibody constant region amino acid residues. A person skilled in the art can find amino acid residues that form an interface for polypeptide variants or heterologous multimers by homology modeling using commercially available software, etc. Amino acid residues can be subjected to modification.
- the heterodimerized polypeptide can also be obtained by separating and purifying the heterodimerized polypeptide from the homodimerized polypeptide. It is possible to obtain.
- a homodimerized polypeptide consisting of only two first polypeptides, two second polypeptides A homodimerized polypeptide consisting only of the polypeptide is mixed as an impurity.
- a known technique can be used as a method for efficiently removing these two types of homodimerized polypeptides.
- a method has been reported that enables the purification of two types of homodimers and the desired heterodimerized antibody by ion-exchange chromatography by introducing amino acid substitutions into the variable regions of the two types of H chains and providing differences in isoelectric points.
- WO2007114325 As a method of purifying heterodimerized antibodies, a method of purifying heterodimerized antibodies consisting of mouse IgG2a H chain that binds to protein A and rat IgG2b H chain that does not bind to protein A using protein A. has been reported (WO98050431, WO95033844).
- polypeptide of the present invention may be prepared based on the above-described modification.
- the amino acid sequence can be modified by various methods known in the art. These methods include, but are not limited to, site-directed mutagenesis (Hashimoto-Gotoh, T, Mizuno, T, Ogasahara, Y, and Nakagawa, M. (1995) An oligodeoxyribonucleotide- directed dual amber method for site-directed mutagenesis. Gene 152, 271-275, Zoller, MJ, and Smith, M.
- the function of the Fc region means, for example, the binding activity of the Fc region to the Fc ⁇ receptor (enhancement of binding activity or reduction of binding activity), selectivity between Fc ⁇ receptor isoforms of the Fc region (binding) Improvement of selectivity), physicochemical stability of Fc region, ADCC activity, ADCP activity, etc.
- the selectivity between Fc ⁇ receptor isoforms in the Fc region means selective binding to a specific isoform of Fc ⁇ receptor.
- the physicochemical stability of the Fc region refers to, for example, the thermodynamic stability of the Fc region, stability to proteases, stability to chemical treatment, stability to freeze-thaw, storage stability, stability under acidic conditions, It means photostability, stability against stress associated with shaking and concentration, and maintenance of solubility in a wide range of solution conditions.
- the function of the Fc region is a function combining two or more of Fc region binding activity to Fc ⁇ receptor, selectivity between Fc ⁇ receptor isoforms of Fc region, physicochemical stability of Fc region, etc.
- the function combining the binding activity of the Fc region to the Fc ⁇ receptor and the selectivity between the Fc ⁇ receptor isoforms of the Fc region the function combining the binding activity of the Fc region to the Fc ⁇ receptor and the physicochemical stability of the Fc region.
- Functions that combine the selectivity between the Fc ⁇ receptor isoforms of the Fc region and the physicochemical stability of the Fc region, the binding activity of the Fc region to the Fc ⁇ receptor, the selectivity between the Fc ⁇ receptor isoforms of the Fc region and the Fc region It means a function that combines physicochemical stability.
- modifying the function of the Fc region means, for example, enhancement or attenuation of the binding activity of the Fc region to the Fc ⁇ receptor when the function of the Fc region exhibits binding activity to the Fc ⁇ receptor of the Fc region.
- the improvement in selectivity means, for example, enhancing the binding activity to a certain Fc ⁇ receptor while maintaining or decreasing the binding activity to another Fc ⁇ receptor.
- improvement of selectivity means, for example, maintaining or enhancing the binding activity to another Fc ⁇ receptor while reducing the binding activity to a certain Fc ⁇ receptor.
- the function of the Fc region when the function of the Fc region shows selectivity between Fc ⁇ receptor subtypes in the Fc region, it means improvement or reduction in selectivity between Fc ⁇ receptor subtypes in the Fc region.
- the function of the Fc region when the function of the Fc region shows the physicochemical stability of the Fc region, it means an improvement or decrease in the physicochemical stability of the Fc region, suppression of a decrease in stability, and more specifically, For example, it means improvement or reduction of the Tm value in the CH2 region, suppression of reduction of the Tm value, and the like.
- Fc region Fc ⁇ receptor binding activity, Fc region Fc ⁇ receptor isoform selectivity, and Fc region physicochemical stability combined with improved functions compared to the control. It is not always necessary to improve the receptor binding activity, the selectivity between Fc ⁇ receptor isoforms in the Fc region, and the physicochemical stability of the Fc region, as long as the function of the Fc region is improved as a whole. .
- the Fc region has a reduced activity that combines the binding activity to the Fc ⁇ receptor, the selectivity between the Fc ⁇ receptor isoforms of the Fc region, and the physicochemical stability of the Fc region compared to the control.
- Fc ⁇ receptor binding activity, selectivity between Fc ⁇ receptor isoforms in the Fc region, and physicochemical stability of the Fc region do not necessarily have to be reduced, but overall the function of the Fc region may be reduced. That's fine.
- Fc ⁇ receptor (which may be described as Fc ⁇ receptor, Fc ⁇ R or FcgR in the present specification) refers to a receptor that can bind to the Fc region of IgG1, IgG2, IgG3, or IgG4. By any member of the family of proteins encoded by the Fc ⁇ receptor gene.
- this family includes Fc ⁇ RI (CD64), including isoforms Fc ⁇ RIa, Fc ⁇ RIb and Fc ⁇ RIc; isoforms Fc ⁇ RIIa (including allotypes H131 (H) and R131 (R)), Fc ⁇ RIIb (Fc ⁇ RIIb-1 and Fc ⁇ RIIb- 2) and Fc ⁇ RII (CD32) including Fc ⁇ RIIc; and Fc ⁇ RIII (CD16) including isoforms Fc ⁇ RIIIa (including allotypes V158 and F158) and Fc ⁇ RIIIb (including allotypes Fc ⁇ RIIIb-NA1 and Fc ⁇ RIIIb-NA2), and any undiscovered Human Fc ⁇ Rs or Fc ⁇ R isoforms or allotypes, but are not limited to these.
- Fc ⁇ R includes, but is not limited to, those derived from human, mouse, rat, rabbit and monkey, and may be derived from any organism.
- Mouse Fc ⁇ Rs include Fc ⁇ RI (CD64), Fc ⁇ RII (CD32), Fc ⁇ RIII (CD16) and Fc ⁇ RIII-2 (CD16-2 or Fc ⁇ RIV), as well as any undiscovered mouse Fc ⁇ Rs or Fc ⁇ R isoforms or allotypes However, it is not limited to these.
- Suitable examples of such Fc ⁇ receptors include human Fc ⁇ RI (CD64), Fc ⁇ RIIa (CD32), Fc ⁇ RIIb (CD32), Fc ⁇ RIIIa (CD16) and / or Fc ⁇ RIIIb (CD16).
- Fc ⁇ R has an active receptor having ITAM (Immunoreceptor-tyrosine-based activation-motif) and an inhibitory receptor having ITIM (immunoreceptor-tyrosine-based inhibition-motif).
- ITAM Immunoreceptor-tyrosine-based activation-motif
- ITIM immunommunoreceptor-tyrosine-based inhibition-motif
- Fc ⁇ R is classified into Fc ⁇ RI, Fc ⁇ RIIa R, Fc ⁇ RIIa H, Fc ⁇ RIIIa, and Fc ⁇ RIIIb active Fc ⁇ R, and Fc ⁇ RIIb inhibitory Fc ⁇ R.
- the polynucleotide and amino acid sequences of Fc ⁇ RI are NM_000566.3 and NP_000557.1, respectively.
- the polynucleotide sequence and amino acid sequence of Fc ⁇ RIIa are BC020823.1 and AAH20823.1, respectively.
- the polynucleotide sequence and amino acid sequence of Fc ⁇ RIIb are BC146678.1 and AAI46679.1, respectively.
- the polynucleotide sequence and amino acid sequence of Fc ⁇ RIIIa are described in BC033678.1 and AAH33678.1, respectively.
- the polynucleotide sequence and amino acid sequence of Fc ⁇ RIIIb are described in BC128562.1 and AAI28563.1, respectively (RefSeq accession number).
- Fc ⁇ RIIa has two gene polymorphisms in which the 131st amino acid of Fc ⁇ RIIa is substituted with histidine (H type) or arginine (R type) (J. Exp. Med, 172, 19-25, 1990).
- Fc ⁇ RIIb has two gene polymorphisms in which the 232nd amino acid of Fc ⁇ RIIb is replaced with isoleucine (type I) or threonine (T type) (Arthritis. Rheum. 46: 1242-1254 (2002) ).
- Fc ⁇ RIIIa has two gene polymorphisms in which the 158th amino acid of Fc ⁇ RIIIa is replaced with valine (V type) or phenylalanine (F type) (J. (Clin. Invest. 100 (5): 1059) -1070 (1997)).
- Fc ⁇ RIIIb has two gene polymorphisms, NA1 type and NA2 type (J.JClin. Invest. 85: 1287-1295
- the Biacore system takes the shift amount, that is, the mass change at the sensor chip surface on the vertical axis, and displays the time change of mass as measurement data (sensorgram).
- the amount of analyte binding to the ligand captured on the sensor chip surface from the sensorgram (the amount of change in the response on the sensorgram before and after the interaction of the analyte) is determined.
- the amount of binding also depends on the amount of ligand, it is necessary to compare under the condition that the amount of ligand can be regarded as essentially the same amount.
- the kinetics: association rate constant (ka) and dissociation rate constant (kd) are obtained from the curve of the sensorgram, and the affinity (KD) is obtained from the ratio of the constants.
- an inhibition measurement method is also preferably used. Examples of inhibition assays are described in Proc. Natl. Acad. Sci. USA (2006) 103 (11), 4005-4010.
- Biacore® GE® Healthcare
- Biacore includes all models such as Biacore T100, T200, X100, A100, 4000, 3000, 2000, 1000, and C.
- Any sensor chip for Biacore such as CM7, CM5, CM4, CM3, C1, SA, NTA, L1, HPA, and Au chip can be used as the sensor chip.
- a buffer adjusted to a neutral pH such as pH 7.4 with HEPES, phosphoric acid, ACES, Tris, citric acid or the like can be used.
- Measurement temperature can be measured in the range of 4-37 °C.
- Protein A, Protein G, Protein L, anti-human IgG antibody, anti-human IgG-Fab, anti-human L chain antibody, anti-human that supplement the antibody with a coupling method such as amine coupling, disulfide coupling, aldehyde coupling on the sensor chip Immobilizing proteins for capturing antibodies such as Fc antibodies, antigenic proteins, and antigenic peptides.
- Fc ⁇ receptors such as Fc ⁇ receptor I, IIa R type, IIa H type, IIb, IIIa F type, V type, and IIIb are flowed as analytes, the interaction is measured, and a sensorgram is obtained.
- concentration of Fc ⁇ receptor at this time can be carried out in the range of several uM to several pM according to the strength of interaction such as KD of the sample to be measured.
- KD dissociation constant
- the polypeptide or Fc region of the present invention has increased binding activity to various Fc ⁇ receptors or the binding depending on whether the value of KD has decreased or increased. It can be determined whether the activity has decreased.
- the value when captured with antibody-supplemented protein immobilized on the sensor chip, the value is measured using the amount of change in the sensorgram value before and after each Fc ⁇ receptor is run as an analyte for the antibody on the sensor chip. It can be determined whether the polypeptide or Fc region of the present invention has increased binding activity to various Fc ⁇ receptors or decreased binding activity. It is also possible to immobilize various Fc ⁇ receptors on the sensor chip instead of the antibody and allow the antibody sample to be evaluated to interact therewith.
- polypeptide or Fc region of the present invention has enhanced binding activity to various Fc ⁇ receptors from the degree of decrease or increase in KD value calculated from the sensorgram of interaction, or the increase in sensorgram before and after the antibody sample is allowed to act, Alternatively, it can be determined whether the binding activity has decreased.
- the Fc region binding activity to Fc ⁇ receptors is determined by ELISA, FACS (fluorescence activated cell sorting), ALPHA screen (Amplified Luminescent Proximity Homogeneous Assay), BIACORE method using surface plasmon resonance (SPR) phenomenon, etc. (Proc. Natl. Acad. Sci. USA (2006) 103 (11), 4005-4010).
- ALPHA screen is implemented based on the following principle by ALPHA technology using two beads of donor and acceptor.
- a molecule bound to the donor bead interacts biologically with the molecule bound to the acceptor bead, and a luminescent signal is detected only when the two beads are in close proximity.
- a photosensitizer in the donor bead excited by the laser converts ambient oxygen into excited singlet oxygen. Singlet oxygen diffuses around the donor bead, and when it reaches the adjacent acceptor bead, it causes a chemiluminescence reaction in the bead, and finally light is emitted.
- the chemiluminescence reaction does not occur because the singlet oxygen produced by the donor bead does not reach the acceptor bead.
- test polypeptide labeled with biotin on the donor bead is bound to streptavidin on the donor bead, and an Fc ⁇ receptor tagged with glutathione S transferase (GST) is bound to the acceptor bead.
- GST glutathione S transferase
- Untagged polypeptides compete with the interaction between the test polypeptide and the Fc ⁇ receptor. Relative binding activity can be determined by quantifying the decrease in fluorescence that results from competition. It is known that a polypeptide is biotinylated using Sulfo-NHS-biotin or the like.
- a glutathione column can be expressed in a cell or the like holding a fusion gene in which a polynucleotide encoding Fc ⁇ receptor and a polynucleotide encoding GST are fused in frame.
- a method of purifying using the above can be employed as appropriate.
- the obtained signal is suitably analyzed by fitting to a one-site competition model using nonlinear regression analysis using software such as GRAPHPAD PRISM (GraphPad, San Diego).
- the tagging is not limited to GST, and any tag such as histidine tag, MBP, CBP, Flag tag, HA tag, V5 tag, c-myc tag, etc. may be used.
- the binding of the test polypeptide to the donor bead is not limited to the binding using the biotin-streptavidin reaction.
- Fc such as an antibody or Fc fusion polypeptide
- a method of binding the test polypeptide via an Fc recognition protein such as Protein A or Protein G on the donor bead can be considered. . *
- Fc ⁇ R binding or decreased Fc ⁇ R binding activity means that when assayed with essentially the same amount of polypeptide to be compared, it binds to Fc ⁇ R with a substantially weaker binding activity than the parent polypeptide.
- a heterodimerized polypeptide with reduced, reduced, or reduced Fc ⁇ R binding or Fc ⁇ R binding activity is more essential than a homodimerized polypeptide when assayed with essentially the same amount of polypeptide to be compared. Those that bind Fc ⁇ R with weaker binding activity.
- the KD value ratio (KD value of parent polypeptide / KD value of polypeptide into which mutation is introduced) is preferably 0.99 or less, 0.95 or less, 0.9 or less, 0.8 or less, 0.7 or less, 0.5 or less, 0.3 or less, 0.1 or less. More preferably, they are 0.08 or less, 0.05 or less, 0.02 or less, 0.01 or less, or 0.001 or less.
- the KD value ratio is also referred to as KD ratio.
- the KD value measured by the above measurement method is preferably increased by 1 pM or more, 10 ⁇ p, 100 ⁇ p, 1 ⁇ m or more, 2 ⁇ n or more, 3 to nM or more, 5 to nM or more, 10 to nM As described above, it is more preferable that the concentration is increased by 20 nM or more, 50 nM or more, 100 nM or more, 1 ⁇ M or more.
- the KD value measured by the above measurement method is preferably 1 pM or more, 10 pM or more, 100 pM or more, 1 nM or more, 10 nM or more, 100 nM or more, 500 nM or more, 1 ⁇ M As described above, it is preferably 3 ⁇ M or more and 5 ⁇ M or more.
- Binding to Fc ⁇ R or enhancement, increase or improvement of binding activity to Fc ⁇ R means that when assayed with essentially the same amount of polypeptide to be compared with Fc ⁇ R with a substantially stronger binding activity than the parent polypeptide. It means joining.
- a heterodimerized polypeptide with enhanced, elevated or improved binding to Fc ⁇ R or to Fc ⁇ R is more essential than a homodimerized polypeptide when assayed with essentially the same amount of polypeptide to be compared.
- a substance that binds to Fc ⁇ R with a stronger binding activity is more essential than a homodimerized polypeptide when assayed with essentially the same amount of polypeptide to be compared.
- the KD value ratio (KD value of parent polypeptide / KD value of polypeptide into which mutation is introduced) is preferably 1.1 or more, 1.2 or more, 1.3 or more, 1.5 or more, 1. 8 or more, 2 or more, 3 or more. More preferably, they are 5 or more, 10 or more, 100 or more, 250 or more, 1000 or more. In the present specification, the KD value ratio is also referred to as KD ratio.
- the KD value measured by the above measurement method is preferably decreased by 1 pM or more, 10 pM, 100 pM, 1 nM or more, 2 nM or more, 3 nM or more, 5 nM or more, 10 It is more preferable that the concentration is reduced by nM or more, 20 nM or more, 50 nM or more, 100 nM or more, or 1 ⁇ M or more.
- the KD value measured by the above measurement method is preferably 5 ⁇ M or less, 3 ⁇ M or less, 1 ⁇ M or less, 0.5 ⁇ M or less, 0.1 ⁇ M or less, 0.01 ⁇ M or less, 1 nM or less, 0.1 nM or less, More preferably, it is 0.001 nM or less and 1 pM or less.
- amino acid mutations may be introduced.
- the type and range of the amino acid mutation to be introduced are not particularly limited. Further, it has been reported that the strength of interaction between the Fc region of an antibody and Fc ⁇ R is dependent on the Zn 2+ ion concentration (Immunology Letters 143 (2012) 60-69). As the antibody has a higher Zn 2+ ion concentration in the Fc region, the interaction between the Fc region and FcgR is enhanced.
- each CH2 domain of the distal Fc region is opened. This facilitates the interaction between the CH2 domain and FcgR and enhances the interaction between the Fc region and FcgR.
- the Fc ⁇ receptor is Fc ⁇ RIa
- the region i of Table 2-1 and Table 2-2 is used. At least one amino acid mutation selected from the group consisting of the amino acid mutations described in 1) may be introduced.
- the Fc ⁇ receptor is Fc ⁇ RIa
- the amino acid sequences of the first polypeptide and / or the second polypeptide constituting the Fc region are shown in Tables 2-1, 2-2 and At least one amino acid mutation selected from the group consisting of amino acid mutations described in Region ii of Table 2-3 may be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region includes the specification Table 3-1 and Table 3-2. At least one amino acid mutation selected from the group consisting of the amino acid mutations described in the region i may be introduced. In the case where the Fc ⁇ receptor is Fc ⁇ RIIa R, the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region includes the specification Table 3-1 and Table 3-2. At least one amino acid mutation selected from the group consisting of the amino acid mutations described in region ii may be introduced.
- the Fc ⁇ receptor When the Fc ⁇ receptor is Fc ⁇ RIIaIIH, the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in the region i of the specification table 4. At least one amino acid mutation selected from the group consisting of amino acid mutations may be introduced.
- the Fc ⁇ receptor is Fc ⁇ RIIaIIH, the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region is described in region ii of Table 4 in the specification. At least one amino acid mutation selected from the group consisting of amino acid mutations may be introduced.
- the Fc ⁇ receptor when the Fc ⁇ receptor is Fc ⁇ RIIb, the amino acid sequence described in region i of Table 5 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region. At least one amino acid mutation selected from the group consisting of mutations may be introduced.
- the Fc ⁇ receptor is Fc ⁇ RIIb, the amino acid sequence described in region ii of Table 5 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region. At least one amino acid mutation selected from the group consisting of mutations may be introduced.
- the Fc ⁇ receptor when the Fc ⁇ receptor is Fc ⁇ RIIIa, the amino acid sequence described in region i of Table 6 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region. At least one amino acid mutation selected from the group consisting of mutations may be introduced. Further, when the Fc ⁇ receptor is Fc ⁇ RIIIa, the amino acids described in region ii of Table 6 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region. At least one amino acid mutation selected from the group consisting of mutations may be introduced.
- the Fc ⁇ receptor is Fc ⁇ RIIIa
- the Fc ⁇ receptor is Fc ⁇ RIIIa
- EU numbering 239 at least one selected from the group consisting of substitution of amino acid S to D, EU numbering 330th amino acid A to L, and EU numbering 332 amino acid I to E
- EU numbering At least one selected from the group consisting of substitution of amino acid L at position 234 with Y, substitution of EU numbering 236 at amino acid G with W, and substitution of amino acid S at EU numbering 298 with amino acid S
- the above (for example, two or three) amino acid mutations may be introduced.
- the Fc ⁇ receptor is Fc ⁇ RIIIa
- Numbering 234th Leu, 235th Leu, 236th Gly, 239th Ser, 268th His, 270th Asp, 298th Ser, 327th Ala, 328th Leu and 334th Lys Mutation is introduced into at least one or more amino acids selected from (for example, 2 or 3), and in the amino acid sequence of the other polypeptide, Asp of EU numbering 270, Lys of 326, 330
- a mutation may be introduced into at least one (for example, two or three) amino acids selected from the Ala and 334th Lys.
- the amino acid to be modified can be appropriately selected.
- the amino acid L at position 234 in the EU numbering in the amino acid sequence of either the first polypeptide or the second polypeptide constituting the Fc region is used.
- substitution of EU numbering 270th amino acid D to E, EU numbering 326th amino acid K to D At least one (for example, 2 or 3) selected from the group consisting of substitution,
- the mutation of any one of (i) to (vi) is introduced in the amino acid sequence of either the first polypeptide or the second polypeptide constituting the Fc region.
- Any of the mutations (vii) to (ix) may be introduced in the amino acid sequence of the other polypeptide.
- the selectivity of the binding activity can be measured by measuring the binding activity of each polypeptide to each Fc ⁇ receptor isoform and then determining the ratio thereof.
- an index of binding activity for example, the amount of binding to Fc ⁇ R and the KD value can be used.
- the selectivity of the binding activity is improved, for example, the ratio of the binding activity of the test polypeptide to the Fc ⁇ receptor isoform determined based on the above measurement method (the test polypeptide The binding activity of the test polypeptide to the first Fc ⁇ receptor isoform / the binding activity of the test polypeptide to the second Fc ⁇ receptor isoform of the test polypeptide compared to the Fc ⁇ receptor isoform of the test polypeptide.
- the ratio of the binding activity to the foam is 0.1.
- the selectivity for the Fc ⁇ receptor isoform is reduced, for example, compared with the ratio of the binding activity of the test polypeptide to the Fc ⁇ receptor isoform of the parent polypeptide determined based on the above measurement method.
- the ratio of the binding activity of the test polypeptide to the Fc ⁇ receptor isoform is 0.1 or more, preferably 0.2 or more, 0.5 or more, 1 or more, 2 or more, 3 or more, 5 or more, 7 or more, 8 or more, 9 or more, 10 As mentioned above, it refers to a decrease of 15 or more, 20 or more, 30 or more, 50 or more, 70 or more, 100 or more, 150 or more, 200 or more, 500 or more, 1000 or more.
- a / Iratio indicating the ratio of binding activity to active Fc ⁇ R and inhibitory Fc ⁇ R can be used as an index of selectivity.
- the value obtained by dividing the KD of the test polypeptide for Fc ⁇ RIIb by the Fc ⁇ RIIa H type or R type KD of the test polypeptide was defined as each A / I ratio.
- the A / I ratio is preferably 1.1 or more, 1.5 or more, 2 or more, 3 or more, 5 or more, more preferably 6 or more, 8 or more, 9 or more.
- Fc ⁇ RIIIa F / Fc ⁇ RIIbIIratio which is a value obtained by dividing KD for Fc ⁇ RIIb by KD for Fc ⁇ RIIIa F, can be used as an index of selectivity.
- the value obtained by dividing the KD of the test polypeptide for Fc ⁇ RIIb by the KD of the test polypeptide for Fc ⁇ RIIIa was defined as the respective Fc ⁇ RIIIa F / Fc ⁇ RIIb ratio.
- Fc ⁇ RIIIa F / Fc ⁇ RIIb ratio is preferably 1.1 or more, 1.5 or more, 2 or more, 3 or more, 5 or more, more preferably 10 or more, 20 or more, 30 or more, 40 or more, 50 or more, 60 or more, 70 or more 80 or more, 90 or more, 100 or more, 110 or more, 120 or more, 130 or more, 140 or more, 150 or more, 200 or more, 210 or more, 220 or more, 230 or more, 240 or more.
- amino acid mutations when the function modification of the Fc region of the polypeptide is to improve the selectivity of the binding activity with the Fc ⁇ receptor, the first polypeptide and / or the second polypeptide constituting the Fc region In this amino acid sequence, amino acid mutations may be introduced.
- the type and range of the amino acid mutation to be introduced are not particularly limited.
- the active Fc ⁇ receptor is Fc ⁇ RIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIa is selectively enhanced compared to Fc ⁇ RIIb
- the Fc region is Amino acid mutations described in the region a of Table 19-1, Table 19-2, Table 19-3 and Table 19-4 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting At least one amino acid mutation selected from the group consisting of may be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region In Table 19-1, Table 19-2, Table 19-3, Table 19-4 and Table 19-5, at least one or more selected from the group consisting of amino acid mutations described in region b Amino acid mutations may be introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIa is selectively attenuated compared to Fc ⁇ RIIb
- the Fc region is At least one selected from the group consisting of amino acid mutations described in the region c of the specification Table 23-1 and Table 23-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting Two or more amino acid mutations may be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region In Table 2, at least one amino acid mutation selected from the group consisting of amino acid mutations described in region d of Table 23-1 and Table 23-2 may be introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIa R
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in the selectivity is that the binding activity to Fc ⁇ RIIa R is selectively enhanced compared to Fc ⁇ RIIb
- the Fc In the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the region at least one or more selected from the group consisting of amino acid mutations described in the region a of the specification Table 20-1 Amino acid mutations may be introduced.
- the amino acids of the first polypeptide and / or the second polypeptide constituting the Fc region In the sequence, at least one or more amino acid mutations selected from the group consisting of the amino acid mutations described in the region b of Table 20-1, Table 20-2 and Table 20-3 may be introduced. .
- the active Fc ⁇ receptor is Fc ⁇ RIIa R
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIIa R is selectively attenuated compared to Fc ⁇ RIIb
- the Fc In the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the region at least one or more selected from the group consisting of amino acid mutations described in the region c of the specification Table 24-1 Amino acid mutations may be introduced.
- the amino acids of the first polypeptide and / or the second polypeptide constituting the Fc region In the sequence, at least one or more amino acid mutations selected from the group consisting of amino acid mutations described in region d of the specification Table 24-1 and Table 24-2 may be introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIa H
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIIa H is selectively enhanced as compared to Fc ⁇ RIIb
- the Fc In the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the region, at least one or more selected from the group consisting of amino acid mutations described in region a of the specification Table 21-1. Amino acid mutations may be introduced.
- the amino acids of the first polypeptide and / or the second polypeptide constituting the Fc region In the sequence, at least one or more amino acid mutations selected from the group consisting of amino acid mutations described in the region b of Table 21-1, Table 21-2 and Table 21-3 may be introduced. .
- the active Fc ⁇ receptor is Fc ⁇ RIIa H
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in the selectivity is that the binding activity to Fc ⁇ RIIa H is selectively attenuated compared to Fc ⁇ RIIb
- the amino acids of the first polypeptide and / or the second polypeptide constituting the Fc region In the sequence, at least one or more amino acid mutations selected from the group consisting of amino acid mutations described in the region d of the specification Table 25-1, Table 25-2, and Table 25-3 may be introduced. .
- the active Fc ⁇ receptor is Fc ⁇ RIIIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIIIa is selectively enhanced compared to Fc ⁇ RIIb
- the Fc region is At least one amino acid mutation selected from the group consisting of amino acid mutations described in region a of the specification Table 22-1 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting May be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region In Table 2, at least one amino acid mutation selected from the group consisting of amino acid mutations described in region b of Table 22-1, Table 22-2 and Table 22-3 may be introduced.
- the active Fc ⁇ receptor is Fc ⁇ RIIIa
- the inhibitory Fc ⁇ receptor is Fc ⁇ RIIb
- the improvement in selectivity is that the binding activity to Fc ⁇ RIIIa is selectively attenuated compared to Fc ⁇ RIIb
- the Fc region is At least one selected from the group consisting of the amino acid mutations described in the region c of Table 26-1 and Table 26-2 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting Two or more amino acid mutations may be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region In Table 26-1, Table 26-2, Table 26-3 and Table 26-4, at least one amino acid mutation selected from the group consisting of amino acid mutations described in region d is introduced. It may be.
- the selective enhancement of the binding activity to the desired Fc ⁇ receptor means any of the following cases.
- the binding activity to the desired Fc ⁇ receptor is enhanced, and the binding activity to receptors other than the desired Fc ⁇ receptor is not changed or attenuated;
- the binding activity to a desired Fc ⁇ receptor is enhanced and the binding activity to a receptor other than the desired Fc ⁇ receptor is also enhanced, but the degree of enhancement of the binding activity to a receptor other than the desired Fc ⁇ receptor is Less than the degree of enhanced activity, or
- the binding activity to the desired Fc ⁇ receptor is attenuated, but the degree of attenuation of the binding activity is lower than the degree of attenuation of the binding activity to Fc ⁇ receptors other than the desired Fc ⁇ receptor.
- the selective decrease in the binding activity to a desired Fc ⁇ receptor means any of the following cases. (i) the binding activity to the desired Fc ⁇ receptor is attenuated, and the binding activity to a receptor other than the desired Fc ⁇ receptor is not changed or enhanced, (ii) The binding activity to the desired Fc ⁇ receptor is attenuated, and the binding activity to a receptor other than the desired Fc ⁇ receptor is also attenuated. Less than the degree of attenuation of activity, or (iii) Although the binding activity to the desired Fc ⁇ receptor is enhanced, the degree of enhancement of the binding activity is lower than the degree of enhancement of the binding activity to Fc ⁇ receptors other than the desired Fc ⁇ receptor.
- the physicochemical stability of a polypeptide means, for example, the thermodynamic stability of the polypeptide, and the thermodynamic stability of the polypeptide, for example, uses the Tm value of the CH2 region as an index. Judgment can be made.
- the Tm value can be measured by CD (circular dichroism), DSC (inspection scanning calorimeter), and DSF (inspection scanning fluorescence quantitative method).
- CD calculates the Tm value by observing the change in mean residue molar ellipticity ( ⁇ ) with increasing temperature.
- An example of the measuring instrument is a circular dichroism dispersometer (JASCO).
- JASCO circular dichroism dispersometer
- Tm is a temperature that takes a midpoint value of ⁇ at low temperature and ⁇ at high temperature.
- a protein solution prepared with citric acid, tris, phosphoric acid solution or the like can be used, and can be used for the measurement at a concentration of several hundred ug / mL.
- DSC calculates the Tm value by observing the change in the amount of heat as the temperature rises.
- measuring instruments include MicroCal VP-DSC and Micro Cal Capillary DSC (both are DKSH Japan).
- Tm the temperature at this time.
- DSF calculates the Tm value by observing the exposure of hydrophobic residues as the temperature rises using a fluorescent reagent that specifically binds to hydrophobic residues (for example, SYPRO®Orange).
- a fluorescent reagent that specifically binds to hydrophobic residues
- SYPRO®Orange a fluorescent reagent that specifically binds to hydrophobic residues
- a protein solution and a fluorescent reagent are mixed at an appropriate ratio and the fluorescence intensity is measured while raising the temperature with an RT-PCR apparatus, an increase in fluorescence intensity is observed at a certain temperature. The temperature at this time is Tm.
- measuring instruments include Rotor-Gene Q (QIAGEN) and CFX96 real-time PCR analysis system (Bio-Rad).
- a protein solution prepared with PBS, histidine buffer or the like can be used, and can be used for the measurement at a concentration of several tens ug / mL to several hundred ug / mL.
- Tm value of CH2 region in polypeptide Fc region is 0.1 degree or more, preferably 0.2 degree or more, 0.3 degree or more, 0.4 degree or more, 0.5 degree or more, 1 degree or more, 2 degree or more, 3 degree or more, 4 degree or more It means that it is improved by 5 degrees or more and 10 degrees or more. Further, that the physical stability of a polypeptide is improved means that a decrease in the physical stability of the polypeptide is suppressed.
- a control polypeptide obtained based on the above measurement method A decrease in the Tm value of the CH2 region in the Fc region of the test polypeptide relative to the Tm value of the CH2 region in the Fc region of 0.1 ° or more, preferably 0.2 ° or more, 0.3 ° or more, 0.4 ° or more , 0.5 degree or more, 1 degree or more, 2 degree or more, 3 degree or more, 4 degree or more, 5 degree or more, or 10 degree or more.
- the physical stability of the polypeptide is reduced, for example, compared to the Tm value of the CH2 region in the Fc region of the control polypeptide obtained based on the above measurement method.
- Tm value of CH2 region in Fc region of test polypeptide is 0.1 degree or more, preferably 0.2 degree or more, 0.3 degree or more, 0.4 degree or more, 0.5 degree or more, 1 degree or more, 2 degree or more, 3 degree or more, 4 Degrees above 5 degrees, above 5 degrees, above 10 degrees.
- the present invention also provides a polypeptide comprising an Fc region, wherein the Fc region is constituted by a heterodimer comprising a first polypeptide and a second polypeptide, A polypeptide characterized in that the Fc region is composed of a homodimer containing only the first polypeptide, or the Fc region is composed of a homodimer containing only the second polypeptide A polypeptide characterized in that the function of the Fc region is altered as compared to a polypeptide characterized by.
- the modification of the function of the Fc region is at least one selected from the group consisting of enhancing the binding activity of the polypeptide to the Fc ⁇ receptor, decreasing the binding activity, and improving the selectivity of the binding activity. In addition to one or more modifications, the modification may further improve physicochemical stability. If any of these functions is modified, the function of the Fc region of the present invention is modified. be able to. In the present invention, "when an amino acid mutation is introduced into the Fc region of both the first polypeptide and the second polypeptide, the function of the Fc region is not altered" means that the same amino acid mutation is When introduced into both the polypeptide and the second polypeptide, it means that the desired function is not improved.
- the binding activity is changed. If the binding activity is not changed or attenuated, the binding activity is not changed or enhanced, or the binding activity selectivity is not improved, the selectivity is not improved.
- the stability does not change or decreases.
- the function of the Fc region is altered "means that an amino acid mutation is introduced into only one of the first polypeptide or the second polypeptide
- the desired function is improved.For example, when it is desired to enhance the binding activity of the polypeptide to the Fc ⁇ receptor, the binding activity is enhanced. When the binding activity is decreased, the selectivity of the binding activity is desired to be improved, the selectivity is improved, and the physicochemical stability of the polypeptide is improved, the stability is improved. means.
- a polypeptide characterized in that it is constituted by a homodimer containing, or a polypeptide characterized in that the Fc region is constituted by a homodimer containing only the second polypeptide Also included are polypeptides characterized by having a high Tm. In addition to the modification with improved physicochemical stability that the polypeptide has a high Tm, the function of the Fc region may be further modified.
- the modification of the function of the added Fc region is enhancement of the binding activity to Fc ⁇ RIa
- the specification table 31 -1 in the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region, the specification table 31 -1, at least one amino acid mutation selected from the group consisting of amino acid mutations described in Table 31-2 and Table 31-3 may be introduced.
- At least one amino acid mutation selected from the group consisting of the amino acid mutations described in Table 32-1 and Table 32-2 may be introduced.
- the modification of the function of the added Fc region is enhancement of the binding activity to Fc ⁇ RIIa H
- the modification of the function of the added Fc region is enhancement of the binding activity to Fc ⁇ RIIa H
- at least one or more amino acid mutations selected from the group consisting of amino acid mutations described in Tables 33-1 and 33-2 may be introduced.
- the amino acid sequence of the first polypeptide and / or the second polypeptide constituting the Fc region At least one amino acid mutation selected from the group consisting of the amino acid mutations described in Table 34-1 and Table 34-2 may be introduced.
- At least one amino acid mutation selected from the group consisting of amino acid mutations described in Table 35-1 and Table 35-2 may be introduced.
- the combination of the first polypeptide and the second polypeptide into which an amino acid mutation has been introduced is not particularly limited, but from the polypeptides described in SEQ ID NOs: 2 to 4 and 6 to 60 Examples of combinations of different types / or the same type of polypeptides selected can be exemplified.
- a combination of polypeptides including the first polypeptide and the second polypeptide (combination of two antibody H chains and one antibody L chain) described in the examples of the present application is given as a preferred example. be able to.
- the polypeptide of the present invention may be an antigen-binding molecule.
- the type of antibody-binding molecule is not particularly specified, but preferred examples include Fc fusion molecules such as antibodies, bispecific antibodies, peptide Fc fusion proteins, or scaffold Fc fusion proteins. It can be illustrated.
- an antibody is provided as a polypeptide of the present invention.
- the term “antibody” in the present invention is used in the broadest sense, and as long as the desired biological activity is exhibited, monoclonal antibodies (including full-length monoclonal antibodies), polyclonal antibodies, antibody variants, antibody fragments, multispecificity Any antibody, such as an antibody (eg, a bispecific antibody), a chimeric antibody, a humanized antibody, etc. is included.
- the antibody of the present invention is not limited to the type of antigen, the origin of the antibody, etc., and may be any antibody.
- the origin of the antibody is not particularly limited, and examples thereof include a human antibody, a mouse antibody, a rat antibody, and a rabbit antibody.
- monoclonal antibodies can be produced by the hybridoma method (Kohler and Milstein, steinNature 256: 495 (1975)) or recombinant methods (US Pat. No. 4,816,567). May be. Alternatively, it may be isolated from a phage antibody library (Clackson et al., Nature 352: 624-628 (1991); Marks et al., J. Mol. Biol. 222: 581-597 (1991)). Alternatively, it may be isolated from a single B cell clone (N. Biotechnol. 28 (5): 253-457 (2011)).
- Humanized antibodies are also referred to as reshaped human antibodies.
- non-human animals for example, humanized antibodies obtained by grafting mouse antibody CDRs to human antibodies are known.
- General genetic recombination techniques for obtaining humanized antibodies are also known.
- Overlap-Extension-PCR is known as a method for transplanting mouse antibody CDRs into human FRs.
- FR amino acid residues can be substituted so that the CDR of the reshaped human antibody forms an appropriate antigen-binding site.
- amino acid sequence mutations can be introduced into FRs by applying the PCR method used for transplantation of mouse CDRs into human FRs.
- Transgenic animals having all repertoires of human antibody genes are used as immunized animals and desired by DNA immunization. Human antibodies can be obtained.
- the V region of a human antibody is expressed as a single chain antibody (scFv) on the surface of the phage by the phage display method.
- Phages expressing scFv that bind to the antigen can be selected.
- the DNA sequence encoding the V region of the human antibody that binds to the antigen can be determined.
- the V region sequence is fused in-frame with the sequence of the desired human antibody C region, and then inserted into an appropriate expression vector, whereby an expression vector can be prepared.
- the human antibody is obtained by introducing the expression vector into a suitable expression cell as described above and expressing the gene encoding the human antibody.
- These methods are already known (see International Publications WO1992 / 001047, WO1992 / 020791, WO1993 / 006213, WO1993 / 011236, WO1993 / 019172, WO1995 / 001438, WO1995 / 015388).
- variable region constituting the antibody of the present invention can be a variable region that recognizes an arbitrary antigen.
- the antigen is not particularly limited, and any antigen may be used.
- antigens include 17-IA, 4-1 BB, 4Dc, 6-keto-PGF1a, 8-iso-PGF2a, 8-oxo-dG, A1 Adenosine Receptor, A33, ACE, ACE-2, Activin, Activin A, Activin AB, Activin B, Activin C, Activin RIA, Activin RIA ALK-2, Activin RIB ALK-4, Activin RIIA, Activin RIIB, ADAM, ADAM10, ADAM12, ADAM15, ADAM17 / TACE, ADAM8, ADAM9, ADAMTS, ADAMTS4, ADAMTS5, Addressins, adiponectin, ADP ribosyl cyclase-1, aFGF, AGE, ALCAM, ALK, ALK-1, ALK-7, allergen, alpha1
- HGF Hemopoietic growth factor
- Hep B gp120 Heparanase
- heparin cofactor II hepatic growth factor
- Bacillus anthracis protective antigen Hepatitis C virus E2 glycoprotein, Hepatitis E, Hepcidin, Her1, Her2 / neu ( ErbB-2), Her3 (ErbB-3), Her4 (ErbB-4), herpes simplex virus (HSV) gB glycoprotein, HGF, HGFA, High molecular weight melanoma-associated antigen (HMW-MA A), HIV envelope proteins such as GP120, HIV MIB gp 120 V3 loop, HLA, HLA-DR, HM1.24, HMFG PEM, HMGB-1, HRG, Hrk, HSP47, Hsp90
- the site to be modified and the number of amino acids to be modified are not particularly limited.
- amino acids present in CDR and / or FR can be appropriately modified.
- the amino acid of the variable region is modified, although not particularly limited, it is preferable that the binding activity is maintained, for example, 50% or more, preferably 80% or more, more preferably 100% or more compared to before modification. It preferably has binding activity. Further, the binding activity may be increased by amino acid modification. For example, the binding activity may be 2 times, 5 times, 10 times, etc., compared to before the modification.
- the alteration of the amino acid sequence can be at least one of substitution, addition, deletion, insertion and modification of an amino acid residue.
- the modification to pyroglutamic acid by pyroglutamylation of N-terminal glutamine of the variable region is a modification well known to those skilled in the art. Therefore, the antibody of the present invention comprises a variable region in which the heavy chain is modified with pyroglutamic acid when the N-terminus of the heavy chain is glutamine.
- variable region of the antibody of the present invention may be of any sequence, mouse antibody, rat antibody, rabbit antibody, goat antibody, camel antibody, humanized antibody obtained by humanizing these non-human antibodies, and human It may be a variable region of an antibody of any origin, such as an antibody.
- “Humanized antibody” refers to an antibody derived from a mammal other than a human, also referred to as a reshaped human antibody, such as a complementarity determination region (CDR) of a mouse antibody to the CDR of a human antibody. It is transplanted.
- CDR complementarity determination region
- variable region of the antibody of the present invention has a pH dependence on the binding to the antigen, and may be able to repeatedly bind to the antigen (WO / 2009/125825).
- the light chain constant region of an antibody has a ⁇ chain and ⁇ chain type constant region, but any light chain constant region may be used. Further, in the present invention, the light chain constant region may be a light chain constant region in which alterations such as amino acid substitution, addition, deletion, insertion and / or modification have been performed.
- the heavy chain constant region of the antibody of the present invention for example, the heavy chain constant region of a human IgG antibody can be used, and preferably the heavy chain constant region of a human IgG1 antibody.
- variable region constituting the antibody of the present invention can be a variable region that recognizes an arbitrary antigen. As long as the antigen binding activity of the amino acid sequence constituting the heavy chain variable region is maintained, modification of one or more amino acid residues is allowed.
- Modification of the variable region also increases binding activity, improves specificity, decreases pI, imparts pH-dependent properties to antigen binding, improves binding thermal stability, improves solubility, stability to chemical modification Improve heterogeneity derived from glycans, identify immunogenicity using in silico prediction, or avoid T cell epitopes identified by in vitro T cell assays, or regular Implemented for the purpose of introducing T cell epitopes that activate tree T cells (mAbs 3: 243-247, 2011)
- polypeptide of the present invention is a cell composed of an Fc fusion protein molecule (peptide Fc fusion protein) in which an Fc region is bound to another protein, a physiologically active peptide, or a polymer such as collagen or polylactic acid. It may be an Fc fusion protein molecule (scaffold Fc fusion protein) to which an outer matrix or the like is bound.
- proteins and bioactive peptides include, but are not limited to, receptors, adhesion molecules, ligands, and enzymes.
- Fc fusion protein molecule of the present invention include a protein in which an Fc domain is fused to a receptor protein that binds to a target.
- a protein in which an Fc domain is fused to a receptor protein that binds to a target For example, TNFR-Fc fusion protein, IL1R-Fc fusion protein, VEGFR-Fc fusion protein, CTLA4 -Fc fusion proteins and the like (Nat Med. 2003 Jan; 9 (1): 47-52, BioDrugs. 2006; 20 (3): 151-60.).
- the protein to be fused to the polypeptide of the present invention may be any molecule as long as it binds to the target molecule.
- scFv molecule WO2005 / 037989
- single domain antibody molecule WO2004 / 058821, WO2003 / 002609
- antibody -Like molecule a compound that influences the degree of a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell in a cell sorting WO2004 / 020565
- Affibody WO1995 / 001937
- Avimer WO2004 / 044011, WO2005 / 040229
- Adnectin WO2002 / 032925
- the antibodies and Fc fusion protein molecules may also be multispecific antibodies such as bispecific antibodies that bind to multiple types of target molecules or epitopes.
- the antibodies of the present invention also include modified antibodies.
- modified antibody include antibodies bound to various molecules such as polyethylene glycol (PEG) and cytotoxic substances.
- PEG polyethylene glycol
- Such a modified antibody can be obtained by chemically modifying the antibody of the present invention. Methods for modifying antibodies have already been established in this field.
- the antibody of the present invention may be a bispecific antibody.
- Bispecific antibody refers to an antibody having variable regions that recognize different epitopes in the same antibody molecule, but the epitope may exist in different molecules or in the same molecule. It may be.
- polypeptide of the present invention can be produced by methods known to those skilled in the art.
- the antibody can be prepared by the following method, but is not limited thereto.
- host cells for producing antibodies by introducing a gene encoding an isolated polypeptide into a suitable host are known. Any of these expression systems can be applied to isolate the antigen-binding molecule of the present invention.
- animal cells When eukaryotic cells are used as host cells, animal cells, plant cells, or fungal cells can be used as appropriate. Specifically, the following cells can be exemplified as animal cells.
- Mammalian cells CHO (Chinese hamster ovary cell line), COS (Monkey kidney cell line), myeloma (Sp2 / O, NS0, etc.), BHK (baby hamster kidney cell line), HEK293 (human embryonic kidney cell line) with sheared adenovirus (Ad) 5 DNA), PER.C6 cell (human embryonic retinal cell line transformed with the Adenovirus Type 5 (Ad5) E1A and E1B genes), Hela, Vero, etc. (Current Protocols in Protein Science (May, 2001 , Unit 5.9, Table 5.9.1))
- Amphibian cells Xenopus oocytes, etc.
- DNA encoding the heavy chain of an antibody where one or more amino acid residues in the Fc region are the target DNA encoding the heavy chain substituted with other amino acids and DNA encoding the light chain of the antibody are expressed.
- DNA encoding a heavy chain in which one or more amino acid residues in the Fc region are substituted with other amino acids of interest for example, obtain the Fc region portion of the DNA encoding the natural heavy chain, It can be obtained by appropriately introducing substitutions so that a codon encoding a specific amino acid in the region encodes another amino acid of interest.
- DNA encoding a protein in which one or more amino acid residues in the Fc region of the natural heavy chain are substituted with other amino acids of interest By designing a DNA encoding a protein in which one or more amino acid residues in the Fc region of the natural heavy chain are substituted with other amino acids of interest, and chemically synthesizing the DNA, It is also possible to obtain DNA encoding a heavy chain in which one or more amino acid residues in the Fc region are substituted with other amino acids of interest.
- the amino acid substitution site and the type of substitution are not particularly limited. Moreover, it is not restricted to substitution, either deletion, addition, insertion, or modification, or a combination thereof may be used.
- DNA encoding a heavy chain in which one or more amino acid residues in the Fc region are substituted with other amino acids of interest can be produced by dividing into partial DNAs.
- Examples of combinations of partial DNAs include DNA encoding a variable region and DNA encoding a constant region, or DNA encoding a Fab region and DNA encoding an Fc region, but are not limited to these combinations. is not.
- the DNA encoding the light chain can also be produced by dividing it into partial DNAs.
- DNA encoding a heavy chain variable region is incorporated into an expression vector together with DNA encoding a heavy chain constant region to construct a heavy chain expression vector.
- DNA encoding a light chain variable region is incorporated into an expression vector together with DNA encoding a light chain constant region to construct a light chain expression vector.
- the DNA encoding the target antibody When the DNA encoding the target antibody is incorporated into an expression vector, it is incorporated into the expression vector so that it is expressed under the control of an expression control region such as an enhancer or promoter. Next, host cells are transformed with this expression vector to express the antibody. In that case, a combination of an appropriate host and an expression vector can be used.
- vectors examples include M13 vectors, pUC vectors, pBR322, pBluescript, and pCR-Script.
- pGEM-T pDIRECT, pT7 and the like can be used in addition to the above vector.
- an expression vector is particularly useful.
- an expression vector for example, when the host is E. coli such as JM109, DH5 ⁇ , HB101, XL1-Blue, a promoter that can be efficiently expressed in E. coli, such as the lacZ promoter (Ward et al., Nature (1989) 341). , 544-546; FASEB J. (1992) 6, 2422-2427, incorporated herein by reference in its entirety, araB promoter (Better et al., Science (1988) 240, 1041-1043, in its entirety by reference) Are incorporated herein), or have a T7 promoter or the like.
- such vectors include pGEX-5X-1 (Pharmacia), “QIAexpress® system” (QIAGEN), pEGFP, or pET (in this case, the host expresses T7 RNA polymerase).
- pGEX-5X-1 Pulacia
- QIAexpress® system QIAGEN
- pEGFP pEGFP
- pET in this case, the host expresses T7 RNA polymerase.
- BL21 is preferred).
- the vector may also contain a signal sequence for polypeptide secretion.
- the signal sequence for polypeptide secretion is the pelB signal sequence (Lei, S. P. et al J. Bacteriol. (1987) 169, 4397, which is incorporated herein by reference in its entirety when produced in the periplasm of E. coli. Built in).
- Introduction of a vector into a host cell can be performed using, for example, the lipofectin method, the calcium phosphate method, or the DEAE-Dextran method.
- vectors for producing the polypeptide of the present invention include mammalian-derived expression vectors (for example, pcDNA3 (manufactured by Invitrogen), pEGF-BOS® (Nucleic® Acids.® Res.
- pEF Bacillus subtilis-derived expression vectors
- pCDM8 Bacillus subtilis-derived expression vectors
- insect cell-derived expression vectors eg “Bac-to-BAC baculovirus expression system” (GIBCO BRL), pBacPAK8)
- plant-derived expression vectors eg, pMH1, pMH2
- animal virus-derived expression vectors eg, pHSV, pMV, pAdexLcw
- retrovirus-derived expression vectors eg, pZIPneo
- yeast-derived expression vectors eg, “Pichia® Expression® Kit” (manufactured by Invitrogen), pNV11, SP-Q01
- Bacillus subtilis-derived expression vectors for example, pPL608, pKTH50.
- promoters required for expression in cells such as SV40 promoter (Mulligan et al., Nature (1979) 277, 108, incorporated herein by reference in its entirety), MMTV-LTR promoter, EF1 ⁇ promoter (Mizushima et al., Nucleic Acids Res. (1990) 18, 5322, incorporated herein in its entirety by reference), It is essential to have a CAG promoter (Gene.
- a CMV promoter etc.
- a gene for selecting transformed cells for example, More preferably, it has a drug resistance gene that can be discriminated by a drug (neomycin, G418, etc.).
- examples of such a vector include pMAM, pDR2, pBK-RSV, pBK-CMV, pOPRSV, and pOP13.
- the EBNA1 protein is co-expressed for the purpose of increasing the copy number of the gene.
- a vector having the replication origin OriP is used. (Biotechnol Bioeng. 2001 Oct 20; 75 (2): 197-203., Biotechnol Bioeng. 2005 Sep 20; 91 (6): 670-7.)
- a vector having a DHFR gene complementary to the CHO cell lacking the nucleic acid synthesis pathway for example, , PCHOI, etc.
- amplifying with methotrexate (MTX) for example, COS with a gene expressing SV40 T antigen on the chromosome
- COS with a gene expressing SV40 T antigen on the chromosome An example is a method of transforming with a vector (such as pcD) having an SV40 replication origin using cells.
- a vector such as pcD
- the replication origin those derived from polyoma virus, adenovirus, bovine papilloma virus (BPV) and the like can also be used.
- the expression vectors are selectable markers: aminoglycoside transferase (APH) gene, thymidine kinase (TK) gene, E. coli xanthine guanine phosphoribosyltransferase (Ecogpt) gene, dihydrofolate reductase ( dhfr) gene and the like.
- APH aminoglycoside transferase
- TK thymidine kinase
- Ecogpt E. coli xanthine guanine phosphoribosyltransferase
- dhfr dihydrofolate reductase
- Antibody recovery can be performed, for example, by culturing transformed cells and then separating them from the inside of the cell or the culture solution of molecularly transformed cells.
- methods such as centrifugation, ammonium sulfate fractionation, salting out, ultrafiltration, 1q, FcRn, protein A, protein G column, affinity chromatography, ion exchange chromatography, and gel filtration chromatography are used. It can carry out in combination as appropriate.
- the Knobs-into-holes technique can be used as an efficient method for producing bispecific antibodies. Specifically, in order to produce the heterodimerized polypeptide of the present invention, polypeptides having different amino acids are associated with each other, or the target heterodimerized polypeptide is separated from other homodimerized polypeptides. There is a need.
- amino acid residues that contact at the interface of other constant regions of the H chain include, for example, EU in the CH3 region Numbering 356th residue, EU numbering 439th residue, EU numbering 357th residue, EU numbering 370th residue, EU numbering 399th residue, region corresponding to EU numbering 409th residue Can be mentioned.
- a set of 3 to 3 amino acid residues can be an antibody having the same type of charge; (1) Amino acid residues contained in the H chain CH3 region, wherein the amino acid residues at EU positions 356 and 439, (2) amino acid residues contained in the H chain CH3 region, EU amino acid residues at positions 357 and 370, (3) Amino acid residues contained in the H chain CH3 region and having EU numbering at positions 399 and 409.
- a set of amino acid residues selected from the set of amino acid residues shown in the above (1) to (3) in a second H chain CH3 region different from the first H chain CH3 region are the first H chain CH3 region.
- the antibody may have an opposite charge to the corresponding amino acid residue in.
- amino acid residues described in (1) to (3) above are close to each other when they are associated.
- a person skilled in the art finds a site corresponding to the amino acid residue described in (1) to (3) above by using homology modeling using commercially available software for the desired H chain CH3 region or H chain constant region.
- the amino acid residue at the site can be subjected to modification.
- the “charged amino acid residue” is preferably selected from, for example, amino acid residues included in any of the following groups (X) or (Y); (X) glutamic acid (E), aspartic acid (D), (Y) Lysine (K), Arginine (R), Histidine (H).
- “having the same kind of charge” means, for example, that two or more amino acid residues each have an amino acid residue included in any one group of (X) or (Y). Means that. “Having an opposite charge” means, for example, an amino acid residue in which at least one amino acid residue of two or more amino acid residues is included in any one group of the above (X) or (Y) Means that the remaining amino acid residues have amino acid residues contained in different groups.
- the first H chain CH3 region and the second H chain CH3 region may be cross-linked by a disulfide bond.
- amino acid residues subjected to modification are not limited to the amino acid residues in the above-described antibody variable region or antibody constant region.
- a person skilled in the art can find amino acid residues that form an interface for polypeptide variants or heterologous multimers by homology modeling using commercially available software, etc. Amino acid residues can be subjected to modification.
- the heterodimerized polypeptide can also be obtained by separating and purifying the heterodimerized polypeptide from the homodimerized polypeptide. Is possible.
- a homodimerized polypeptide consisting of only two first polypeptides, two second polypeptides A homodimerized polypeptide consisting only of the polypeptide is mixed as an impurity.
- a known technique can be used as a method for efficiently removing these two types of homodimerized polypeptides.
- the amino acid modification for imparting the difference in isoelectric point is not particularly limited as long as the difference in isoelectric point between the two polypeptides to be associated is produced, such as a decrease in immunogenicity, etc.
- Other desired amino acid modifications may be included.
- the amino acid to be modified is preferably an amino acid at a position having little influence on the binding activity to the Fc ⁇ receptor. Further, it may be an amino acid modification that enhances the binding activity to a desired Fc ⁇ receptor.
- the amino acid positions for such modification include, for example, the EU numbering 137th Gly, 138th Gly in the amino acid sequence of the first polypeptide and / or the second polypeptide, 139 th Thr, 147 th Lys, 192 th Ser, 193 th Leu, 196 th Gln, 198 th Tyr, 199 th Ile, 203 th Asn, 214 th Lys, 263 th Val, 272nd Glu, 274th Lys, 278th Tyr, 288th Lys, 290th Lys, 316th Gly, 317th Lys, 320th Lys, 324th Lys, 335th Thr, 337th Ser, 340th Lys, 358th Leu, 360th Lys, 362th Gln, 364th Ser, 383th Ser, 384th Asn, 385th Gly, 386th Gln, 387 Eye Pro, 390 th Asn, selected from 397 th Val
- Gly 138th Gly, 147th Lys, 192th Ser, 193rd Leu, 196th Gln, 199th Ile, 203th Asn, 214th Lys, 274th Lys, More preferably, at least one amino acid mutation selected from the group consisting of 288th Lys, 358th Leu, 384th Asn and 397th Val is introduced.
- the EU numbering 196th Gln, 199th Ile, 263th Val, 272nd Glu At least one amino acid mutation selected from the group consisting of 316th Gly, 358th Leu, 364th Ser, 383th Ser, 387th Pro and 397th Val has been introduced;
- EU numbering 137th Gly, 138th Gly, 139th Thr, 147th Lys 192th Ser, 193rd Leu, 198th Tyr, 199th Ile , 203rd Asn, 214th Lys, 274th Lys, 278th Tyr, 288th Lys, 290th Lys, 316th Gly, 317th Lys, 320th Lys, 324th Lys, 335th Thr, 337th Ser, 340th Lys, 358th Leu, 360th Lys, 362th Gln, 3
- EU numbering 196th Gln, 199th Ile, 272th Glu, 358th Leu, 383th Ser, and 397th Val are selected from the group consisting of: At least one amino acid mutation has been introduced, and in the amino acid sequence of the other polypeptide, EU numbering 137th Gly, 138th Gly, 139th Thr, 147th Lys, 192th Ser, 193rd Leu, 199th Ile, 203th Asn, 214th Lys, 274th Lys, 288th Lys, 290th Lys, 360th Lys, 360th Lys, 362th Gln, 383th At least one selected from the group consisting of: Ser, 384th Asn, 385th Gly, 386th Gln, 390th Asn, and 422th Val
- amino acid mutations are introduced.
- At least one amino acid mutation selected from the group consisting of EU numbering 196th Gln, 199th Ile, 358th Leu and 397th Val is introduced.
- EU numbering 137th Gly, 138th Gly, 147th Lys, 192th Ser, 193rd Leu, 199th Ile, 203th Asn, 214th More preferably, at least one amino acid mutation selected from the group consisting of Lys, 274th Lys, 288th Lys and 384th Asn is introduced.
- the amino acid modification is not particularly limited as long as it is modified so that a difference occurs in the isoelectric point between the two polypeptides to be associated after modification.
- EU numbering 196th amino acid substitution to Lys, 263rd amino acid substitution to Lys, 272nd amino acid substitution to Lys, 316th amino acid substitution Substitution of amino acid to Lys, substitution of 364th amino acid to Lys, substitution of 358th amino acid to Lys, substitution of 383rd amino acid to Lys, substitution of 387th amino acid to Lys, 397th Examples include substitution of amino acid with Lys.
- Preferred modifications for lowering the isoelectric point include, for example, substitution of the 137th amino acid to Glu, substitution of the 138th amino acid to Glu, substitution of the 139th amino acid to Glu, 147 Substitution of Glu for the 1st amino acid, substitution of Glu for the 198th amino acid, substitution of Asp for the 203rd amino acid, substitution of Thr for the 214th amino acid, substitution of Gln for the 274th amino acid, 278 Substitution of Glu for the 2nd amino acid, substitution of Glu for the 288th amino acid, substitution of Glu for the 290th amino acid, substitution of Glu for the 316th amino acid, substitution of Glu for the 317th amino acid, 320 Substitution of amino acid Glu, substitution of amino acid 324 to Glu, substitution of amino acid 335 to substitution of Glu, substitution of amino acid 337 to Asp, amino acid 340 Substitution of acid to Glu, substitution of the 358th amino acid to Glu, substitution of the 360th amino acid to
- substitution of the 138th amino acid with Ser substitution of the 192nd amino acid with Asn
- substitution of the 193rd amino acid with Phe and the substitution of the 199th amino acid with Thr may be combined.
- heterodimerized antibodies As a method for purifying heterodimerized antibodies, a heterodimerized antibody consisting of a mouse IgG2a H chain that binds to protein A and a rat IgG2b H chain that does not bind to protein A has been purified using protein A. Has been reported (WO98050431, WO95033844).
- the present invention provides a method for producing a polypeptide comprising an Fc region, wherein the Fc region is introduced by introducing an amino acid mutation into the first polypeptide and / or the second polypeptide constituting the Fc region.
- a method for producing a polypeptide containing an Fc region comprising a step of modifying the function of the Fc region as compared with a case where the Fc region becomes a homodimer by introducing an amino acid mutation into a heterodimer .
- a production method including the following steps can be mentioned; (A) in a polypeptide containing an Fc region, introducing an amino acid mutation into the first polypeptide and / or the second polypeptide constituting the Fc region; (B) measuring the function of the Fc region of the heterodimer comprising the first polypeptide and the second polypeptide into which mutations have been introduced in the step (a), and (c) the parent polypeptide or A step of selecting a polypeptide in which the function of the Fc region is modified as compared to the case where the Fc region becomes a homodimer by introducing an amino acid mutation.
- step (D) a step of displaying a heterodimerized polypeptide comprising a first polypeptide having an Fc region and a second polypeptide on the displayed ribosome, phage, or yeast.
- a preferred embodiment is a method for producing a polypeptide comprising an Fc region, (A) Modifying the nucleic acid encoding the polypeptide so that the function of the Fc region is modified as compared to the case where the Fc region becomes a homodimer by introduction of a parent polypeptide or amino acid mutation Process, (B) introducing the nucleic acid into a host cell and culturing so as to express it; (C) recovering the polypeptide from the host cell culture.
- antibodies and Fc fusion protein molecules produced by the production method are also included in the present invention.
- amino acid mutations introduced by this method are not particularly limited, but amino acid mutations involved in alteration of the function of each Fc region described in the specification (more specifically, in the examples) Amino acid mutations specifically disclosed in the table can be exemplified.
- the present invention also relates to a method for modifying the function of a polypeptide comprising an Fc region, wherein the Fc region is introduced by introducing an amino acid mutation into the first polypeptide and / or the second polypeptide.
- a method for altering the function of a polypeptide comprising the step of making the region a heterodimer and altering the function of the Fc region as compared to the case where the Fc region becomes a homodimer by introduction of amino acid mutations .
- a modification method including the following steps may be mentioned; (A) in a polypeptide containing an Fc region, introducing an amino acid mutation into the first polypeptide and / or the second polypeptide constituting the Fc region; (B) measuring the function of the Fc region of the heterodimer comprising the first polypeptide and the second polypeptide into which mutations have been introduced in the step (a), and (c) the parent polypeptide or A step of selecting a polypeptide in which the function of the Fc region is modified as compared to the case where the Fc region becomes a homodimer by introducing an amino acid mutation.
- a modification method comprising: (A) Modifying the nucleic acid encoding the polypeptide so that the function of the Fc region is modified as compared to the case where the Fc region becomes a homodimer by introduction of a parent polypeptide or amino acid mutation Process, (B) introducing the nucleic acid into a host cell and culturing so as to express it; (C) recovering the polypeptide from the host cell culture.
- a modification method comprising: (A) Modifying the nucleic acid encoding the polypeptide so that the function of the Fc region is modified as compared to the case where the Fc region becomes a homodimer by introduction of a parent polypeptide or amino acid mutation Process, (B) introducing the nucleic acid into a host cell and culturing so as to express it; (C) recovering the polypeptide from the host cell culture.
- antibodies and Fc fusion protein molecules modified by the modification method are also included in the present invention.
- amino acid mutations introduced by this method are not particularly limited, but amino acid mutations involved in alteration of the function of each Fc region described in the specification (more specifically, Examples The amino acid mutations specifically disclosed in the table of FIG.
- the present invention is a polypeptide comprising an Fc region, wherein the Fc region is composed of a heterodimer comprising a first polypeptide and a second polypeptide, the Fc region Is composed of a homodimer containing only the first polypeptide and / or the Fc region is composed of a homodimer containing only the second polypeptide
- the nucleic acid of the present invention may be in any form such as DNA or RNA.
- the present invention provides a vector containing the nucleic acid of the present invention.
- the type of vector can be appropriately selected by those skilled in the art depending on the host cell into which the vector is introduced. For example, the above-described vectors can be used.
- the present invention relates to a host cell transformed with the vector of the present invention.
- the host cell can be appropriately selected by those skilled in the art.
- the above-described host cell can be used.
- the present invention provides a pharmaceutical composition containing the polypeptide of the present invention.
- the pharmaceutical composition of the present invention can be formulated by a known method by introducing a pharmaceutically acceptable carrier in addition to the antibody or Fc fusion protein molecule which is the polypeptide of the present invention.
- a pharmaceutically acceptable carrier in addition to the antibody or Fc fusion protein molecule which is the polypeptide of the present invention.
- it can be used parenterally in the form of a sterile solution with water or other pharmaceutically acceptable solution, or an injection of suspension.
- a pharmacologically acceptable carrier or medium specifically, sterilized water, physiological saline, vegetable oil, emulsifier, suspension, surfactant, stabilizer, flavoring agent, excipient, vehicle, preservative It is conceivable to formulate by combining with a binder or the like as appropriate and mixing in a unit dosage form generally required for pharmaceutical practice.
- silicic acid lactose, crystalline cellulose, mannitol, starch, carmellose calcium, carmellose sodium, hydroxypropylcellulose, hydroxypropylmethylcellulose, polyvinylacetal diethylaminoacetate, polyvinylpyrrolidone, gelatin, medium chain fatty acid triglyceride
- the carrier include polyoxyethylene hydrogenated castor oil 60, sucrose, carboxymethylcellulose, corn starch, inorganic salts, and the like. The amount of active ingredients in these preparations is such that an appropriate volume within the indicated range can be obtained.
- a sterile composition for injection can be formulated in accordance with normal pharmaceutical practice using a vehicle such as distilled water for injection.
- Aqueous solutions for injection include, for example, isotonic solutions containing physiological saline, glucose and other adjuvants such as D-sorbitol, D-mannose, D-mannitol and sodium chloride, and suitable solubilizers such as You may use together with alcohol, specifically ethanol, polyalcohol, for example, propylene glycol, polyethylene glycol, nonionic surfactant, for example, polysorbate 80 (TM), HCO-50.
- isotonic solutions containing physiological saline glucose and other adjuvants such as D-sorbitol, D-mannose, D-mannitol and sodium chloride, and suitable solubilizers such as You may use together with alcohol, specifically ethanol, polyalcohol, for example, propylene glycol, polyethylene glycol, nonionic surfactant, for example, polysorbate 80 (TM), HCO-50.
- alcohol specifically ethanol, polyalcohol, for example, propylene glycol, polyethylene glycol, nonionic surfactant
- oily liquid examples include sesame oil and soybean oil, which may be used in combination with benzyl benzoate or benzyl alcohol as a solubilizing agent.
- oily liquid examples include sesame oil and soybean oil, which may be used in combination with benzyl benzoate or benzyl alcohol as a solubilizing agent.
- buffer for example, phosphate buffer, sodium acetate buffer, a soothing agent, for example, procaine hydrochloride, stabilizer, for example, benzyl alcohol, phenol, antioxidant.
- the prepared injection solution is usually filled into a suitable ampoule.
- Administration is preferably parenteral administration, and specific examples include injection, nasal administration, pulmonary administration, and transdermal administration.
- injection form it can be administered systemically or locally by, for example, intravenous injection, intramuscular injection, intraperitoneal injection, subcutaneous injection, or the like.
- the administration method can be appropriately selected depending on the age and symptoms of the patient.
- the dose of the pharmaceutical composition containing the polypeptide or the polynucleotide encoding the polypeptide can be selected, for example, in the range of 0.0001 mg / kg to 1000 mg / kg body weight at a time. Alternatively, for example, the dose can be selected in the range of 0.001 to 100,000 mg / body per patient, but is not necessarily limited to these values.
- the dose and administration method vary depending on the weight, age, symptoms, etc. of the patient, but can be appropriately selected by those skilled in the art.
- the pharmaceutical composition containing the polypeptide of the present invention is useful as an active ingredient of a therapeutic or prophylactic agent for cancer, immunoinflammatory diseases and the like.
- Example 1 Description of concept of improving Fc ⁇ R recognition ability by heterodimerized antibody
- the antibody interacts with various molecules such as FcRn, Fc ⁇ R and complement through the Fc region. Since one molecule of FcRn, which is one of the Fc ligands, is bound to each H chain (heavy chain) of the antibody, two molecules of FcRn bind to one antibody (FIG. 1). Since FcRn is expressed on the cell membrane in vivo, the antibody in contrast recognizes two molecules of FcRn through the same part of each H chain (Nature, 372: 379-383, 1994). ).
- IgA belonging to the same immunoglobulin family as IgG also recognizes Fc ⁇ R, which is a two-molecule IgA receptor symmetrically, as in the relationship between IgG and FcRn (FIG. 2) (Nature, 423: 614-620, 2003).
- Fc ⁇ R binds only one molecule to one antibody molecule (FIG. 3) (JBC, 276: 16469-16477, 2001).
- IgG recognizes Fc ⁇ R through the CH2 domains of both H chains, but the site interacting with Fc ⁇ R is different in each H chain. For example, if the left H chain in FIG. 3 is H A chain and the right H B chain, EU numbering 327th Ala interacts with Fc ⁇ R in each chain of H A chain and H B chain. The nature of the partner residues that interact in the H chain is different (FIG. 4).
- a modification that enhances the binding to Fc ⁇ R has been sought by using a homodimerized antibody in which the same modification is introduced into each H chain of the antibody.
- the modification enhances the binding activity to Fc ⁇ R in one H chain.
- the other H chain may inhibit binding.
- a homodimerized antibody in which such a modification is introduced into both H chains does not necessarily enhance the binding activity to Fc ⁇ R, but a heterodimerized antibody in which a modification is introduced into only one H chain can enhance the binding activity to Fc ⁇ R. There is sex.
- heterodimerization consisting of a first polypeptide in which a modification that is thought to modify the binding activity to Fc ⁇ R was introduced only into one H chain, and a second polypeptide without the modification.
- the binding of the antibody to the homologous antibody consisting of the first polypeptide in which the modification considered to modify the binding activity to Fc ⁇ R was introduced only into one H chain was compared with Fc ⁇ R.
- the modification enhances the binding activity to Fc ⁇ R
- the homodimerized antibody should surely be superior to the heterodimerized antibody.
- the antibody Fc recognizes Fc ⁇ R asymmetrically, depending on the type of modification, the heterodimerized antibody should show stronger binding activity to Fc ⁇ R than the homodimerized antibody. .
- variable region of the H chain of the antibody the variable region of the anti-glypican 3 antibody having improved CDR of the pH 7 of the anti-glypican 3 antibody disclosed in WO2009 / 041062 is used, and GpH7 (SEQ ID NO: 1) is used. Call it.
- the following antibody H chain constant region was used, which was used in combination with GpH7.
- the name of the antibody H chain constant region is H1
- the sequence corresponding to the H chain of the antibody having GpH7 in the variable region is referred to as GpH7-H1.
- change of an amino acid it shows like D356K.
- the first alphabet (corresponding to D in D356K) means the alphabet when the amino acid residue before modification is shown in single letter notation, and the following number (corresponding to 356 in D356K) means the EU numbering of the modified part
- the last alphabet (corresponding to K in D356K) means the alphabet in the case where the amino acid residue after modification is indicated by a single letter.
- GpH7-G1d (SEQ ID NO: 2) from which Gly and Lys at the C-terminus of IgG1 having GpH7 in the variable region were removed
- GpH7-A5 (SEQ ID NO: 3) in which mutations D356K and H435R were introduced into GpH7-G1d
- GpH7 GpH7-B3 (SEQ ID NO: 4) in which a mutation of K439E was introduced into -G1d was prepared according to the method of Reference Example 1.
- the mutations of D356K and K439E introduced into each H chain were introduced in order to efficiently form a heterozygote of each H chain when producing a heterodimerized antibody consisting of two H chains (WO2006 / 106905).
- H435R is a modification that prevents binding to Protein ProA, and was introduced to efficiently separate heterozygotes and homozygotes (see Reference Examples 3, 4, and 5).
- GpL16-k0 SEQ ID NO: 5
- an L chain of glypican 3 antibody with improved plasma kinetics disclosed in WO2009 / 041062 was used as the L chain of the antibody.
- an expression vector in which GpL16-k0 was inserted as an antibody L chain was used as an antibody L chain, and GpH7-A5 introduced with a modification of D356K as one of the antibody H chains Heterodimerization using an expression vector in which a further modified sequence is inserted into GpH7-B3 into which the K439E modification has been introduced as another antibody H chain.
- the antibody was expressed efficiently.
- the antibody obtained by purification after expression includes, for example, one of the expression vectors corresponding to the antibody H chain used for the expression of the heterodimerized antibody is GpH7-H1, the other antibody H chain is GpH7-H2, and the antibody L chain.
- the expression vector corresponding to is GpL16-k0, it is expressed as GpH7-H1 / GpH7-H2 / GpL16-k0.
- the sequence into which the modification of D356K and H435R was introduced was made to correspond to H1, and the sequence into which the modification of K439E was introduced to H2.
- the expression vector corresponding to the antibody H chain used for the expression of the homodimerized antibody is GpH7-H1
- the expression vector corresponding to the antibody L chain is GpL16-k0
- GpH7-H1 / GpL16 Expressed as -k0 Using the prepared antibody, the binding activity to Fc ⁇ R was measured by the method described in Reference Example 2.
- homodimerized antibody GpH7-A5 / GpL16-k0 (SEQ ID NOs: 3, 5) in which D356K and H435R are introduced into both H chains, and homodimerized antibody GpH7- in which K439E is introduced into both H chains.
- Heterodimerized antibody GpH7-A5 / GpH7-B3 / in which D356K and H435R are introduced into one H chain and K439E is introduced into the other H chain B3 / GpL16-k0 (SEQ ID NOs: 4, 5) GpL16-k0 (SEQ ID NOs: 3, 4, 5) was prepared. The results of comparing the binding activities of these antibodies with each Fc ⁇ R according to the method of Reference Example 2 are summarized in FIG.
- GpH7-G1d / GpL16-k0 and GpH7-A5 / GpH7-B3 / GpL16-k0 were compared, no significant change was observed in the binding activity to each Fc ⁇ R.
- GpH7-A5 / GpL16-k0 and GpH7-B3 / GpL16-k0 maintained at least 80% of the binding activity to any Fc ⁇ R compared to GpH7-G1d / GpL16-k0.
- GpH7-A26 (SEQ ID NO: 6) in which G237A mutation was introduced into GpH7-A5 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A26 / GpH7-B3 / GpL16-k0 in which G237A is introduced into only one H chain using GpH7-A26, GpH7-B3 as the H chain and GpL16-k0 as the L chain (SEQ ID NO: : 4,4,5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A26 / GpH7-B3 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0.
- the homodimerized antibody GpH7-A26 / GpL16-k0 with the same modification added to both H chains has a weaker binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb than GpH7-A5 / GpH7-B3 / GpL16-k0. It was.
- G237A is a modification that enhances the binding activity to Fc ⁇ RIIa ⁇ R and Fc ⁇ RIIb when introduced into only one H chain, although it decreases the binding activity to Fc ⁇ RIIaIIR and Fc ⁇ RIIb when introduced into both H chains. It became clear.
- GpH7-A29 (SEQ ID NO: 7) in which G237L mutation was introduced into GpH7-A5 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A29 / GpH7-B3 / GpL16-k0 in which G237L is introduced into only one H chain using GpH7-A29, GpH7-B3 as the H chain and GpL16-k0 as the L chain (SEQ ID NO: : 7, 4 and 5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A29 / GpH7-B3 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0. Nevertheless, the homodimerized antibody GpH7-A29 / GpL16-k0 with the same modification added to both heavy chains has a weaker binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb than GpH7-A5 / GpH7-B3 / GpL16-k0. It was.
- G237L is a modification that has the effect of enhancing the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb when introduced into only one H chain, although it decreases the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb when introduced into both H chains. It became clear that there was.
- GpH7-A42 (SEQ ID NO: 8) in which the L328E mutation was introduced into GpH7-A5 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A42 / GpH7-B3 / GpL16-k0 in which L328E is introduced into only one H chain using GpH7-A42, GpH7-B3 as the H chain and GpL16-k0 as the L chain (SEQ ID NO: : 8, 4, 5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A42 / GpH7-B3 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0.
- the binding activity to Fc ⁇ RIIa R is less than that of GpH7-A5 / GpH7-B3 / GpL16-k0, and Fc ⁇ RIIb
- the binding activity against GpH7-A42 / GpH7-B3 / GpL16-k0, in which L328E was introduced only into one H chain was greater. From this, it was clarified that L328E is a modification having a higher effect of enhancing the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb when introduced into only one H chain rather than into both H chains.
- GpH7-A43 (SEQ ID NO: 9) in which the L328D mutation was introduced into GpH7-A5 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A43 / GpH7-B3 / GpL16-k0 in which L328D is introduced into only one H chain using GpH7-A43, GpH7-B3 as H chain and GpL16-k0 as L chain (SEQ ID NO: : 9, 4, 5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A43 / GpH7-B3 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0.
- the binding activity to Fc ⁇ RIIa R is less than that of GpH7-A5 / GpH7-B3 / GpL16-k0, and Fc ⁇ RIIb
- the binding activity against GpH7-A43 / GpH7-B3 / GpL16-k0, in which L328D was introduced only into one H chain was greater. From this, it was clarified that L328D is a modification having an effect of enhancing the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb when introduced into only one H chain rather than into both H chains.
- GpH7-B16 (SEQ ID NO: 10) in which the L234E mutation was introduced into GpH7-B3 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A5 / GpH7-B16 / GpL16-k0 in which L234E is introduced into only one H chain using GpH7-A5, GpH7-B16 as H chain and GpL16-k0 as L chain (SEQ ID NO: : 3, 10, 5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A5 / GpH7-B16 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIIa F and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0. Nevertheless, the homodimerized antibody GpH7-B16 / GpL16-k0 with the same modification added to both H chains has a weaker binding activity to Fc ⁇ RIIIa F and Fc ⁇ RIIb than GpH7-A5 / GpH7-B3 / GpL16-k0. It was.
- L234E is a modification that, when introduced into both H chains, attenuates the binding to Fc ⁇ RIIIa F and Fc ⁇ RIIb, but when introduced only into one H chain, it is an effect that has the effect of enhancing the binding activity to Fc ⁇ RIIIa F and Fc ⁇ RIIb. It became.
- GpH7-B17 (SEQ ID NO: 11) in which the L234D mutation was introduced into GpH7-B3 was prepared according to the method of Reference Example 1.
- Heterodimerized antibody GpH7-A5 / GpH7-B17 / GpL16-k0 in which L234D is introduced only into one H chain using GpH7-A5, GpH7-B17 as H chain and GpL16-k0 as L chain (SEQ ID NO: : 3, 11, 5) were expressed according to the method of Reference Example 1.
- the heterodimerized antibody GpH7-A5 / GpH7-B17 / GpL16-k0 enhanced the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb compared to GpH7-A5 / GpH7-B3 / GpL16-k0. Nevertheless, the homodimerized antibody GpH7-B17 / GpL16-k0 with the same modification added to both H chains has a weaker binding activity to Fc ⁇ RIIaFR and Fc ⁇ RIIb than GpH7-A5 / GpH7-B3 / GpL16-k0. It was.
- L234D is a modification that, when introduced into both H chains, reduces the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb, but when introduced into only one H chain, it has the effect of enhancing the binding activity to Fc ⁇ RIIa R and Fc ⁇ RIIb. It became clear.
- Example 3 Confirmation of Fc ⁇ R recognition direction by heterodimerized antibody As shown in Example 2, it is clear that the use of a heterodimerized antibody can enhance the binding activity to Fc ⁇ R compared to a homodimerized antibody. became.
- the modification of Example 2 was introduced into both heavy chains of the antibody, the binding activity to Fc ⁇ R was decreased rather than the natural antibody. From this result, when the modification introduced into the heterodimerized antibody is introduced into one H chain, it enhances the binding activity to Fc ⁇ R, but when introduced into both chains, the Fc ⁇ R is bound, In one chain, the modified residue enhances binding, but the other chain is thought to inhibit the interaction with Fc ⁇ R. That is, the state in which Fc ⁇ R in FIG.
- Coupled from the X direction is coupled from the back side of the figure
- the coupling from the front side of the figure is referred to as “coupling from the Y direction”.
- Homodimerized antibodies change Fc ⁇ R binding activity equally in both the X and Y directions, whereas heterodimerized antibodies tend to bind to Fc ⁇ R with a bias toward binding from either the X or Y direction. It was thought to be changing.
- H A chain P329 forms a hydrophobic core with the 87 and 110 Trps of Fc ⁇ RIII, but H B chain P329 does not interact directly with Fc ⁇ RIII (Nature, 372: 379-383, 1994). (FIG. 12).
- substitution of P329 in the HA chain with a charged residue would disrupt this hydrophobic core and inhibit binding from the X direction shown in FIG. 12, but from the opposite Y direction.
- P329 of H B-chain which are not involved in binding are not substituted, since it is intact, and expected to not have a major effect on the binding from the Y-direction.
- the antibodies obtained by purification are GpH7-A5 / GpH7-B12 / GpL16-k0, GpH7-A5 / GpH7-B13 / GpL16-k0, GpH7-A5 / GpH7-B14 / GpL16-k0 as heterodimerized antibodies, GpH7-A5 / GpH7-B15 / GpL16-k0, and homodimerized antibodies include GpH7-B12 / GpL16-k0, GpH7-B13 / GpL16-k0, GpH7-B14 / GpL16-k0, GpH7-B15 / GpL16- k0.
- the binding to each Fc ⁇ R was measured by the method described in Reference Example 2, and the results are shown in FIG.
- Heterodimerized antibodies GpH7-A5 / GpH7-B12 / GpL16-k0 and GpH7-A5 / GpH7-B13 / GpL16-k0 introduced with P329R and P329K have a binding activity to Fc ⁇ R of GpH7-A5 / GpH7-B3 / GpL16-k0
- the binding activity to each Fc ⁇ R was about 1/5 to 1/4, and no binding to Fc ⁇ R was observed with the homodimerized antibodies GpH7-B12 / GpL16-k0 and GpH7-B13 / GpL16-k0.
- the binding activity of P329D, P329E-introduced heterodimerized antibodies GpH7-A5 / GpH7-B14 / GpL16-k0, GpH7-A5 / GpH7-B15 / GpL16-k0 to Fc ⁇ R is GpH7-A5 / GpH7-
- the binding activity of B3 / GpL16-k0 was about 1/5 to 1/4 of the binding activity to each Fc ⁇ R, and the binding activity of more than 1/2 was maintained except for Fc ⁇ RIa.
- GpH7-A48 (SEQ ID NO: 16) with P329R introduced into GpH7-A5, GpH7-A45 (SEQ ID NO: 17) with G237A and P329R mutations introduced into GpH7-A5, and L234D and P329R into GpH7-B5
- An expression vector into which GpH7-B41 (SEQ ID NO: 18) into which the mutation was introduced was inserted was prepared by the method described in Reference Example 1. According to the method of Reference Example 1, G237A or L234D and P329R are introduced into one H chain using these expression vectors and GpL16-k0, which is an expression vector corresponding to the antibody L chain. Expressed (Table 1).
- the column of the sample is the name of the antibody
- the column of H1 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- GpH7-A5 / GpH7-B3 / GpL16-k0 was used as a polypeptide for introducing a modification
- GpH7-A5 / GpH7-B12 / GpL16 was used as a modified substance in which P329R was introduced into one H chain.
- G237A was introduced into the same H chain as P329R, and G237A was introduced into the H chain different from GpH7-A45 / GpH7-B3 / GpL16-k0 and P329R.
- GpH7-A26 / GpH7-B12 / GpL16-k0 was compared according to the method of Reference Example 2 (FIG. 14).
- GpH7-A26 / GpH7-B3 / GpL16-k0 a heterodimerized antibody in which G237A is introduced only into one H chain, binds to Fc ⁇ RIIaIIR and IIb more than GpH7-A5 / GpH7-B3 / GpL16-k0 was strengthening.
- Fc ⁇ R is used in GpH7-A26 / GpH7-B12 / GpL16-k0, in which G237A is introduced into the other H chain.
- GpH7-A5 / GpH7-B17 / GpL16-k0 a heterodimerized antibody in which L234D is introduced only into one H chain, has enhanced binding to Fc ⁇ RIIaIIR and IIb than GpH7-A5 / GpH7-B3 / GpL16-k0 It was.
- Fc ⁇ R is used in GpH7-A48 / GpH7-B17 / GpL16-k0 in which L234D is introduced into the other H chain. Binding to Fc ⁇ R other than Ia was attenuated, and the effect of enhancing binding of L234D to Fc ⁇ RIIaIIR and IIb was not observed.
- both G237A and L234D had the same direction of increasing (or decreasing) the binding activity of the antibody and Fc ⁇ R as P329R.
- the hetero-modification strengthened the binding to Fc ⁇ R by biasing in either the X or Y direction. From this result, it was shown that the heterodimerized antibody enhanced the interaction with Fc ⁇ R asymmetrically.
- Example 4 Comparison of heterodimerized antibody and homodimerized antibody binding to Fc ⁇ R From Example 2, by adding different modifications to the two H chains of the antibody, rather than adding the same modification to the two H chains, It was found that the binding to Fc ⁇ R via the Fc region of the antibody can be enhanced. Therefore, in order to find a modification having such a property, the following experiment was conducted.
- GpH7-B3 (SEQ ID NO: 4) prepared in Example 2, the amino acid considered to be involved in the binding to Fc ⁇ R and its surrounding amino acids, specifically, EU numbering 234 Leu, EU numbering 235 Leu EU numbering 236th Gly, EU numbering 237th Gly, EU numbering 238th Pro, EU numbering 329th Ser, EU numbering 265th Asp, EU numbering 266th Val, EU numbering 267th Ser, EU numbering 268th His, EU numbering 269th Glu, EU numbering 270th Asp, EU numbering 271th Pro, EU numbering 295th Gln, EU numbering 296th Tyr, EU numbering 298th Ser, EU Numbering 300th Tyr, EU numbering 324th Ser, EU numbering 325th Asn, EU numbering 326th Lys, EU numbering 327th Ala, EU numbering 328th Leu, EU numbering 329th Pro, EU numbering 330th Ala, EU numbering 331th Pro, EU number
- each GpH7-B3 variant is expressed as A_B
- A is the EU numbering of the residue to be modified
- the information on the type of amino acid is written in one-letter code
- B is the information on the amino acid after substitution.
- B3_variant with EU numbering 234 Leu as Gly is named L234_01G.
- L234_01G the numerical value peculiar to the amino acid was described for convenience before the one-letter code.
- the symbols 18N for Asn, 19Q for Gln, and 20W for Trp were used.
- a homodimerized antibody in which mutations were introduced into two H chains was prepared by the following procedure.
- the antibody was prepared according to the method of Reference Example 1, using GpH7-B3 variant as the H chain and GpL16-k0 (SEQ ID NO: 5) as the L chain.
- the homodimerized antibody in which mutations are introduced into both H chains thus prepared is called Ho Ab.
- a heterodimerized antibody in which mutation was introduced into only one H chain was prepared by the following procedure.
- the antibody was prepared according to the method of Reference Example 1, using GpH7-B3 variant and GpH7-A5 (SEQ ID NO: 3) as the H chain and GpL16-k0 (SEQ ID NO: 5) as the L chain.
- the heterodimerized antibody in which mutation is introduced only into one H chain prepared in this way is called He Ab.
- GpH7-B3 / GpL16-k0 prepared using GpH7-B3 (SEQ ID NO: 4) for the H chain and GpL16-k0 (SEQ ID NO: 5) for the L chain was used as a reference.
- the control antibody for this homodimerized antibody is called HoConHoAb.
- HoCon Ab does not significantly change the binding activity to each Fc ⁇ R compared to native IgG1.
- GpH7-A5 SEQ ID NO: 3
- GpH7-B3 SEQ ID NO: 4
- GpL16-k0 SEQ ID NO: 5
- -A5 / GpH7-B3 / GpL16-k0 was prepared according to the method of Reference Example 1.
- the control antibody for this heterodimerized antibody is called HeCon ⁇ ⁇ Ab.
- HeCon Ab does not significantly change the binding to each Fc ⁇ R as compared to natural IgG1.
- the binding activity to Fc ⁇ RIa, Fc ⁇ RIIa (R), Fc ⁇ RIIa (H), Fc ⁇ RIIb, and Fc ⁇ RIIIa was measured according to the method of Reference Example 2.
- the binding activity of He Ab to each Fc ⁇ R was divided by the binding activity of HeCon Ab to each Fc ⁇ R, and the value multiplied by 100 was defined as He / Con.
- the binding activity of Ho Ab to each Fc ⁇ R was divided by the binding activity of HoCon Ab to each Fc ⁇ R, and the value multiplied by 100 was defined as Ho / Con.
- He / Con and Ho / Con values of 100 Heterodimerization antibody He Ab containing the GpH7-B3 variant into which the mutation is introduced and homodimerization antibody Ho Ab have heterozygous binding activities to Fc ⁇ R, respectively. It shows that it is equivalent to the Fc ⁇ R binding activity of the dimerized antibody control and the homodimerized antibody control.
- the values of He / Con and Ho / Con are 100 or less: the binding activity to Fc ⁇ R of the heterodimerized antibody He Ab and the homodimerized antibody Ho Ab containing the GpH7-B3 variant into which the mutation is introduced, respectively.
- the binding activity of the heterodimerized antibody He Ab containing the GpH7-B3 variant into which the mutation is introduced to Fc ⁇ R is higher than that of the homodimerized antibody Ho Ab to Fc ⁇ R. It is stronger than the binding activity. 5. If the He / Con value is smaller than the Ho / Con value: the binding activity to the Fc ⁇ R of the heterodimerized antibody He Ab containing the mutated GpH7-B3 variant contains the mutated GpH7-B3 variant It shows that the homodimerized antibody Ho Ab is weaker than the binding activity to Fc ⁇ R.
- the modification When the modification exists in the region i in FIG. 21, the modification attenuates the binding to Fc ⁇ R in the homodimerized antibody introduced into the two H chains, but the same modification is applied only to one H chain. This means that the introduced heterodimerized antibody has an effect of enhancing the binding to Fc ⁇ R. That is, the modification is a modification that enhances the binding to Fc ⁇ R only with the heterodimerized antibody.
- Table 2 Tables 2-1 to 2-3
- Table 3 Tables 3-1 and 3-2
- Table 4 Table 5 and Table 6 summarize the modifications included in the region i.
- the modification corresponding to that point is a homodimerized antibody introduced into both H chains, and the heterodimerization in which the same modification is introduced into only one H chain.
- Any of the antibodies enhances the binding to Fc ⁇ R, which means that the binding enhancing effect is greater in the heterodimerized antibody. That is, the modification within this region is a modification having a higher binding enhancing effect on Fc ⁇ R in the heterodimerized antibody than in the homodimerized antibody.
- Table 2 Tables 2-1 to 2-3
- Table 3 Tables 3-1 and 3-2
- Table 4 Table 5 and Table 6 summarize the modifications included in the region ii.
- He / Con related to the binding activity to Fc ⁇ RIa, Fc ⁇ RIIIa H, Fc ⁇ RIIa R, Fc ⁇ RIIb, and Fc ⁇ RIIIa are He / Con_1a, He / Con_2aH, He / Con_2aR, He / Con_2b, He / Con_3a, respectively.
- Ho / Con related to the binding activity to Fc ⁇ RIa, Fc ⁇ RIIIaH, Fc ⁇ RIIaR, Fc ⁇ RIIb, and Fc ⁇ RIIIa were designated as Ho / Con_1a, Ho / Con_2aH, Ho / Con_2aR, Ho / Con_2b, and Ho / Con_3a, respectively.
- the modification corresponding to that point is a homodimerized antibody introduced into both H chains, and the heterodimerization in which the same modification is introduced into only one H chain.
- Any of the antibodies enhances the binding to Fc ⁇ R, which means that the binding enhancing effect is greater in the homodimerized antibody. That is, the modification in this region is a modification having a higher binding enhancing effect on Fc ⁇ R in the homodimerized antibody than in the heterodimerized antibody.
- the first alphabet (corresponding to A in A327_03V) means the alphabet in the case where the amino acid residue before modification is indicated by a single letter.
- the number after that (corresponding to 327 of A327_03V) means the EU numbering of the modified part.
- the last number + alphabet (corresponding to 03V of A327_03V) means the alphabet (number indicating the type of amino acid + alphabet) when the amino acid residue after modification is indicated by a single letter.
- A327_03V means “substitution of amino acid A at position 327 of EU numbering to V”.
- the modification found in this example was considered to support the concept of improving Fc ⁇ R recognition ability by the heterodimerized antibody shown in Example 1 in addition to Example 2.
- the modification in the region i in FIG. 21 is considered as a modification that attenuates the binding activity to Fc ⁇ R when introduced into both of the two H chains as in the prior art, and has not been recognized as a modification that enhances the binding. .
- Example 5 Method for Determining Combination of Heterodimerized Antibody Modifications
- the effect of a certain modification on binding to Fc ⁇ R varies in direction depending on the modification. Therefore, when combining multiple modifications in a heterodimerized antibody to further enhance or attenuate the binding to Fc ⁇ R, it is necessary to align the direction of the effect of each modification on the binding to Fc ⁇ R. If the two modifications are introduced in a state where the direction of the enhancement effect on the binding of the antibody to Fc ⁇ R is different, the effects of each modification cancel each other out, and the binding is enhanced despite the combination of the binding enhancement modifications to Fc ⁇ R. It is thought that the enhancement effect is not observed.
- the target variant was expressed and prepared according to the method of Reference Example 1 using GpH7-A5 as another H chain and GpL16-k0 as an L chain.
- GpH7-B3-01-15Y SEQ ID NO: 22
- GpH7-B3-03-20W SEQ ID NO: 23
- GpH7-B3- with L234Y, G236W, and S298A introduced into GpH7-B3 as H chains, respectively.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( When there is no mutation, “-”), the binding activity to Fc ⁇ RIIIa is relative to the binding of GpH7-A5 / GpH7-B3 / GpL16-k0 (SEQ ID NO: 3, 4, 5) to Fc ⁇ RIIIa. The binding activity was expressed.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the binding activity to Fc ⁇ RIIIa was compared when each modification was introduced into the same H chain as P329R and when it was introduced into a different H chain.
- the binding activity of GpH7-A5 / GpH7-HA5 / GpL16-k0 corresponding to the former is 60
- the binding activity of GpH7-A48 / GpH7-B3-01-15Y / GpL16-k0 corresponding to the latter is 11. Yes, binding to Fc ⁇ R was more inhibited when the modification was introduced into an H chain different from P329R.
- P329R is considered to inhibit binding from the X direction.
- the combination in which binding was significantly inhibited was when L234Y, G236W, and S298A were introduced into an H chain different from P329R. In this case, these modifications were introduced into the H B chain.
- P329R is P329R is any modification when introduced into H B chain It is thought that the binding from the X direction that inhibits the binding of Fc ⁇ RIIIa was strengthened. Therefore, it was considered that the binding to Fc ⁇ RIIIa could be further enhanced by introducing these modifications into the same H chain.
- GpH7-TA4 (SEQ ID NO: 28) in which L234Y and G236W were introduced into GpH7-A5
- GpH7-TA5 (SEQ ID NO: 29) in which L234Y and S298A were introduced into GpH7-A5, G236W and S298A into GpH7-A5
- An expression vector into which the introduced GpH7-TA6 (SEQ ID NO: 30) was inserted was prepared. These were combined as shown in Table 8, and GpL16-k0 was added as an L chain to each combination, and the target antibody was expressed and prepared according to the method of Reference Example 1.
- Table 8 summarizes the results of measuring the H chain of the expressed sample, information on the mutation site, and the binding of the antibody to Fc ⁇ RIIIa.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 (When there was no mutation in particular, “ ⁇ ”), the binding activity to Fc ⁇ RIIIa was expressed as a relative binding activity when the binding of GpH7-A5 / GpH7-B3 / GpL16-k0 to Fc ⁇ RIIIa was defined as 100.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- GpH7-TA4 / GpH7-B3 / GpL16-k0 with L234Y and G236W introduced into the same H chain has a binding activity of 168
- GpH7-A5 / GpH7-B3-01-15Y / GpL16- with only L234Y introduced
- the binding activity increased compared to GpH7-A5 / GpH7-B3-03-20W / GpL16-k0 into which only k0 and G236W were introduced. From this result, it was clarified that L234Y and G236W further enhanced the binding activity to Fc ⁇ RIIIa when introduced into the same H chain as predicted.
- GpH7-TA1 / GpH7-B3-15-02A / GpL16-k0 with L234Y and S298A introduced into different H chains has a binding activity to Fc ⁇ RIIIa of 142, and GpH7-A5 / GpH7-B3-01- with only L234Y introduced Although the binding activity of 15Y / GpL16-k0 was increased compared to 131, it was decreased from 163, which was the binding activity of GpH7-A5 / GpH7-B3-15-02A / GpL16-k0 into which S298A alone was introduced.
- GpH7-TA1 / GpH7-B3-15-02A / GpL16-k0 has no enhanced binding activity compared to the case of introducing S298A alone, so that S298A and L234Y were introduced into different H chains, and Fc ⁇ RIIIa It can be said that the effect of further enhancing the binding activity to can not be imparted.
- GpH7-TA5 / GpH7-B3 / GpL16-k0 with L234Y and S298A introduced into the same H chain has a binding activity of 208
- GpH7-A5 / GpH7-B3-01-15Y / GpL16- with only L234Y introduced Compared with any of GpH7-A5 / GpH7-B3-15-02A / GpL16-k0 into which only k0 and S298A were introduced, the binding activity to Fc ⁇ RIIIa was increased. From this result, it was clarified that L234Y and S298A further enhance the binding activity to Fc ⁇ RIIIa when introduced into the same H chain as predicted.
- GpH7-TA3 / GpH7-B3-03-20W / GpL16-k0 in which G236W and S298A are introduced into different H chains has a binding activity to Fc ⁇ RIIIa of 70
- GpH7-A5 / GpH7-B3-03- in which only G236W is introduced 20W / GpL16-k0 binding activity is decreased compared to 140
- GpH7-A5 / GpH7-B3-15-02A / GpL16-k0 binding activity introduced with S298A alone is decreased compared to 163 It was.
- GpH7-TA6 / GpH7-B3 / GpL16-k0 with G236W and S298A introduced into the same H chain has a binding activity of 228, and GpH7-A5 / GpH7-B3-03-20W / GpL16- with only G236W introduced
- the binding activity was increased as compared with either GpH7-A5 / GpH7-B3-15-02A / GpL16-k0 into which only k0 or S298A was introduced. From this result, it was clarified that G236W and S298A further enhance the binding activity to Fc ⁇ RIIIa when introduced into the same H chain as predicted.
- L234Y and G236W, L234Y and S298A, G236W and S298A modified groups were introduced into GpH7-A5 GpH7-TA4, GpH7-TA5, GpH7-TA6 and L234Y, G236W, and S298A, respectively.
- GpH7-B3-01-15Y, GpH7-B3-03-20W, GpH7-B3-15-02A introduced into GpH7-B3 was prepared according to Reference Example 1, and L234Y, G236W, and S298A The three antibodies were combined so as to be introduced into any H chain, GpL16-k0 was added as the L chain, and the target antibody was expressed and purified according to the method of Reference Example 1.
- GpH7-TA7 (SEQ ID NO: 31) in which three modifications of L234Y, G236W, and S298A were introduced into GpH7-A5 was prepared, and was combined with GpH7-B3 and GpL16-k0 according to the method of Reference Example 1.
- the antibody was expressed and purified. Table 9 summarizes the list of antibodies prepared here and the results of comparing the binding activity of each antibody to Fc ⁇ RIIIa.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 (When there was no mutation in particular, “ ⁇ ”), the binding activity to Fc ⁇ RIIIa was expressed as a relative binding activity when the binding activity of GpH7-A5 / GpH7-B3 / GpL16-k0 to Fc ⁇ RIIIa was defined as 100.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- GpH7-TA7 / GpH7-B3 / GpL16-k0 in which L234Y, G236W, and S298A were introduced into the same H chain, was predicted as the result of combining each modification with P329R and comparing the binding activity to Fc ⁇ RIIIa.
- the binding to Fc ⁇ RIIIa was enhanced. That is, from this result, it was revealed that an appropriate combination method of two or more modifications can be predicted by combining each modification with P329R and comparing the binding activity to Fc ⁇ RIIIa.
- Example 6 Comparison of conventional homodimerized antibody and novel heterodimerized antibody in heterodimerized antibody From the results of Table 7, Table 8, and Table 9 of Example 5, heterozygote that enhances the binding activity to Fc ⁇ RIIIa alone. Modifications have been shown to be able to further enhance binding to Fc ⁇ RIIIa when combined appropriately. Specifically, L234Y, G236W, and S298A were shown to further enhance the binding activity to Fc ⁇ R by modifying the same H chain.
- GpH7-TA7 and GpH7-TA45 (SEQ ID NO: 32) in which L234Y, G236W, and S298A were introduced into GpH7-A5 and GpH7-B3, respectively, were prepared according to the method of Reference Example 1, and Table 10 L234Y, G236W, S298A is introduced into only one H chain as shown in GpH7-TA7 / GpH7-B3 / GpL16-k0 and GpH7-A5 / GpH7-TA45 / GpL16-k0, L234Y, G236W
- the homodimerized antibody GpH7-TA7 / GpH7-TA45 / GpL16-k0 having S298A
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 (When there was no mutation in particular, “ ⁇ ”), the binding activity to Fc ⁇ RIIIa was expressed as a relative binding activity when the binding activity of GpH7-A5 / GpH7-B3 / GpL16-k0 to Fc ⁇ RIIIa was defined as 100.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the homodimerized antibody GpH7-TA7 / GpH7-TA45 / GpL16-k0 in which L234Y, G236W, and S298A were introduced into both H chains had decreased binding to Fc ⁇ RIIIa.
- GpH7-TA8 SEQ ID NO: 33
- GpH7-B12 SEQ ID NO: 12
- P329R was introduced into each of GpH7-TA7 and GpH7-B3
- Table 11 Heterodimerized antibody GpH7-TA8 / GpH7-B3 / GpL16-k0 into which L234Y, G236W, S298A and P329R were introduced into the same H chain, and heterodimerized antibody GpH7-TA7 / GpH7-B12 / GpL16- introduced into different chains k0 was prepared according to the method of Reference Example 1.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 (When there was no mutation in particular, “ ⁇ ”), the binding activity to Fc ⁇ RIIIa was expressed as a relative binding activity when the binding of GpH7-A5 / GpH7-B3 / GpL16-k0 to Fc ⁇ RIIIa was defined as 100.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- all of the heterodimerized antibodies GpH7-TA7 / GpH7-B12 / GpL16-k0 introduced into the H chain had a decreased binding activity to Fc ⁇ RIIIa compared to GpH7-TA7 / GpH7-B3 / GpL16-k0
- GpH7 In -TA7 / GpH7-B12 / GpL16-k0 the binding activity to Fc ⁇ RIIIa was 11, which was markedly attenuated compared to 150 in GpH7-TA8 / GpH7-B3 / GpL
- ADCC antibody-dependent cellular cytotoxicity
- the antibody Fc region and Fc ⁇ R interact asymmetrically.
- all of the modified residues of S239D, I332E, and A330L are involved in enhancing the interaction with Fc ⁇ R in the HA chain due to its three-dimensional structure.
- it not in contact with the Fc [gamma] R except S239D in H B-chain was considered not contribute to the binding activity enhancement against Fc [gamma] R ( Figure 23).
- heterodimerized antibody technique a technique for producing a heterodimerized antibody of the present invention in which different modifications are made to each H chain of an antibody.
- conventional technique a technique for making the same modification
- S298 is considered not to interact only with H B chain of 23 and Fc ⁇ R (JBC, 276: 16469-16477 , 2001). Therefore, the introduction of modifications to S298, is believed to interact with Fc ⁇ RIIIa substituted mutations also H B chain side. As seen in Example 5, it was considered that L234Y and G236W enhanced the interaction with Fc ⁇ R from the same direction as S298A.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 (When there was no mutation in particular, “ ⁇ ”), the binding activity to Fc ⁇ RIIIa was expressed as a relative binding activity when the binding activity of GpH7-A5 / GpH7-B3 / GpL16-k0 to Fc ⁇ RIIIa was defined as 100.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the binding activity of GpH7-A5 / GpH7-HA18 / GpL16-k0 corresponding to the former is 35, and the binding activity of GpH7-A48 / GpH7-B3-22-10E / GpL16-k0 corresponding to the latter is 189.
- binding to Fc ⁇ RIIIa was more inhibited when the modification was introduced into the same H chain as P329R.
- binding to Fc ⁇ RIIIa was inhibited when the former P329R was introduced into the same H chain. Assuming that the H chain into which P329R has been introduced corresponds to the HA chain in FIG. 23, P329R is considered to inhibit binding from the X direction.
- Example 5 L234Y, G236W, S298A was considered to have strengthened the bond from X-direction when both introduced into H B chain. As discussed in Example 5 and Example 6, it is possible to find a method of appropriately combining each modification by combining with P329R. Our results, S239D to enhance binding to Fc ⁇ RIIIa from X-direction of FIG. 3, A330L, I332E is H A chain, L234Y, G236W, S298A must be introduced into the H B chain, each of the modified It was considered that the binding to Fc ⁇ RIIIa from the X direction could be further enhanced by introducing the groups into different H chains.
- S239D, A330L, and I332E were all introduced into GpH7-A5 according to the method of Reference Example 1, GpH7-A57 (SEQ ID NO: 40), and GpH7-B78 (sequence) introduced into GpH7-B3.
- No .: 41) and G234-TA7 (SEQ ID NO: 31) in which L234Y, G236W and S298A were all introduced into GpH7-A5, and GpH7-TA45 (SEQ ID NO: 32) introduced in GpH7-B3 were prepared. did.
- the prepared antibody was compared with the binding activity against Fc ⁇ RIIIa using the KD against Fc ⁇ RIIIa measured according to the method of Reference Example 2 as an index, and Table 13 shows the verification results of the effect of the combination of L234Y, G236W, S298A and S239D, A330L, I332E. Summarized.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing KD for Fc ⁇ RIIIa of GpH7-G1d / GpL16-k0 by KD of each antibody is KD ratio 1
- KD for Fc ⁇ RIIIa of GpH7-A5 / GpH7-B3 / GpL16-k0 divided by KD of each antibody was defined as KD ratio 2.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the effect of each modification was verified on the homodimerized antibody using the conventional technique.
- the homodimerized antibody GpH7-A57 / GpH7-B78 / GpL16-k0, in which S239D, A330L, and I332E are introduced into both H chains has about 260 times the binding activity to Fc ⁇ RIIIa compared to GpH7-A5 / GpH7-B3 / GpL16-k0
- the homodimerized antibody GpH7-TA7 / GpH7-TA45 / GpL16-k0 into which L234Y, G236W and S298A were introduced into both H chains was attenuated 0.49 times. From this result, it was revealed that in the homodimerized antibody, only the modified group of S239D, A330L, and I332E has an effect of enhancing the binding activity to Fc ⁇ RIIIa.
- Heterodimerized antibody GpH7-A5 / GpH7-B78 / GpL16-k0 with S239D, A330L, or I332E introduced into one H chain has 30 times the binding activity to Fc ⁇ RIIIa compared to GpH7-A5 / GpH7-B3 / GpL16-k0
- the heterodimerized antibody GpH7-TA7 / GpH7-B3 / GpL16-k0 in which L234Y, G236W, and S298A were introduced into one H chain was 5.1-fold enhanced. From these results, it was revealed that the modified group of S239D, A330L, and I332E has a higher binding activity enhancing effect on Fc ⁇ RIIIa.
- the heterodimerized antibody has a 30-fold increase in binding activity to Fc ⁇ RIIIa as compared to GpH7-A5 / GpH7-B3 / GpL16-k0, and the homodimerized antibody has an increase of about 260-fold.
- the enhancement of the binding activity to Fc ⁇ RIIIa can be further enhanced by introduction into a homodimerized antibody.
- the asymmetric interaction between the Fc region and Fc ⁇ RIIIa can be optimized more than using a conventional homodimerized antibody, and an Fc region having higher binding activity can be obtained. It was shown that it can be designed.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-A5 / GpH7-B78 / GpL16-k0 against Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- S239D, A330L, and I332E are introduced into one H chain and S239D, A330L, and I332E are introduced into only one H chain in GpH7-A53 / GpH7-B78 / GpL16-k0 in which S239D is introduced into the other H chain.
- an expression vector was prepared by inserting GpH7-TA22 (SEQ ID NO: 43) into which S239D was introduced into GpH7-TA7, and GpH7 into which S239D, A330L, I332E was introduced into GpH7-B3.
- the target antibody was expressed and adjusted together with -B78 and GpL16-k0. Furthermore, a heterodimerized antibody GpH7-TA22 / GpH7-B78 / GpL16-k0 was prepared by introducing L234Y, G236W, S239D, S298A into one H chain and S239D, A330L, I332E into the other H chain. According to the method of Reference Example 2, the binding activity to Fc ⁇ R IIIa was compared to verify the effect of the combination of S239D and S239D, A330L, I332E (Table 15).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-TA7 / GpH7-B78 / GpL16-k0 for Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- S239D is included in the heterodimerized antibody GpH7-TA7 / GpH7-B78 / GpL16-k0 in which L234Y, G236W and S298A are introduced into one H chain and S239D, A330L and I332E are introduced into the other H chain.
- GpH7-TA22 / GpH7-B78 / GpL16-k0 in which S239D was introduced into the non-chain the binding activity was enhanced 3.2 times that of GpH7-TA7 / GpH7-B78 / GpL16-k0.
- S239D can further enhance the binding to Fc ⁇ RIIIa.
- GpH7-TA52 (SEQ ID NO: 44), in which the Y296W mutation was introduced into GpH7-TA7, was prepared and expressed and prepared according to the method of Reference Example 1 in combination with GpH7-B78.
- GpH7-TA58 (SEQ ID NO: 45) in which Y296W was introduced into GpH7-B78 was prepared and expressed and prepared according to the method of Reference Example 1 in combination with GpH7-TA22.
- the binding activity to Fc ⁇ RIIIa was compared, and the effect of the combination of Y296W was verified (Table 16).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-TA7 / GpH7-B78 / GpL16-k0 for Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- GpH7-TA54 (SEQ ID NO: 46) in which Y296W was introduced into GpH7-TA22 was prepared, and was expressed and prepared according to the method of Reference Example 1 in combination with GpH7-B78.
- GpH7-TA58 (SEQ ID NO: 45) in which Y296W was introduced into GpH7-B78 was prepared and expressed and prepared according to the method of Reference Example 1 in combination with GpH7-TA22.
- the binding activity to Fc ⁇ RIIIa was compared, and the effect of the combination of Y296W was verified (Table 17).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-TA22 / GpH7-B78 / GpL16-k0 against Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- GpH7-TA40 (SEQ ID NO: 47) in which K334G was introduced into GpH7-TA7 was produced, and expressed and prepared according to the method of Reference Example 1 in combination with GpH7-B78.
- GpH7-TA50 (SEQ ID NO: 48) in which K334G was introduced into GpH7-B78 was prepared and expressed and prepared according to the method of Reference Example 1 in combination with GpH7-TA7.
- the prepared antibodies were compared for binding to Fc ⁇ RIIIa according to the method of Reference Example 2, and the effect of the combination of K334G was verified (Table 18).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-TA7 / GpH7-B78 / GpL16-k0 for Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- Example 8 Improvement of selectivity for active Fc ⁇ R and inhibitory Fc ⁇ R
- Fc ⁇ R There are two types of Fc ⁇ R, an active type having ITAM and an inhibitory type having ITIM.
- Typical active Fc ⁇ R Activating receptor
- Fc ⁇ RIa Fc ⁇ RIIa
- Fc ⁇ RIIIa Fc ⁇ RIIIa
- representative inhibitory Fc ⁇ R Inhibitory receptor
- ADCP antibody-dependent cell phagocytosis
- antibodies targeting cancer to enhance the binding activity to active Fc ⁇ R and attenuate the binding activity to inhibitory Fc ⁇ R.
- the modification included in the region a shown in FIG. 24 it binds more strongly to the active Fc ⁇ R than the natural antibody and binds to the inhibitory Fc ⁇ R weaker than the natural antibody.
- a modification that selectively enhances binding to active Fc ⁇ R is desirable.
- the ratio is such that the ratio of the binding activity to the active Fc ⁇ R and the inhibitory Fc ⁇ R is larger than that of the natural antibody, such as the modification in the region b shown in FIG.
- Such a modification can be said to be a modification that selectively enhances the binding activity to the active Fc ⁇ R compared to the inhibitory Fc ⁇ R.
- the binding activity of each of the heterodimerized antibody He Ab in which the modification was introduced into one H chain to the active Fc ⁇ R and the inhibitory Fc ⁇ R was measured according to the method of Example 4.
- the results are summarized in FIG. 26, FIG. 27, FIG. 28, and FIG.
- the active Fc ⁇ R in FIG. 26 is Fc ⁇ RIa
- the active Fc ⁇ R in FIG. 27 is Fc ⁇ RIIa (R)
- the active Fc ⁇ R in FIG. 28 is Fc ⁇ RIIa (H)
- the active Fc ⁇ R in FIG. 29 is Fc ⁇ RIIIa.
- Table 19 summarizes modifications existing in the regions corresponding to a and b in FIGS. 24 and 25 in FIG. Similarly, for Fc ⁇ RIIa (R) (FIG. 27), Fc ⁇ RIIa (H) (FIG. 28), and Fc ⁇ RIIIa (FIG. 29), a list of modifications existing in the regions corresponding to a and b is shown in Table 20 (Table 20-). 1 to 20-3), Table 21 (Tables 21-1 to 21-3), and Table 22 (Tables 22-1 to 22-3).
- Fc ⁇ RIIb the only inhibitory Fc ⁇ R
- antibodies with an Fc region with enhanced Fc ⁇ RIIb binding activity may be effective in treating autoimmune diseases caused by B cells (Mol. Immunology 45, 3926-3933,9332008) .
- the active Fc ⁇ R-mediated ADCC activity and ADCP activity may aggravate the pathology, so the binding activity to active Fc ⁇ R is attenuated as much as possible It is desirable to enhance the binding activity to inhibitory Fc ⁇ R.
- the modification in the region c of FIG. 24 there is an effect that the binding activity to the inhibitory Fc ⁇ R is enhanced as compared with the natural antibody and the binding activity to the active Fc ⁇ R is attenuated. desirable.
- Such a modification can be said to have an effect of selectively enhancing binding to the inhibitory Fc ⁇ R.
- the ratio of the binding activity to the inhibitory Fc ⁇ R and the binding activity to the active Fc ⁇ R is larger than that of the natural antibody, as in the modification existing in the region d in FIG.
- Such a modification can be said to be a modification that selectively enhances the binding activity to the inhibitory Fc ⁇ R compared to the active Fc ⁇ R.
- FIGS. 26, 27, 28, and 29 in which the ratio of the binding activity of each heterodimerized antibody to the inhibitory Fc ⁇ R and the active Fc ⁇ R was evaluated, the modifications in each figure are shown in FIGS. Tables 23 (Tables 23-1 and 23-2), Table 24 (Tables 24-1 and 24-2), and Table 25 (Tables 25-1 to 25) show the list of modifications existing in the regions corresponding to c and d, respectively. -3) and Table 26 (Tables 26-1 to 26-4).
- Example 9 Evaluation of physicochemical stability of heterodimerized antibody When developing an antibody as a pharmaceutical product, it is expected to have a high degree of physicochemical stability. For example, in the case of the modification in which S239D, A330L, and I332E mentioned above are introduced into both chains of the antibody, it has been reported that when this modification is introduced, the Fc region of the antibody becomes thermodynamically unstable. Reduced stability makes development as a pharmaceutical product difficult (Molecular Immunology, 45, 1872-1882, 2008). In order to enhance the usefulness of the antibody as a pharmaceutical and the ease of development, it is also important to maintain the physicochemical stability while enhancing the binding activity to Fc ⁇ R.
- the modification is introduced into both heavy chains, so when one kind of modification is introduced, two modifications are introduced per antibody molecule.
- heterodimerized antibodies can choose whether or not to introduce modifications to each H chain, even if one kind of modification is introduced, only one modification per antibody molecule can be introduced. Is possible.
- the effect of enhancing the binding activity to Fc ⁇ RIIIa may be sufficient when introduced into one H chain. If the modification had the effect of reducing the physicochemical stability of the antibody, by introducing the modification to only one H chain, the effect of enhancing the binding activity against Fc ⁇ RIIIa was given. It is believed that physicochemical destabilization can be minimized.
- the target antibody was expressed and prepared using unmodified GpH7-B3 and GpL16-k0.
- the Tm of the CH2 region of each antibody was compared by Thermal shift assay according to the method of Reference Example 5 (Table 27). In the following description, unless otherwise specified, Tm refers to Tm in the CH2 region.
- the column of the sample is the name of the antibody
- the column of H is the name of the H chain constant region of each antibody
- the column of mutation is a different mutation compared to GpH7-B3 / GpL16-k0 (especially when there is no mutation) “-”)
- the Tm column represents the Tm of each antibody
- the ⁇ Tm column represents the difference between the Tm of each antibody and the Tm of GpH7-B3 / GpL16-k0.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- I332E has the highest effect of reducing Tm of CH2, and I332E contributes most to the decrease of Tm even in the antibody introduced with the modified group of S239D, A330L, and I332E. it was thought.
- I332E is surrounded by hydrophobic amino acids such as V240, V323, and L328 around the side chain.
- the highly hydrophobic Ile is substituted with the highly hydrophilic Glu, so the hydrophobic interaction with surrounding residues disappears, contributing to destabilization of the Fc region. It was thought that there was.
- I332E interacts with Fc ⁇ RIIIa only on one H chain. Therefore, I332 of the other H chain that is not involved in the interaction with Fc ⁇ RIIIa is left as Ile, while maintaining the thermodynamic stability while providing the effect of enhancing the binding to Fc ⁇ RIIIa. It was considered possible.
- An expression vector was prepared by inserting GpH7-A44 (SEQ ID NO: 49) into which I332E was introduced into GpH7-A5 and GpH7-B80 (SEQ ID NO: 50) into which GpH7-B3 was introduced, and GpH7-B3, GpH7-A5, Heterodimerized antibody GpH7-A5 / GpH7-B80 / GpL16-k0, GpH7-A44 / GpH7-B3 / GpL16-k0, I332E in both H chains with GpL16-k0 and I332E introduced into only one H chain
- the homodimerized antibodies GpH7-A44 / GpH7-B80 / GpL16-k0 introduced into the above were expressed and prepared according to the method of Reference Example 1, respectively.
- GpH7-A5 / GpH7-B3 / GpL16-k0 was prepared.
- the binding activity of each antibody to Fc ⁇ RIIIa was evaluated according to the method of Reference Example 2.
- the Tm of the CH2 region of each antibody was compared by Thermal-shift assay according to the method of Reference Example 5 (Tables 28 and 29).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD of GpH7-A5 / GpH7-B3 / GpL16-k0 against Fc ⁇ RIIIa by the KD of each antibody was taken as the KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the column of Sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( When there was no particular mutation, “-”), the Tm column represents the Tm of each antibody, and the ⁇ Tm column represents the difference between the Tm of each antibody and the Tm of GpH7-B3 / GpL16-k0.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the heterodimerized antibody GpH7-A5 / GpH7-B80 / GpL16-k0 in which I332E is introduced into only one H chain has a binding activity to Fc ⁇ RIIIa as compared to GpH7-A5 / GpH7-B3 / GpL16-k0.
- GpH7-A44 / GpH7-B80 / GpL16-k0 in which I332E was introduced into both H chains, increased Fc ⁇ RIIIa binding activity by about 7 times compared to GpH7-A5 / GpH7-B3 / GpL16-k0. From these results, it was clarified that I332E has a sufficient effect of enhancing the binding activity to Fc ⁇ RIIIa even if it is introduced into only one H chain, even if it is not introduced into both H chains, as considered from its three-dimensional structure. .
- the heterodimerized antibodies GpH7-A5 / GpH7-B80 / GpL16-k0 and GpH7-A44 / GpH7-B3 / GpL16-k0 in which I332E is introduced only into one H chain are the same. Since Tm decreased by 4 ° C from GpH7-A5 / GpH7-B3 / GpL16-k0, which is the parent Fc molecule, even if I332E was introduced into either GpH7-A5 or GpH7-B3, the Tm of the antibody of I332E The effect was thought not to change.
- the homodimerized antibody GpH7-A44 / GpH7-B80 / GpL16-k0 in which I332E was introduced into both H chains had a Tm decreased by 10 ° C. from GpH7-A5 / GpH7-B3 / GpL16-k0.
- the heterodimerized antibody in which I332E was introduced into only one H chain maintained a Tm of 6 ° C. higher than the homodimerized antibody in which I332E was introduced into both H chains. From these results, it was revealed that the decrease in Tm can be suppressed by using a heterodimerized antibody in which I332E is introduced into only one H chain instead of both H chains.
- Heterodimerized antibodies have been shown to be useful techniques for maintaining antibody physicochemical stability.
- a heterodimerized antibody GpH7-TA7 / GpH7-B78 in which a modified group of L234Y, G236W, S298A is introduced into one H chain and a modified group of S239D, A330L, I332E is introduced into the other H chain.
- Tm of the CH2 region of each antibody was compared by Thermal-shift assay according to the method of Reference Example 5, and the effect of the combination of L234Y, G236W, S298A and S239D, A330L, I332E on Tm was examined (Table 30).
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of mutation is a different mutation compared to GpH7-G1d / GpL16-k0 (no particular mutation)
- ⁇ the Tm column shows the Tm of each antibody
- the ⁇ Tm column shows the difference between the Tm of each antibody and the Tm of GpH7-A5 / GpH7-B3 / GpL16-k0.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the effect of each modified group was verified on the homodimerized antibody which is a conventional technique.
- the homodimerized antibody GpH7-A57 / GpH7-B78 / GpL16-k0 with S239D, A330L, I332E introduced into both H chains has a Tm of 20 ° C lower than that of GpH7-A5 / GpH7-B3 / GpL16-k0, and L234Y.
- each modified group was verified for a heterodimerized antibody in which each modified group was introduced only into one H chain.
- Tm decreased by 8 ° C compared to GpH7-A5 / GpH7-B3 / GpL16-k0
- No decrease in Tm was observed with the heterodimerized antibody GpH7-TA7 / GpH7-B3 / GpL16-k0 in which L234Y, G236W and S298A were introduced into one H chain. From this result, it was considered that the L234Y, G236W, and S298A modified groups themselves have no effect of reducing Tm even in the heterodimerized antibody.
- Tm was reduced by 21 ° C. compared to natural IgG1, but only one H chain was S239D, A330L,
- Tm was 60 ° C., and Tm higher than that of the homodimerized antibody was maintained by 10 ° C. or more.
- Tm decreased only by 1 ° C. compared to the natural antibody, which means that L234Y, G236W, and S298A It was thought that it was not the decrease in Tm due to, but the influence of D356K / H435R and K439E used to make heterodimerized antibodies as discussed above. This is also indicated by the fact that Tm decreased only by 1 ° C. in GpH7-TA7 / GpH7-B3 / GpL16-k0 in which L234Y, G236W and S298A were introduced into one H chain.
- the Tm of GpH7-TA7 / GpH7-B78 / GpL16-k0 with L234Y, G236W and S298A in one H chain and S239D, A330L and I332E in the other H chain is 10 ° C lower than the natural antibody. It is almost the same as GpH7-A5 / GpH7-B78 / GpL16-k0 in which S239D, A330L, and I332E are introduced into one H chain.
- GpH7-TA7 / GpH7-B78 / GpL16-k0 has a 10-fold or greater increase in binding to Fc ⁇ RIIIa than GpH7-A5 / GpH7-B78 / GpL16-k0.
- thermodynamic stability of the sample from which Tm was measured was further evaluated by the thermal acceleration test (40 ° C., 2 weeks or 4 weeks) described in Reference Example 6 (FIG. 30).
- GpH7-TA7 / GpH7-B78 / GpL16-k0 with L234Y, G236W, S298A in one H chain and S239D, A330L, I332E in the other H chain has a 2.47% monomer ratio after 4 weeks.
- the monomer ratio was slightly decreased from 1.86% of the natural type antibody.
- the heterodimerized antibody not only enhances the binding to Fc ⁇ R but also improves the stability of the antibody as a pharmaceutical product compared to the homodimerized antibody, as compared with the normal homodimerized antibody. It was shown that this is a technology that can.
- Example 10 Search for modifications that improve binding to Fc ⁇ R and do not decrease stability
- introduction of a modification into the H chain enhances the binding activity to Fc ⁇ R, but the physicochemical properties of CH2 Stability, that is, Tm may be lowered.
- such a property is not preferable particularly when an antibody is used as a medicine.
- the Tm decreased in the homodimerized antibody, although the enhanced binding activity to Fc ⁇ R was observed.
- heterodimerization can enhance the binding activity to Fc ⁇ R compared to natural antibodies, and can improve Tm over homodimerized antibodies.
- Table 31 shows Ia data in regions ii and iii with Tm of 68 ° C. or lower
- Table 32 Tables 32-1 and 32-2 shows Tm in regions ii and iii of 68 ° C.
- Table 33 Tables 33-1 and 33-2) in Regions ii, iii and IIaH with a Tm of 68 ° C. or lower
- Table 34 Tables 34-1 and 34-2) in Region ii , iii and IIm data with Tm of 68 ° C. or lower
- Table 35 shows IIIa data with regions ii and iii with Tm of 68 ° C. or lower.
- Example 11 Measurement of ADCC activity of heterodimerized antibody with improved recognition ability for Fc ⁇ RIIIa As discussed in Example 7, using heterodimerized antibody, it was created by conventional homodimerized antibody technology. It succeeded in enhancing the binding activity to Fc ⁇ RIIIa rather than the variant. The antibody induces NK cells via Fc ⁇ RIIIa and exhibits antibody-dependent cytotoxic activity against cells expressing the target antigen.
- both GpH7-A5 / GpH7-B78 / GpL16-k0 and GpH7-TA7 / GpH7-B3 / GpL16-k0 are enhanced compared to GpH7-A5 / GpH7-B3 / GpL16-k0.
- a similar trend was observed in ADCC activity.
- GpH7-A5 / GpH7-B78 / GpL16-k0 has a higher binding activity to Fc ⁇ RIIIa than GpH7-TA7 / GpH7-B3 / GpL16-k0, but the same tendency is maintained in ADCC activity. It was shown that the strength of the binding activity to Fc ⁇ RIIIa and the strength of ADCC activity correlate with the heterodimerized antibody as well as the homodimerized antibody.
- GpH7-TA7 / GpH7-B3 / GpL16-k0 which is a heterodimerized antibody in which a modified group of L234Y, G236W, and S298A is introduced only into one H chain, and a homodimerized antibody that is introduced into both H chains
- the heterodimerized antibody is more potent than GpH7-A5 / GpH7-B3 / GpL16-k0 in terms of binding activity to Fc ⁇ RIIIa.
- the binding was attenuated with the homodimerized antibody. A similar trend was observed for ADCC activity.
- the ADCC activity also reflected the effect of enhancing the binding activity to Fc ⁇ RIIIa possessed by the modified group of L234Y, G236W, and S298A from only one direction. From these results, it can be said that the strength of the binding activity to Fc ⁇ RIIIa and the strength of ADCC activity of a heterodimerized antibody in which a certain modified group is introduced only into one H chain and a homodimerized antibody introduced into both H chains are correlated. it was thought.
- GpH7-TA7 / GpH7-B78 / GpL16-k0 and S239D, A330L are heterodimerized antibodies in which L234Y, G236W, S298A are introduced into one H chain, and S239D, A330L, I332E are introduced into the other H chain.
- GpH7-A57 / GpH7-B78 / GpL16-k0 which is a homodimerized antibody in which I332E was introduced into both H chains, was compared.
- GpH7-TA7 / GpH7-B78 / GpL16-k0 has a stronger binding activity to Fc ⁇ RIIIa than GpH7-A57 / GpH7-B78 / GpL16-k0, and ADCC activity also has GpH7-TA7 / GpH7- B78 / GpL16-k0 showed stronger ADCC activity.
- Example 12 Comparison of conventional homodimerized antibody and novel heterodimerized antibody in Fc ⁇ RIIa As described in Example 1, Fc ⁇ RIIIa is considered to play an important role in the efficacy of antibody drugs. . Furthermore, in addition to Fc ⁇ RIIIa, the role played by Fc ⁇ RIIa in the medicinal effects of IgG1-derived antibody drugs has also attracted attention.
- Fc ⁇ RIIa has R-type and H-type allotypes where the 131st amino acid is Arg or His, and each has different binding activity to human IgG2 (Tissue Antigens 2003: 61: 189-202) ). It is known that the susceptibility to infection varies depending on the Fc ⁇ RIIa allotype (Tissue Antigens 2003: 61: 189-202). This is thought to be due to the difference in Fc ⁇ RIIa and IgG2 binding activity due to differences in allotypes, resulting in different resistance mechanisms against pathogens mediated by IgG2 (Infection and Immunitiy 1995: 63: 73-81).
- mouse Fc ⁇ RIV is known to correspond to human Fc ⁇ RIIa and expressing cells, and it has been reported that this Fc ⁇ RIV plays an important role in the efficacy of anti-CD20 antibody in a mouse model. This suggests that Fc ⁇ RIIa plays a similar role in humans (The Journal of Experimental Medicine 2004: 199: 1659-1669, The Journal of Experimental Medicine 2006: 203: 743-753, Immunity 2005: 23: 41-51). In fact, it has been reported that antibodies with enhanced binding activity to Fc ⁇ RIIa in the Fc region of antibodies over IgG1 have enhanced antibody-dependent cell phagocytic activity (ADCP activity) via macrophage compared to IgG1 (Molecular Cancer Therapeutics 2008: 7: 2517-2527).
- ADCP activity antibody-dependent cell phagocytic activity
- the anti-CD19 antibody having the Fc region enhanced by ADCP shows a stronger antitumor effect than IgG1 in mousemousxenograft model (Nature Medicine 2000: 6: 443-446).
- the Fc region of this antibody also has enhanced binding activity to monkey Fc ⁇ RIIa.
- CD19 is expressed on the surface of B cells, it has been reported that when this antibody is administered to monkeys, loss of B cells is enhanced as compared to anti-CD19 antibody having the Fc region of IgG1 (Science 2005: 310: 1510-1512).
- Example 4 In order to verify this, from the results of Example 4, a modification that enhances the binding activity of Fc ⁇ RIIIa, FcgRIIaR type, and H type as compared with natural IgG is selected, and these are combined to combine Fc ⁇ RIIIa and FcgRIIa. Mutations with enhanced binding activity were introduced into both R-type and H-type to produce heterodimerized antibodies combining H chains with different binding to Fc ⁇ R, and the binding activity to each Fc ⁇ R was evaluated.
- Fc ⁇ RIIb the inhibitory Fc ⁇ R, Fc ⁇ RIIb, induces intracellular signals that suppress immune responses.
- the antitumor effect of the antibody is enhanced (Nature Medicine 2000: 6: 443-446), or the loss of B cells via the antibody is promoted (The Journal of Experimental Medicine 2006: 203: 743-753), it has been shown that Fc ⁇ RIIb antibody plays an important role in the in vivo drug efficacy.
- a / I ratio is important for the effector function through antibody immunity. That is, if an antibody with a high A / I ratio is created, its effector function is enhanced, which is useful.
- Fc ⁇ RIIa which is an active Fc ⁇ R
- Fc ⁇ RIIb which is an inhibitory Fc ⁇ R
- Fc ⁇ IIb It was expected that it was extremely difficult to increase the A / I ratio without enhancing the binding activity to.
- Fc ⁇ RIIb and the Fc region of an antibody are considered to bind asymmetrically.
- Knobs-into-Holes technique was used for the antibody H chain constant region in order to efficiently form heterodimerized antibodies.
- Knobs-into-Holes technology replaces the amino acid side chain present in the CH3 region of one H chain with a larger side chain (knob), and replaces the amino acid side chain present in the CH3 region of the other H chain.
- a technology that can efficiently obtain the desired heterodimerized antibody by accelerating the heterodimerization of the H chain by substituting the small side chain (hole) into the void so that the protrusion is arranged in the void. (Nature, 372: 379-383 (1994)).
- the H chain in which the modification of Y349C and T366W for the purpose of enlarging the amino acid side chain in the CH3 region is introduced to the constant region is called the Knob chain.
- the name of the normal area starts with the symbol Kn, followed by a three-digit number and is called as Kn001.
- the H chain in which the Hole modification of D356C, T336S, L368A, Y407V aimed at making the amino acid side chain in the CH3 region smaller is introduced into the constant region is called the Hole chain.
- the name of the H chain constant region begins with the symbol Hl, followed by a three-digit number and is called as Hl001.
- the sequences corresponding to the H chain of the antibody having GpH7 in the variable region are called GpH7-Kn001 and GpH7-Hl001.
- Antibodies obtained by purification after expression include, for example, a sequence corresponding to the antibody H chain used for the expression of the heterodimerized antibody GpH7-Kn001, a sequence corresponding to the other antibody H chain is GpH7-Hl001, and the antibody L When the sequence corresponding to the chain was GpL16-k0, it was expressed as GpH7-Kn001 / GpH7-Hl001 / GpL16-k0.
- GpH7-Kn033 (SEQ ID NO: 51) in which the modifications of Y349C and T336W were introduced into the constant region of GpH7-G1d, and the modifications of D356C, T336S, L368A, and Y407V were introduced into the constant region of GpH7-G1d.
- GpH7-Hl033 (SEQ ID NO: 56) was prepared according to the method of Reference Example 1.
- an expression vector into which GpL16-k0 has been inserted is used as the antibody L chain, and GpH7-Kn033 (SEQ ID NO: 51) into which Y349C and T336W modifications have been introduced as one of the antibody H chains. ) was further introduced into GpH7-Hl033 (SEQ ID NO: 56) into which the modifications of D356C, T336S, L368A and Y407V were introduced as the other antibody H chain.
- the expression vector into which the sequence was inserted was used to efficiently express the heterodimerized antibody.
- antibodies intended to enhance binding to any of Fc ⁇ RIIIa, Fc ⁇ RIIa R type, and H type are as follows: It produced as follows. When introducing different modifications into the constant region of each H chain of the antibody, GpH7-Kn033 and GpH7-Hl033 were used as parent polypeptides.
- GpH7-Kn056 (SEQ ID NO: 55) in which L234Y, L235Y, G236A, H268D, Q295L, S298A was introduced
- GpH7-Kn045 (SEQ ID NO: 54) in which L234Y, L235Y, G236A, H268D, S298A were introduced into GpH7-Kn033,
- GpH7-H1053 SEQ ID NO: 59
- G236A, S239D, A330K, and I332E were introduced into GpH7-H033
- GpH7-H1055 (SEQ ID NO: 60) in which G236A, S239D, Q295L, A330M, and I332E were introduced
- Reference Example 1 It was produced according to the method.
- GpH7-Kn045 and GpH7-H1055 as the H chain and GpL16-k0 as the L chain
- GpH7-Kn045 / GpH7-H1055 / GpL16-k0 which is a heterodimerized antibody
- GpH7-Kn056 and GpH7-H1055 as the H chain and GpL16-k0 as the L chain
- GpH7-Kn056 / GpH7-H1055 / GpL16-k0 which is a heterodimerized antibody
- modified S239D / A330L / I332E which is reported to have enhanced binding to Fc ⁇ RIIIa, was introduced into GpH7-Kn033 and GpH7-Hl033, respectively, and GpH7-Kn032 (SEQ ID NO: 53), GpH7-H1032 (SEQ ID NO: 53) : 58). These H chains were combined to express antibodies according to Reference Example 1.
- GpH7-Kn033 / GpH7-Hl033 / GpL16-k0 is a molecule that applies only Knobs-into-Holes technology to G1d using GpH7-Kn037, GpH7-H1036 as the H chain, and GpL16-k0 as the L chain.
- GpH7-Kn032 / GpH7-Hl033 / GpL16-k0 is a molecule that applies only Knobs-into-Holes technology to G1d using GpH7-Kn032, GpH7-Hl032 as the H chain, and GpL16-k0 as the L chain.
- the homodimerized antibody GpH7-Kn032 / GpH7-Hl032 / GpL16-k0 into which S239D / A330L / I332E was introduced into both H chains was expressed.
- Table 36 shows the KD ratio of each antibody
- Table 38 shows the A / I ratio, which is the ratio of KD to Fc ⁇ RIIIa.
- the column of the sample is the name of the antibody
- the columns of Kn and Hl are the names of the Knob chain and Hole chain constant regions of each antibody
- the column of mutation is compared with GpH7-Kn033 / GpH7-Hl033 / GpL16-k0. Different mutations (“-” in the absence of mutations).
- the column of the sample is the name of the antibody
- the columns of Kn and Hl are the names of the Knob chain and Hole chain constant regions of each antibody
- the column of mutation is compared with GpH7-Kn033 / GpH7-Hl033 / GpL16-k0. Different mutations (“-” in the absence of mutations).
- the value obtained by dividing KD for Fc ⁇ R of GpH7-Kn033 / GpH7-Hl033 / GpL16-k0 by KD of each antibody was defined as KD ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the ratio of the binding activity to active Fc ⁇ R and inhibitory Fc ⁇ R is shown.
- the column of the sample is the name of the antibody
- the columns of Kn and Hl are the names of the Knob chain and Hole chain constant regions of each antibody
- the column of mutation is compared with GpH7-Kn033 / GpH7-Hl033 / GpL16-k0. Different mutations (“-” in the absence of mutations).
- the value obtained by dividing the KD for Fc ⁇ RIIb of GpH7-Kn033 / GpH7-Hl033 / GpL16-k0 by the Fc ⁇ RIIa H type and R type KD of each antibody was defined as the respective A / I ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- G236A / S239D / I332E was compared to G1d in comparison with GpH7-Kn033 / GpH7-Hl033 / GpL16-k0, which is a molecule to which only Knobs-into-Holes technology was applied.
- the GpH7-Kn037 / GpH7-Hl036 / GpL16-k0 introduced into the protein showed a 22-fold increase in binding to Fc ⁇ RIIaIIH type, 43-fold binding to Fc ⁇ RIIa R type, and 161-fold binding to Fc ⁇ RIIIa F.
- the A / I ratio of GpH7-Kn037 / GpH7-Hl036 / GpL16-k0 is 8.6 for Fc ⁇ RIIa H type and 13 for Fc ⁇ RIIa R type, and GpH7-Kn033 / GpH7-H033 Compared with 6.2 and 4.9 of / GpL16-k0.
- a / I / ratio of GpH7-Kn032 / GpH7-Hl032 / GpL16-k0 is 0.93 for Fc ⁇ RIIa H type, 1.8 for Fc ⁇ RIIa R type, and GpH7-Kn033 / GpH7-H033 It was lower than / GpL16-k0.
- GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 in which G236A / S239D / A330K / I332E is introduced into the other H chain, has 52 times the binding to Fc ⁇ RIIa H type and the binding to Fc ⁇ RIIa R type
- the binding to Fc ⁇ RIIIa F was enhanced 154 times and 419 times.
- the binding activity to Fc ⁇ RIIa is the conventional homodimerized antibody GpH7-Kn037 / GpH7-Hl036 / GpL16 in which G236A / S239D / I332E is introduced into both H chains for both H type and R type.
- a / I ratio of GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 is 9.5 for Fc ⁇ RIIa H type, 22 for Fc ⁇ RIIa R type, and GpH7-Kn033 / GpH7-Hl033 / GpL16- Compared with any of k0, GpH7-Kn037 / GpH7-Hl036 / GpL16-k0, and GpH7-Kn032 / GpH7-Hl032 / GpL16-k0, it was improved.
- GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 enhances the binding activity to Fc ⁇ RIIa and Fc ⁇ RIIIa F and more selectively active type compared to the conventional technology. It was shown to bind to Fc ⁇ R.
- GpH7-Kn045 / GpH7-Hl055 / GpL16-k0 in which G236A / S239D / Q295L / A330M / I332E is introduced into the other H chain, is 21-fold binding to Fc ⁇ RIIa H type and to Fc ⁇ RIIa R type The binding was enhanced 56 times and the binding to Fc ⁇ RIIIa F was enhanced 985 times.
- the binding increasing activity for Fc ⁇ RIIa was confirmed to be a conventional homodimerized antibody GpH7-Kn037 / GpH7-Hl036 / in which G236A / S239D / I332E was introduced into both H chains for both H type and R type. Compared with GpL16-k0.
- the binding activity to Fc ⁇ RIIIa F was enhanced as compared with the homodimeric antibody GpH7-Kn032 / GpH7-Hl032 / GpL16-k0, which is a conventional technology in which S239D / A330L / I332E was introduced into both H chains.
- a / I ratio of GpH7-Kn045 / GpH7-Hl055 / GpL16-k0 is 8.3 for Fc ⁇ RIIa H type and 18 for Fc ⁇ RIIa R type, and GpH7-Kn033 / GpH7-Hl033 / GpL16- k0, improved from GpH7-Kn032 / GpH7-Hl032 / GpL16-k0, compared to GpH7-Kn037 / GpH7-Hl036 / GpL16-k0, almost the same for Fc ⁇ RIIa H, and improved for Fc ⁇ RIIa R It was.
- GpH7-Kn045 / GpH7-H1055 / GpL16-k0 improves the binding activity to Fc ⁇ RIIa to the same extent as compared with the conventional technology, and more binding activity to Fc ⁇ RIIIa. In addition to enhancing, it was shown to bind more selectively to active Fc ⁇ R.
- GpH7-Kn056 / GpH7-Hl055 / GpL16-k0 in which / S298A is introduced into one H chain and G236A / S239D / Q295L / A330M / I332E into the other H chain, has 20-fold binding to Fc ⁇ RIIa H type, Fc ⁇ RIIa R
- the binding to the mold was enhanced 44 times and the binding to Fc ⁇ RIIIa F was enhanced 1114 times.
- the binding increasing activity for Fc ⁇ RIIa was confirmed to be a conventional homodimerized antibody GpH7-Kn037 / GpH7-Hl036 / in which G236A / S239D / I332E was introduced into both H chains for both H type and R type. Compared with GpL16-k0.
- the binding activity to Fc ⁇ RIIIa F was enhanced as compared with the conventional homodimerized antibody GpH7-Kn032 / GpH7-Hl032 / GpL16-k0 in which S239D / A330L / I332E was introduced into both H chains.
- a / I ratio of GpH7-Kn056 / GpH7-Hl055 / GpL16-k0 is 8.7 for Fc ⁇ RIIa H type and 16 for Fc ⁇ RIIa R type, and GpH7-Kn033 / GpH7-Hl033 / GpL16- k0, improved from GpH7-Kn032 / GpH7-Hl032 / GpL16-k0, compared to GpH7-Kn037 / GpH7-Hl036 / GpL16-k0, almost the same for Fc ⁇ RIIa H, and improved for Fc ⁇ RIIa R It was.
- GpH7-Kn056 / GpH7-H1055 / GpL16-k0 has improved the binding activity to Fc ⁇ RIIa to the same extent as that of the conventional technology, and more binding activity to Fc ⁇ RIIIa. In addition to enhancing, it was shown to bind more selectively to active Fc ⁇ R.
- Example 13 Comparison with prior art: Evaluation of thermal stability of heterodimerized antibody with enhanced binding activity to Fc ⁇ RIIa and Fc ⁇ RIIIa As shown in Example 9, the homodimerized antibody obtained by the prior art is Fc ⁇ R Although its binding activity to selenium was enhanced, it was physicochemically unstable, so it lost its value as a pharmaceutical product. However, heterodimerized antibody technology makes it easy to control the effect of enhancing the binding activity of each modification on Fc ⁇ R and the effect on the physicochemical aspect, and the physicochemical stability is impaired while enhancing the binding activity to Fc ⁇ R. It became clear that it was not possible.
- Tm of an antibody with enhanced binding activity to Fc ⁇ RIIa and Fc ⁇ RIIIa is shown.
- any of the dimerized antibodies GpH7-Kn045 / GpH7-Hl048 / GpL16-k0, GpH7-Kn045 / GpH7-Hl055 / GpL16-k0, GpH7-Kn056 / GpH7-Hl055 / GpL16-k0
- the Tm was higher than that of the conventional homodimerized antibodies GpH7-Kn037 / GpH7-H1036 / GpL16-k0 and GpH7-Kn032 / GpH7-H1032 / GpL16-k0.
- these heterodimerized antibodies have properties more suitable for exerting effector functions via Fc ⁇ R than conventional homodimerized antibodies. That is, it was clarified from this result that by using the heterodimerized antibody technique, it is possible to precisely control the binding to Fc ⁇ R without impairing the physicochemical stability of the antibody.
- Example 14 Effect of modified combination with improved selectivity for Fc ⁇ RIIIa F, which is an active Fc ⁇ R As described in Example 8, a technique for improving the selectivity for active Fc ⁇ R and inhibitory Fc ⁇ R is useful. .
- heterodimerization is effective in improving the ratio of binding to Fc ⁇ RIIIa F, which is the active Fc ⁇ found in Example 8, and binding to Fc ⁇ RIIb, which is the inhibitory Fc ⁇ R, that is, to improve selectivity. .
- Example 7 it was examined in Example 7 with L234Y, G236W, S298A (Table 22-1 region a), which are modifications that improve the ratio of binding to Fc ⁇ RIIIa F, which is an active Fc ⁇ , and binding to Fc ⁇ RIIb, which is an inhibitory Fc ⁇ R.
- S239D, A330L, and I332E it was verified whether the effect of improving selectivity can be obtained with the heterodimerized antibody compared with the homodimerized antibody.
- GpH7-A57 (SEQ ID NO: 40) in which S239D, A330L, and I332E were all introduced into GpH7-A5 according to the method of Reference Example 1, and GpH7-B78 (SEQ ID NO :) introduced into GpH7-B3. 41) and GpH7-TA7 (SEQ ID NO: 31) in which L234Y, G236W and S298A were all introduced into GpH7-A5, and GpH7-TA45 (SEQ ID NO: 32) introduced in GpH7-B3 were prepared.
- the prepared antibody was measured for KD for Fc ⁇ RIIIa and KD for Fc ⁇ RIIb according to the method of Reference Example 2. It was verified whether or not the selectivity of the binding of each antibody to Fc ⁇ RIIIa was improved by using as an index Fc ⁇ RIIIa / Fc ⁇ RIIb ratio, which is a value obtained by dividing KD of each antibody against Fc ⁇ RIIb by KD for Fc ⁇ RIIIa.
- the verification results are summarized in Table 40.
- the column of the sample is the name of the antibody
- the column of H1, H2 is the name of the H chain constant region of each antibody
- the column of the mutation is a different mutation compared to GpH7-A5 / GpH7-B3 / GpL16-k0 ( In particular, when there was no mutation, “-”) was indicated.
- the value obtained by dividing the KD for Fc ⁇ RIIb of each antibody by the KD for Fc ⁇ RIIIa F was defined as Fc ⁇ RIIIa F / Fc ⁇ RIIb ratio.
- the amino acid sequence numbers corresponding to the H chain and L chain of each antibody are also shown.
- the effect of each modification was verified on the homodimerized antibody using the conventional technique.
- the homodimerized antibody GpH7-A57 / GpH7-B78 / GpL16-k0 with S239D, A330L, and I332E introduced into both H chains has Fc ⁇ RIIIa / Fc ⁇ RIIb ratio of 100, compared with GpH7-A5 / GpH7-B3 / GpL16-k0 And improved.
- the homodimerized antibody GpH7-TA7 / GpH7-TA45 / GpL16-k0 with L234Y, G236W, and S298A introduced into both H chains is 5.3, and the combination of S239D, A330L, and I332E is the homodimerized antibody.
- S239D, A330L, and I332E was found to be highly effective in improving the selectivity of binding to Fc ⁇ RIIIa.
- heterodimerized antibody GpH7-TA7 / GpH7-B78 / GpL16-k0 that combines the modified group of L234Y, G236A, S298A and the modified group of S239D, A330L, I332E, Fc ⁇ RIIIa / Fc ⁇ RIIbIIratio is 244, L234Y, G236A, S298A Heterodimerized antibody GpH7-TA7 / GpH7-B3 / GpL16-k0 having the modified group of only one H chain, homodimerized antibody GpH7-TA7 / GpH7-TA45 / GpL16-k0 having both H chains, S239D, Heterodimerized antibody GpH7-A5 / GpH7-B78 / GpL16-k0 having a modified group of A330L and I332E only on one H chain, homodimerized antibody GpH7-
- the asymmetric interaction between the Fc region and Fc ⁇ RIIIa can be optimized more than when using a conventional homodimerized antibody, and higher binding selectivity to Fc ⁇ RIIIa can be achieved. It was shown that it is possible to design an Fc region with.
- Example 15 Measurement of ADCC activity of FcgRIIa binding-enhanced heterodimerized antibody GpH7-G1d / GpL16-k0, GpH7-Kn033 / GpH7-Hl033 / GpL16-k0, GpH7-Kn037 / GpH7-Hl036 prepared in Example 12 / GpL16-k0, GpH7-Kn032 / GpH7-Hl032 / GpL16-k0, GpH7-Kn045 / GpH7-Hl048 / GpL16-k0, GpH7-Kn056 / GpH7-Hl055 / GpL16-k0 according to the method of Reference Example 7 ADCC activity was evaluated and the results are summarized in FIG.
- the heterodimerized antibodies GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 and GpH7-Kn056 / GpH7-H1055 / GpL16-k0 described in Example 12 are all antibodies GpH7-Kn033 / GpH7-Hl033 / GpL16 before introduction of the modification. It showed stronger ADCC activity compared to -k0.
- a homodimerized antibody GpH7-Kn037 / GpH7-Hl036 / GpL16-k0 having a modification of G236A / S239D / I332E in both H chains and GpH7-Kn032 / GpH7-Hl032 / GpL16, which is an antibody to which the existing ADCC activity enhancement is applied ADCC activity comparable to -k0 was shown.
- GpH7-Kn045 / GpH7-Hl048 / GpL16-k0 and GpH7-Kn056 / GpH7-Hl055 / GpL16-k0 are further enhanced in binding to FcgRIIa R and FcgRIIa H as shown in Example 12 compared to the existing technology.
- it has an ADCC activity enhancement effect equivalent to that of the existing ADCC activity enhancement technology. That is, the heterodimerized antibody evaluated here is superior to the existing technology in that it has the same effect as that of the existing technology with respect to the ADCC activity enhancing effect and also has an enhanced binding to FcgRIIa H and FcgRIIa R. It is thought that.
- Example 16 Creation of heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 with enhanced binding to FcgRIIIa Further, as shown in Example 11, heterodimerized antibody with enhanced binding activity to Fc ⁇ RIIIa was also found to enhance ADCC activity. In Example 11, the effect was confirmed with an antibody against GPC3, but in order to confirm whether the same effect was observed with other antigens, a similar experiment was performed using an anti-Epiregulin (EREG) antibody.
- the sequence of the H chain variable region of the antibody against EREG is H240 (SEQ ID NO: 80), and the sequence of the L chain including the variable region and the constant region is L73-k0 (SEQ ID NO: 106).
- Example 4 Based on the results of Example 4, a modified variant having a newly enhanced binding to FcgRIIIa was prepared on the H chain.
- the Knobs-into-Holes technique described in Example 12 was used as the heterodimerization technique.
- H240-G03d (SEQ ID NO: 84) in which Y349C and T336W modifications were introduced into the constant region for H240-G1d (SEQ ID NO: 83), D356C, T336S, L368A for H240-G1d, H240-Hl033 (SEQ ID NO: 85) in which a modification of Y407V was introduced into the constant region was prepared according to the method of Reference Example 1.
- H240-Kn033 SEQ ID NO: 84
- H240-Kn061 SEQ ID NO: 81
- H240-H033 K326D, A330M, and K334E were introduced into (SEQ ID NO: 85)
- H240-Hl071 SEQ ID NO: 82
- a heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 was expressed by combining H240-Kn061, H240-H1071, and L73-k0 according to the method of Reference Example 1.
- Example 12 a modified product introduced with S239D, A330L, or I332E, which has been reported to enhance binding to FcgRIIIa, was prepared for use as a comparison target.
- S239D, A330L, and I332E were introduced into each of H240-Kn033 (SEQ ID NO: 84) and H240-Hl033 (SEQ ID NO: 85) according to the method of Reference Example 1, and H240-Kn032 (SEQ ID NO: 86), H240-Hl032 (SEQ ID NO: 87).
- H240-Kn032, H240-Hl032, and L73-k0 were combined to express the homodimerized antibody H240-Kn032 / H240-Hl032 / L73-k0 according to the method of Reference Example 1.
- fucose-deficient antibodies can be obtained by producing antibodies in cells in which beta-1,1,4-N-acetylglucosaminyltransferase III and Golgi alpha-mannosidase II are forcibly expressed (Ferrara, et al., Biotechnol. Bioin. (2006) 93 (5), 851-861).
- H240-afucosyl_G1d / L73 in which H240-G1d (SEQ ID NO: 83) and L73-k0 (SEQ ID NO: 106) were expressed in combination and afucosylated H240-afucosyl_G1d / L73 by methods known to those skilled in the art -k0 (SEQ ID NO: 83, 106) was obtained.
- H240-Kn033 SEQ ID NO: 84
- H240-Hl033 SEQ ID NO: 85
- L73-k0 SEQ ID NO: 106
- the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has particularly enhanced binding to FcgRIIIa ⁇ F and FcgRIIIa ⁇ ⁇ V compared to H240-Kn033 / H240-Hl033 / L73-k0. It was.
- Heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 is a modified version of L240Y / L235Y / G236W / H268D / S298A and K326D / A330M / K334E introduced into H240-Kn033 / H240-Hl033 / L73-k0 Therefore, it can be said that the binding of these introduced modifications to FcgR was enhanced.
- the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 is H240-afucosyl_G1d / L73-k0 and H240-Kn032 / H240-Hl032 / L73-k0 to which the existing ADCC activity enhancement technology is applied.
- binding to FcgRIIIa V was enhanced. From this result, it was clarified that the heterodimerized antibody has a higher binding enhancement effect on FcgRIIIa than the conventional ADCC activity enhancement technology by homodimerization antibody and ADCC activity enhancement technology by afucosylation.
- heterodimerized antibodies have enhanced binding to FcgRIIa, which is thought to be important for enhancing ADCP activity, FcgRIIa H is more potent than both antibodies, and FcgRIIa R is more potent than H240-afucosyl_G1d / L73-k0 However, it was similar to H240-Kn032 / H240-Hl032 / L73-k0.
- heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has the characteristics of a heterodimerized antibody that enhances the binding activity to FcgR than the homodimerized antibody composed of each H chain.
- Heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 is one H chain H240-Kn061 is L234Y / L235Y / G236W / H268D / S298A, and the other H chain is H240-Hl071.
- K326D / A330M / K334E has been introduced.
- This heterodimerized antibody was confirmed to have a stronger binding activity to each FcgR compared to a homodimerized antibody consisting of each H chain.
- L240Y / L235Y / G236W / H268D / S298A was introduced into H240-Hl033, H240-Hl134 (SEQ ID NO: 88), and K326D / A330M / K334E was introduced into H240-Kn033, H240-Kn132 (SEQ ID NO: : 89) was prepared according to the method of Reference Example 1.
- the homodimerized antibody H240-Kn061 / H240-Hl134 / L73-k0 having L234Y / L235Y / G236W / H268D / S298A in both H chains is expressed according to the method of Reference Example 1.
- the homodimerized antibody H240-Kn132 / H240-H071 / L73-k0 having K326D / A330M / K334E in both H chains was expressed.
- the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73 having L234Y / L235Y / G236W / H268D / S298A on one H chain and K326D / A330M / K334E on the other H chain -k0 is a homodimerized antibody H240-Kn061 / H240-Hl134 / L73-k0 that has L234Y / L235Y / G236W / H268D / S298A in both H chains and K326D / A330M / K334E in both H chains It was confirmed to have stronger binding activity to FcgRIIIa F and FcgRIIIa V than any of the homodimerized antibodies H240-Kn132 / H240-Hl071 / L73-k0.
- H240-Kn061 / H240-Hl071 / L73-k0 has the characteristics of a heterodimerized antibody that enhances the binding activity to FcgR as compared to the homodimerized antibody composed of each H chain.
- H240-Kn061 / H240-Hl071 / L73-k0 showed significantly stronger ADCC activity than H240-Kn033 / H240-Hl033 / L73-k0.
- it showed ADCC activity stronger than H240-Kn032 / H240-Hl032 / L73-k0 and H240-afucosyl_G1d / L73-k0 to which the existing ADCC activity enhancement technology was applied.
- H240-Kn061 / H240-Hl071 / L73-k0 was also found to exhibit stronger ADCC activity than the existing ADCC activity enhancement technology in terms of ADCC activity.
- Example 17 Preparation and evaluation of a further variant using the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 as a template
- H240-Kn061 / H240 showing excellent ADCC activity -Hl071 / L73-k0 was found.
- EU numbering of each H chain of H240-Kn061 and H240-Hl071 was carried out according to the method of Reference Example 1 using H240-Kn061 / H240-Hl071 / L73-k0 as a template.
- a total of about 420 variants were prepared by substituting the 231st to 242nd with 18 different amino acids other than Cys and the original amino acid, and the binding to each FcgR was evaluated.
- the KD values for FcgRI, FcgRIIa R, FcgRIIa H, FcgRIIb, FcgRIIIa F, and FcgRIIIa V of each variant were calculated, respectively, and the KD value was H240-Kn061 / The value obtained by dividing the KD value of H240-Hl071 / L73-k0 for FcgRI, FcgRIIa R, FcgRIIa H, FcgRIIb, FcgRIIIa F, and FcgRIIIa V was used as an evaluation index.
- a modification was selected in which Relative KD for FcgRIIb was 1 or less, and any of FcgRIIa R, FcgRIIIa F, FcgRIIIa V, or some of them had a Relative KD of 1.3 or more.
- the numerical value in the said Table 45 represents Relative KD with respect to each FcgR of each modified body. These modifications attenuate the binding to the inhibitory FcgR, FcgRIIb, without diminishing the binding to FcgRIIIa, which plays an important role in ADCC activity. Therefore, introduction of this modification is expected to exert stronger antitumor activity because the immunosuppressive action of the antibody is reduced without reducing ADCC activity.
- heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has the property of a heterodimerized antibody that binds to FcgR more strongly than the homodimerized antibody consisting of each H chain, these It is considered that the modified form obtained by introducing the modification into H240-Kn061 / H240-Hl071 / L73-k0 also has similar heterodimerized antibody properties.
- Example 18 Modifications Replaceable with Modifications Introduced into Heterodimerized Antibody H240-Kn061 / H240-Hl071 / L73-k0
- FIGS. 35, 36, 37, 38, and 39 Obtained in Example 17 From the results of FIG. 40, it was verified whether these modified portions of the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 can be replaced with other modifications.
- the substitutable modification is such that by introducing the modification, the binding to FcgRIIIa F and FcgRIIIa V is 0.7 times or more and the binding to FcgRIIb is 1.3 times or less compared to before the introduction. Refers to modification.
- the variant prepared in Example 17 introduces a modification to the 231st to 242nd amino acids of the EU numbering of the antibody.
- H240-H071 which is one H chain of H240-Kn061 / H240-Hl071 / L73-k0 is not included, and the EU numbering of the H chain of H240-Kn061 which is the other H chain is 234th, 235 The 236th is included.
- H240-Kn061 H chain EU numbering 234th, 235th, 236th introduced a modification, compared with H240-Kn061 / H240-Hl071 / L73-k0,
- a variant that has a binding to FcgRIIIa F and FcgRIIIa V of 0.7-fold or more and a binding to FcgRIIb of 1.3-fold or less is considered to have an activity that is equivalent to or superior to that of H240-Kn061 / H240-Hl071 / L73-k0.
- H chain introduced with modification means which H chain of H240-Kn061 / H240-H071 / L73-k0 can be substituted
- Modification is The numbers represent the residue numbers when expressed by EU numbering, the first alphabet represents the amino acid corresponding to that residue number of H240-Kn061 / H240-Hl071 / L73-k0, and the last alphabet represents the substitutable amino acid.
- the “modified site” in Table 47 above is the residue number when represented by EU numbering of H240-Kn061.
- the residue number when represented by EU numbering, the substitutable amino acid is the amino acid in the table Represents an amino acid having a similar activity to that of H240-Kn061 / H240-Hl071 / L73-k0, that is, a substitutable amino acid.
- Example 4 Of the modifications introduced into H240-Kn061 / H240-Hl071 / L73-k0, H268D, S298A of H240-Kn061 and K326D, A330M, K334E of H240-Hl071 were modified at the corresponding sites in Example 17. Not. In the following, the results of Example 4 were considered for the presence or absence of alterations that could replace these sites. Specifically, among the results of Example 4, in the heterodimerized antibody in which the modification is introduced into only one of the H chains, He / Con_3aF, which is an index of binding to FcgRIIIa F, is 1.3 times or more than before the modification introduction.
- the “modified site” in Table 48 above represents the residue number when expressed by EU numbering.
- “Substitutable amino acid” refers to He / Con_3aF, which is an indicator of binding to FcgRIIIa1.3F, increased 1.3 times or more in the heterodimerized antibody in which the modification is introduced into only one of the H chains in Example 4. And represents the three modifications that have the strongest effect at that site.
- “He / Con — 3aF” is a value defined in the fourth embodiment.
- Table 48 The results of Table 48 are summarized for each modification site by substitutable amino acids.
- Table 49 (Modification H268D, S298A, K326D, A330M, K334E of H240-Kn061 / H240-Hl071 / L73-k0, Substitutable amino acids).
- heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has the characteristics of a heterodimerized antibody that enhances the binding activity to FcgR than the homodimerized antibody consisting of each H chain, these The modification obtained by introducing the above modification into H240-Kn061 / H240-Hl071 / L73-k0 is also considered to have the properties of a heterodimerized antibody.
- D270E which is a modification that enhances the binding to FcgRIIIa found in Example 4 and attenuates the binding to FcgRIIb, was introduced into both H chains of H240-Kn061 / H240-Hl071 / L73-k0.
- the sequences obtained by introducing D270E into each of H240-Kn061 and H240-Hl071 are H240-Kn072 (SEQ ID NO: 90) and H240-H1076 (SEQ ID NO: 91), respectively, and according to the method of Example 1, L73-k0
- a combined heterodimerized antibody H240-Kn072 / H240-H1076 / L73-k0 was expressed and prepared.
- H240-Kn072 / H240-Hl076 / L73-k0 applies HADC-Kn032 / H240-Hl032 / L73-k0 to which the existing ADCC activity enhancement technology is applied in the same manner as H240-Kn061 / H240-Hl071 / L73-k0.
- H240-afucosyl_G1d / L73-k0 bound more strongly to FcgRIIIa F and FcgRIIIa V, and in addition to H240-Kn061 / H240-Hl071 / L73-k0.
- H240-Kn072 / H240-Hl076 / L73-k0 has less binding than H240-Kn032 / H240-Hl032 / L73-k0 and H240-afucosyl_G1d / L73-k0 produced by the existing ADCC activity enhancement technology However, it was more attenuated than H240-Kn061 / H240-Hl071 / L73-k0.
- H240-Kn072 / H240-Hl076 / L73-k0 is superior to H240-Kn061 / H240-Hl071 / L73-k0 because it is expected to reduce the immunosuppressive action of antibodies. It is considered that
- ADC240 activity of H240-Kn072 / H240-Hl076 / L73-k0 is changed to H240-Kn061 / H240-Hl071 / L73-k0, H240-Kn033 / H240-Hl033 / L73-k0 and H240-afucosyl_G1d / L73-k0 Compared.
- the result is shown in FIG.
- H240-Kn072 / H240-Hl076 / L73-k0 showed significantly stronger ADCC activity than H240-Kn033 / H240-Hl033 / L73-k0.
- H240-Kn072 / H240-Hl076 / L73-k0 shows ADCC activity stronger than the afucosylated antibody H240-afucosyl_G1d / L73-k0 to which the existing ADCC activity enhancement technology is applied, and H240-Kn061 / H240-Hl071 / L73 ADCC activity comparable to -k0 was shown.
- the heterodimerized antibody H240-Kn072 / H240-Hl076 / L73-k0 has a stronger ADCC activity than the existing ADCC activity enhancement technology, and is superior to the existing technology in which the binding to FcgRIIb is also attenuated. It is an antibody.
- heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has the property of a heterodimerized antibody that binds to FcgR more strongly than the homodimerized antibody consisting of each H chain
- D270E H240-Kn072 / H240-Hl076 / L73-k0 obtained by introduction into both H chains of H240-Kn061 / H240-Hl071 / L73-k0 is also considered to have the properties of a heterodimerized antibody.
- Example 20 Further improvement of heterodimerized antibody H240-Kn072 / H240-Hl076 / L73-k0 Attempts were made to further improve H240-Kn072 / H240-Hl076 / L73-k0 found in Example 19 . Specifically, modified Y234E, Y235N, Y235Q, and S239M that are imparted by introducing further superior properties into H240-Kn061 / H240-Hl071 / L73-k0 found in Example 18; Combined with H240-Kn072 / H240-Hl076 / L73-k0.
- H240-Kn072 introduced Y234E and Y235N into H240-Kn113 (SEQ ID NO: 92), H240-Kn072 introduced S239M into H240-Kn115 (SEQ ID NO: 93), H240-Kn072 H240-Kn125 (SEQ ID NO: 94) into which Y235Q and S239M were introduced was prepared.
- H240-Hl076 as one H chain L73-k0 as the L chain
- H240-Kn113, H240-Kn115, H240-Kn125 as the other H chain
- H240-Kn113 / H240-Hl076 / L73-k0, H240-Kn115 / H240-Hl076 / L73-k0, and H240-Kn125 / H240-Hl076 / L73-k0 were prepared.
- binding to each FcgR was performed by adding H240-G1d / L73-k0, which is a natural IgG1, and H240-Kn033 / H240-Hl033 / L73- with Knobs-into-Holes added thereto.
- H240-Kn113 / H240-Hl076 / L73-k0 maintains the same level of binding to the inhibitory FcgR, FcgRIIb, and is important for ADCC activity.
- the binding to FcgRIIIaIIIF and FcgRIIIa V that play a role was enhanced.
- the binding to the inhibitory FcgR, FcgRIIb, was comparable to that of the natural antibody IgG1.
- FcgRIIIa the homozygous binding of FcgRIIIa F and FcgRIIIa V was introduced into both H chains using afucosylated antibody H240-afucosyl_G1d / L73-k0, which is an existing ADCC activity enhancement technology, and S239D / A330L / I332E, an ADCC activity enhancement modification. It was enhanced over the quantified antibody H240-Kn032 / H240-Hl032 / L73-k0.
- H240-Kn113 / H240-Hl076 / L73-k0 does not have an immunosuppressive effect as compared with natural IgG1, and is an afucosylated antibody or homologue to which an existing ADCC activity enhancement modification is applied. It may have a stronger anti-tumor effect than dimerized antibodies.
- H240-Kn115 / H240-Hl076 / L73-k0 further enhanced binding to FcgRIIIa F and FcgRIIIa V, which play an important role in ADCC activity, compared with H240-Kn113 / H240-Hl076 / L73-k0.
- binding to FcgRIIa R and FcgRIIa H was also achieved by H240-G1d / L73-k0, a natural IgG1, and H240-Kn033 / H240-Hl033 / L73-k0 with Knobs-into-Holes added.
- H240-Kn125 / H240-Hl076 / L73-k0 increases ADCC activity while maintaining the binding to FcgRIIb, which is an inhibitory FcgR, at the same level as IgG1. Binding to FcgRIIIa F and FcgRIIIa V, which play an important role, was enhanced over H240-Kn115 / H240-H1076 / L73-k0.
- the binding to FcgRIIa H which is one of the allotypes of FcgRIIa
- the binding to FcgRIIb is attenuated, and the binding to both allotypes is increased for FcgRIIIa, so that H240-Kn125 / H240-Hl076 / L73-k0 is expected to enhance ADCP activity and ADCC activity over the afucosylated and homodimerized antibodies to which the existing ADCC activity enhancement modification is applied, and in addition, it can be expected to attenuate immunosuppressive action .
- the ADCC activity of H240-Kn113 / H240-Hl076 / L73-k0, H240-Kn115 / H240-Hl076 / L73-k0, H240-Kn125 / H240-Hl076 / L73-k0 is set to H240-Kn033 / H240-Hl033 / L73-k0 was compared with afucosylated antibody H240-afucosyl_G1d / L73-k0, which is an existing ADCC activity enhancement technology. The result is shown in FIG.
- any heterodimerized antibody exhibits ADCC activity superior to the afucosylated antibody, which is an existing ADCC activity enhancement technique.
- Y234E, Y235N, Y235Q and S239M introduced into H240-Kn072 of H240-Kn072 / H240-Hl076 / L73-k0 were H240-Kn072 / H240 -Hl076 / L73-k0 proved to be a modification that imparts superior properties.
- the heterodimerized antibody H240-Kn061 / H240-Hl071 / L73-k0 has the property of a heterodimerized antibody that binds to FcgR more strongly than the homodimerized antibody consisting of each H chain.
- H240-Kn072 / H240-Hl076 / L73-k0 obtained by introducing into both heavy chains of Kn061 / H240-Hl071 / L73-k0 also has the properties of a heterodimerized antibody, and further modifications are introduced there.
- H240-Kn113 / H240-Hl076 / L73-k0, H240-Kn115 / H240-Hl076 / L73-k0, and H240-Kn125 / H240-Hl076 / L73-k0 are also considered to have the properties of heterodimerized antibodies. It was.
- Example 21 Preparation of heterodimerized antibody with enhanced binding to FcgRIIa and FcgRIIIa Based on the results of Example 4, a variant with enhanced binding to FcgRIIIa and FcgRIIa was prepared on the H chain. Specifically, according to the method of Reference Example 1, L234Y, L235Y, G236W, H268D, S298A, A327D were introduced into H240-Kn033 (SEQ ID NO: 84) to prepare H240-Kn067 (SEQ ID NO: 95).
- H240-Hl033 SEQ ID NO: 85
- H240-Hl068 SEQ ID NO: 96
- a heterodimerized antibody H240-Kn067 / H240-Hl068 / L73-k0 was expressed by combining H240-Kn067, H240-H1068, and L73-k0 according to the method of Reference Example 1.
- heterodimerized antibody H240-Kn067 / H240-Hl068 / L73-k0 has the characteristics of a heterodimerized antibody that enhances the binding activity to FcgR over the homodimerized antibody consisting of each H chain. did.
- Heterodimerized antibody H240-Kn067 / H240-Hl068 / L73-k0 is one H chain, H240-Kn067, and L234Y / L235Y / G236W / H268D / S298A / A327D is the other H chain, H240-Hl068.
- H240-Hl136 (SEQ ID NO: 97) in which L234Y / L235Y / G236W / H268D / S298A / A327D was introduced into H240-Hl033, and H240-Kn133 (array in which D270E / K326D / A330K / K334E was introduced into H240-Kn033) No. 98) was prepared according to the method of Reference Example 1.
- the modified Y235Q, S239M which imparts further superior properties to H240-Kn061 / H240-H071 / L73-k0 by introducing into this H240-Kn061 found in Example 18, H240-Kn061, -Combined with Kn067 / H240-Hl068 / L73-k0.
- H240-Kn120 SEQ ID NO: 99
- H240-Kn126 SEQ ID NO: 100
- H240-H1068 as one H chain L73-k0 as the L chain
- H240-Kn067, H240-Kn120, H240-Kn126 as the other H chain and H240-Kn067 / H240-Hl068 / L73-k0
- H240-Kn126 / H240-Hl068 / L73-k0 were prepared.
- Table 53 The results of evaluating the binding to each FcgR according to the method of Reference Example 8 are summarized in Table 53.
- H240-Kn067 / H240-Hl068 / L73-k0, H240-Kn120 / H240-Hl068 / L73-k0, and H240-Kn126 / H240-Hl068 / L73-k0 are all existing ADCC activity-enhancing antibodies.
- H240-afucosyl_G1d / L73-k0 and H240-Kn032 / H240-Hl032 / L73-k0 the binding to FcgRIIIa was equivalent or more enhanced.
- the binding to FcgRIIa R and FcgRIIa ⁇ H which play an important role in ADCP activity, was enhanced.
- any of the heterodimerized antibodies of H240-Kn067 / H240-Hl068 / L73-k0, H240-Kn120 / H240-Hl068 / L73-k0 and H240-Kn126 / H240-Hl068 / L73-k0 prepared this time It was suggested that ADCC activity is equal to or higher than that of existing technologies and that ADCP activity is superior to those.
- H240-Kn120 / H240-Hl068 / L73-k0 enhanced the binding to FcgRIIa R and FcgRIIa H, and homodimerization with modification of G236A / S239D / I332E reported on both H chains, reported to have enhanced ADCP activity.
- the binding to FcgRIIa H and FcgRIIa R is further enhanced.
- H240-Kn120 / H240-Hl068 / L73-k0 enhances the binding to FcgRIIIa F and FcgRIIIa V compared to the antibody using the existing ADCC activity enhancement technology, and more than the antibody using the existing ADCP activity enhancement technology. Binding to FcgRIIa R and FcgRIIa H is enhanced. Therefore, H240-Kn120 / H240-Hl068 / L73-k0 is an excellent antibody that may have stronger ADCC activity and ADCP activity than antibodies using existing technology.
- H240-Kn067 / H240-Hl068 / L73-k0, H240-Kn120 / H240-Hl068 / L73-k0, H240-Kn126 / H240 prepared this time from the binding profile for each FcgR and the result of ADCC activity compared with the existing technology -Hl068 / L73-k0 is a heterodimerized antibody that has ADCC activity that is comparable to or higher than that of existing ADCC activity enhancement technology, but is also likely to enhance ADCP activity via FcgRIIa binding It became clear.
- H240Y / L235Y / G236W / H268D / D270E / S298A which is a modification introduced into H240-Kn072 which is one H chain of H240-Kn072 / H240-Hl076 / L73-k0, H240-G1d
- H240-A07E SEQ ID NO: 104 was prepared by introducing H356-A1E (SEQ ID NO: 102) into which D356K and H435R were introduced into H240-G1dE (SEQ ID NO: 101).
- H240-H1076 D270E / K326D / A330M / K334E introduced into the other H chain, H240-H1076, was introduced into H240-B3E (SEQ ID NO: 103) in which K439E was introduced into H240-G1DE, and H240- BH076 (SEQ ID NO: 105) was prepared.
- H240-AK072, H240-BH076, and L73-k0 were combined to express and prepare the heterodimerized antibody H240-AK072 / H240-BH076 / L73-k0.
- H240-AK072 and L73-k0, and H240-BH076 and L73-k0 were respectively combined to express and prepare homodimerized antibodies H240-AK072 / L73-k0 and H240-BH076 / L73-k0.
- Table 54 summarizes the results of comparing the binding activities of these antibodies to each FcgR according to the method of Reference Example 8.
- the heterodimerized antibody H240-AK072 / H240-BH076 / L73-k0 is stronger than any of the homodimerized antibodies H240-AK072 / L73-k0 and H240-BH076 / L73-k0 consisting of each H chain. It was confirmed to have the characteristics of a heterodimerized antibody that binds to FcgR.
- H240-A5E, H240-B3E, and L73-k0 were expressed in combination to prepare H240-A5E / H240-B3E / L73-k0.
- Table 55 The binding of -k0 to each FcgR was evaluated and the results are summarized in Table 55.
- the binding activity of H240-G1d / L73-k0 and H240-A5E / H240-B3E / L73-k0 is equivalent to FcgR
- the enhancement of the binding activity of H240-AK072 / H240-BH076 / L73-k0 is It is thought to be derived from the modification of L234Y / L235Y / G236W / H268D / D270E / S298A and D270E / K326D / A330M / K334E introduced into each H chain.
- Example 23 X-ray crystal structure analysis of complex of Fc (Kn120 / Hl068) and FcgRIIb extracellular region In H240-Kn120 / H240-Hl068 / L73-k0 prepared in Example 21, FcgRIIIa and FcgRIIa H type
- FcgRIIIa the binding activity to the allotype FcgRIIa R type
- the binding activity to the inhibitory receptor FcgRIIb was also observed at the same time. Since the enhanced binding to FcgRIIb is considered to bring about an immunosuppressive effect, it is possible that ADCC activity, which is the object of the present invention, can be further enhanced by reducing the binding to FcgRIIb.
- FcgRIIa and FcgRIIb have very high homology because 93% of the amino acid sequences in the extracellular region are identical. Furthermore, analysis from the crystal structure of the extracellular region complex of natural IgG1 Fc (hereinafter Fc (WT)) and FcgRIIa R type (J. Imunol. 2011, 187, 3208-3217) Compared with FcgRIIb, FcgRIIa R type was found to differ only by 3 amino acids (Gln127, Leu132, Phe160) (FIG. 44). For this reason, it was expected that it was very difficult to attenuate only the binding activity to FcgRIIb while maintaining the binding activity to FcgRIIa R type.
- Fc (WT) natural IgG1 Fc
- FcgRIIa R type J. Imunol. 2011, 187, 3208-3217
- FIG. 45 shows the structure acquired as a result of the analysis.
- FcgRIIb extracellular region is sandwiched between two Fc CH2 domains, and Fc (WT) and FcgRIIIa (Proc.Natl.Acad.Sci.USA, 2011, 108, 12669- 126674), FcgRIIIb (Nature, 2000, 400, 267-273; J.Biol.Chem. 2011, 276, 16469-16477), FcgRIIa complex with each extracellular region It became clear.
- FIG. 46 shows the structure around Lys127 (Gln in FcgRIIaRR type).
- the closest FcgRIIb residue is EU numbering 298th Ala in CH2 domain B of Fc shown in FIG. 46, but this residue is in direct contact with FcgRIIb at the interface of binding, and thus mutually interacts with Lys127.
- the introduction of large residues that could act was considered difficult.
- Other surrounding amino acid residues were also far from Lys127, and it was not possible to find mutations that could interact directly.
- FIG. 47 shows the structure around Ser132 (Leu in FcgRIIa R type).
- FIG. 48 shows a structure around Tyr160 (Phe in FcgRIIa R type). This Tyr forms a hydrogen bond with the main chain carbonyl oxygen of the EU numbering 236th Gly in the CH2 domain A of Fc. Therefore, if a mutation is introduced into Gly236 at EU numbering 236 and the loop structure is changed, and as a result, this hydrogen bond can be eliminated, only the binding activity to FcgRIIb may be reduced.
- Fc (Kn0120 / Hl068) expression purification Fc (Kn0120 / Hl068) was prepared as follows. First, the EU numbering 220th Cys of H240-Kn120 (SEQ ID NO: 99) and H240-Hl068 (SEQ ID NO: 96) was replaced with Ser, and the C-terminus of the EU numbering 236th Glu was cloned by PCR Fc (Kn0120) and Fc (Hl068) were prepared, expressed and purified according to the method described in Reference Example 1.
- Cys of EU numbering 220th forms a disulfide bond with Cys of L chain in normal IgG1, but when preparing only Fc, L chain is not co-expressed, so unnecessary disulfide bond formation occurs. Replaced with Ser to avoid.
- Endo F1 (Protein Science 1996, 5, 2617-2622) 0.15 mg expressed and purified by E. coli as a fusion protein with glutathione S-transferase was added to 1.5 mg of the FcgRIIb extracellular region sample obtained for crystallization, The mixture was allowed to stand at room temperature for 3 days under a buffer condition of M Bis-Tris pH 6.5 to cleave leaving N-acetylglucosamine in which the N-type sugar chain was directly bound to Asn.
- the FcgRIIb extracellular region sample that had been subjected to this sugar chain cleavage treatment was concentrated with a 10000 MWCO ultrafiltration membrane and equilibrated with 20 mM HEPES pH 7.5, 0.1 M NaCl (Superdex200 10/300).
- Fc (Kn0120 / Hl068) was added to the obtained sugar chain-cleaved FcgRIIb extracellular region fraction so that the FcgRIIb extracellular region was slightly excessive in molar ratio, and after concentration by a 10,000 MWCO ultrafiltration membrane, 25 mM HEPES pH 7 Purified by gel filtration column chromatography (Superdex200 10/300) equilibrated with .5, 0.1 M NaCl to obtain a sample of Fc (Kn0120 / Hl068) / FcgRIIb extracellular region complex.
- Fc (Kn120 / Hl068) / FcgRIIb complex extracellular region complex crystallization A sample of the Fc (Kn120 / Hl068) / FcgRIIb extracellular domain complex was concentrated to about 10 mg / ml with a 10,000 MWCO ultrafiltration membrane, and crystallization was performed using the hanging drop vapor diffusion method together with the Seeding method.
- the sample was kept frozen by placing it in a -178 ° C nitrogen stream at all times, and the CCD detector Quantum 315r (ADSC) equipped with the beam line was used to rotate the crystal by 0.5 ° in total, making a total of 360 X-rays. Diffraction images were collected. To determine the lattice constant from the obtained diffraction image, index the diffraction spots, and process the diffraction data, the programs Xia2 (J. Appl. Cryst. 2010, 43, 186-190), XDS Package (Acta Cryst. 2010, D66, 125-132) and Scala (Acta Cryst.
- ADSC CCD detector Quantum 315r
- the amino acid residue part of A chain 6-178 was extracted from the structure coordinates of PDB code: 2FCB, which is the crystal structure of the FcgRIIb extracellular region, and used as a model for searching FcgRIIb.
- the orientation and position of the Fc CH3 domain, FcgRIIb extracellular region, and Fc CH2 domain search model in the crystal lattice are determined from the rotation and translation functions, and the Fc (Kn120 / Hl068) / FcgRIIb extracellular region complex.
- An initial model of crystal structure was obtained.
- the rigid model that moves the two Fc CH2 domains, the two Fc CH3 domains, and the FcgRIIb extracellular region to the initial model was obtained.
- the scientific reliability factor R value was 41.4%, and the Free R value was 42.6%.
- the structure refinement using the program REFMAC5 Acta Cryst. 2011, D67, 355-367
- the structural factor Fo determined experimentally the structural factor Fc calculated from the model
- the phase calculated from the model are also included.
- the model is corrected with the program Coot (Acta Cryst. 2010, D66, 486-501) while looking at the electron density map with the coefficients of 2Fo-Fc and Fo-Fc calculated as above. Made.
- Example 24 Preparation of an antibody that maintains or enhances the binding activity to FcgRIIaR and decreases the binding activity to FcgRIIb.
- the variant H240-Kn120 / H240-Hl068 / L73-k0 found in Example 21 has ADCP activity.
- the binding activity to important FcgRIIaR and FcgRIIaH was enhanced, and the binding activity to inhibitory FcgRIIb was also enhanced about 50 times compared to that of natural IgG1. In order to exhibit high ADCP activity, it is preferable that the binding activity to inhibitory FcgRIIb can be reduced as much as possible.
- the inventors searched for a modification that can reduce the binding activity to FcgRIIb while maintaining the binding activity to active FcgRIIaR and FcgRIIaH.
- Example 23 From the crystal structure analysis result of the complex of Fc and FcgRIIb extracellular region of H240-Kn120 / H240-Hl068 / L73-k0, the CH2 domain of Tyr160 and Fc (Kn120 / Hl068) of FcgRIIb It was shown that a hydrogen bond was formed with the main chain carbonyl oxygen of Gly236 present in A.
- FcgRIIaR and FcgRIIaH this site is Phe160, and it is considered that the above-mentioned interaction does not exist.Therefore, if modification can be introduced into Gly236 and the interaction of FcgRIIb with Tyr160 can be eliminated, FcgRIIa R type There is a possibility that the binding activity to FcgRIIb can be reduced, that is, the binding activity to FcgRIIb can be selectively reduced, while maintaining the binding activity to.
- Lys127 of FcgRIIb and E294 of CH2 domain A of Fc (Kn120 / Hl068) may be electrostatically interacted with each other although they are distal. Therefore, we considered that replacing E294 with positively charged Lys or Arg could induce electrostatic repulsion and attenuate the interaction with FcgRIIb.
- H240-Kn120 (SEQ ID NO: 99), H240-Kn179 (SEQ ID NO: 107) and H240-Kn180 (SEQ ID NO: 108) introduced with E294R and E294K, respectively, were converted into H240-Hl068 (SEQ ID NO: 108).
- H240-Hl073 (SEQ ID NO: 109), H240-Hl085 (SEQ ID NO: 110), H240-Hl086 (SEQ ID NO: 111), H240-Hl089 (SEQ ID NO: 112) into which G236S, G236V, G236I, and G236T were introduced, respectively.
- H240-Kn120 (SEQ ID NO: 99), H240-Kn192 (SEQ ID NO: 113) introduced with Y235N and E294K, H240-Kn193 (SEQ ID NO: 114) introduced with Y235N and E294R, H240-Kn120 H240-Hl204 (SEQ ID NO: 115) in which G236T and I332E were introduced into -Hl068 (SEQ ID NO: 96) was prepared.
- Table 58 shows the results of evaluating the binding activity of these variants to FcgR according to the method of Reference Example 8.
- the H240-Kn120 / H240-Hl073 / L73-k0 of KD was shaded in gray in Table, the measurement range 5x10 dissociation constant of Biacore4000 that kd is used in this measurement for FcgRIa this time (kd) - since the 5 s -1 showed a value smaller than 5x10 -5 s -1 range measurement limit of 1s -1, a KD calculated the kd as 5x10 -5 s -1 or less.
- the H240-Kn179 / H240-Hl089 / L73-k0 and the H240-Kn180 / H240-Hl089 / L73-k0, in which E294K or E294R is introduced in the H240-Kn120 and G236T is introduced in the H240-Hl068, are both H240-Kn120 / Compared with H240-Hl068 / L73-k0, the binding to FcgRIIaR and FcgRIIaH was enhanced and the binding to FcgRIIb was reduced by 0.4 times.
- H240-Kn192 / H240-Hl204 / L73-k0 and H240-Kn193 / H240-Hl204 / L73-k0 into which I332E and Y235N were introduced were both H240-Kn179 / Compared with H240-Hl089 / L73-k0 and H240-Kn180 / H240-Hl089 / L73-k0, binding to FcgRIIIaF is doubled and binding to FcgRIIIaV is maintained while binding to FcgRIIaR, FcgRIIaH and FcgRIIb is maintained. Was improved about 8 times.
- Example 25 Enhancement of the binding activity of the heterodimerized antibody H240-Kn120 / H240-Hl068 / L73-k0 to active FcgR
- an alteration was introduced to H240-Kn120 / H240-Hl068 / L73-k0
- the modified body which maintained or enhanced the binding to FcgRIIaR and FcgRIIaH and reduced the binding activity to inhibitory FcgRIIb was produced.
- H240-Kn138 (SEQ ID NO: 116) introduced with L328W into H240-Kn120 according to the method of Reference Example 1, H240-Kn173 (SEQ ID NO: 117) introduced with I332Q, H240-Kn178 (SEQ ID NO: 118) introduced with K334Y, H240-Kn166 (SEQ ID NO: 119) introduced with L328A, H240-Kn172 (SEQ ID NO: 120) introduced with I332M, and H240-Kn149 (SEQ ID NO: 121) introduced with L328W and K334L were prepared.
- H240-Hl147 (SEQ ID NO: 122) introduced with L328W into H240-Hl068, H240-Hl170 (SEQ ID NO: 123) introduced with L328A, and H240-Hl174 (SEQ ID NO: 124) introduced with I332E.
- H240-Hl150 (SEQ ID NO: 125) introduced with I332T
- H240-Hl182 (SEQ ID NO: 126) introduced with A231H
- H240-Hl177 (SEQ ID NO: 127) introduced with I332Q were prepared.
- H240-Kn138 (SEQ ID NO: 116), H240-Kn173 (SEQ ID NO: 117), H240-Kn178 (SEQ ID NO: 118), H240-Kn149 (SEQ ID NO: 121), H240- Kn166 (SEQ ID NO: 119), H240-Kn172 (SEQ ID NO: 120), and H240-Hl170 (SEQ ID NO: 123), H240-Hl150 (SEQ ID NO: 125), H240-Hl174 (SEQ ID NO: 124) as the other H chain , H240-Hl182 (SEQ ID NO: 126), H240-Hl147 (SEQ ID NO: 122), H240-Hl177 (SEQ ID NO: 127), and L73-k0 (SEQ ID NO: 106) as the L chain, H240-Kn120 / H240-Hl170 / L73-k0, H240-Kn120 / H240-Hl150 /
- Table 61 shows the relative KD, which is the relative KD when each KD is 1 for FcgRIIaR, FcgRIIaH, and FcgRIIb of k0.
- the variant shown here is a variant having enhanced binding to at least one of FcgRIIaR, FcgRIIaH, FcgRIIIaF, and FcgRIIIaV compared to H240-Kn120 / H240-H1068 / L73-k0.
- H240-Kn120 / H240-Hl170 / L73-k0 which introduced L328A to H240-Hl068 which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0 is H240-Kn120 / H240-Hl068 / L73- Compared to k0, the binding activity to FcgRIIaR and FcgRIIaH was improved 2.3 times.
- H240-Kn120 / H240-Hl150 / L73-k0 which introduced I332T to H240-Hl068, which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0, is H240-Kn120 / H240-Hl068 / L73- Compared with k0, the binding activity to FcgRIIaH was improved by 1.2 times while maintaining the binding activity to FcgRIIaR.
- the binding activity to FcgRIIaH was improved 1.6 times while maintaining the binding activity to FcgRIIaR.
- H240-Kn120 / H240-Hl174 / L73-k0 in which I332E was introduced to H240-Hl068, which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0, is H240-Kn120 / H240-Hl068 / L73 Compared to -k0, the binding activity to FcgRIIIaF was improved 4.3 times and the binding activity to FcgRIIIaV was improved 10 times.
- H240-Kn173 / H240-Hl068 / L73-k0 which introduced I332Q to H240-Kn120 which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0 is H240-Kn120 / H240-Hl068 / L73 Compared to -k0, the binding activity to FcgRIIIaF was improved by 1.2 times while maintaining the binding activity to FcgRIIIaV.
- H240-Kn120 / H240-Hl068 / L73 is a H240-Kn120 / H240-Hl068 / L73-k0 that has A231H introduced to H240-Hl068, which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0. Compared to -k0, the binding activity to FcgRIIIaV was improved 1.2-fold.
- H240-Kn138 / H240-Hl147 / L73-k0 with L328W introduced into both H chains of H240-Kn120 / H240-Hl068 / L73-k0 is FcgRIIaR compared to H240-Kn120 / H240-Hl068 / L73-k0
- the binding activity to was improved 1.8 times.
- H240-Kn166 / H240-Hl170 / L73-k0 with L328A introduced in both H chains of H240-Kn120 / H240-Hl068 / L73-k0 is FcgRIIaH compared to H240-Kn120 / H240-Hl068 / L73-k0
- the binding activity with respect to was improved 1.9 times.
- H240-Kn149 / H240-Hl068 / L73-k0 in which L328W and K334L are introduced into H240-Kn120, which is one H chain of H240-Kn120 / H240-Hl068 / L73-k0, is H240-Kn120 / H240-Hl068 / L73 Compared to -k0, the binding activity to FcgRIIaH was improved 1.6 times while maintaining the binding activity to FcgRIIaR and FcgRIIIaV. From these results, it was considered that these variants had higher ADCP activity or ADCC activity than H240-Kn120 / H240-Hl068 / L73-k0.
- the Fc ⁇ R protein family includes Fc ⁇ RIa (CD64A), Fc ⁇ RIIa (CD32A), Fc ⁇ RIIb (CD32B), Fc ⁇ RIIIa (CD16A), Fc ⁇ RIIIb ( CD16B) isoforms have been reported and their allotypes have also been reported (Immunol Lett, 82 (1-2), 57-65, 2002).
- Fc ⁇ RIa, Fc ⁇ RIIa, and Fc ⁇ RIIIa are called active Fc ⁇ R because they have an immunoactive function, and Fc ⁇ RIIb has an immunosuppressive function, called inhibitory Fc ⁇ R (Nat Rev Immunol, 10, 328-343, 2010) .
- Fc ⁇ RIIb is the only Fc ⁇ R expressed in B cells (Eur J Immunol 19, 1379-1385, 1989). It has been reported that the Fc region of an antibody interacts with Fc ⁇ RIIb to suppress primary immunity of B cells (J Exp Med 129, 1183-1201, 1969). In addition, when Fc ⁇ RIIb and B cell receptor (BCR) on B cells are cross-linked via immune complexes in blood, B cell activation is suppressed and B cell antibody production is suppressed. It is reported to be suppressed (Immunol Lett 88, 157-161, 2003).
- Immunoreceptor tyrosine-based inhibitory motif (ITIM) contained in the intracellular domain of Fc ⁇ RIIb is required for the transmission of immunosuppressive signals via BCR and Fc ⁇ RIIb (Science, 256, 1808-1812, 1992, Nature, 368, 70-73, 1994).
- ITIM Immunoreceptor tyrosine-based inhibitory motif
- Fc ⁇ RIIb is also expressed on dendritic cells, macrophages, activated neutrophils, mast cells, and basophils. Also in these cells, Fc ⁇ RIIb inhibits the function of active Fc ⁇ R such as phagocytosis and release of inflammatory cytokines and suppresses inflammatory immune responses (Nat Rev Immunol, 10, 328-343, 2010).
- Fc ⁇ RIIb knockout mice The importance of the immunosuppressive function of Fc ⁇ RIIb has been clarified so far by studies using Fc ⁇ RIIb knockout mice.
- humoral immunity is not adequately controlled (J Immunol, 163, 618-622, 1999), and susceptibility to collagen-induced arthritis (CIA) is increased (J Exp Med, 189, 187-194, 1999), lupus-like symptoms and Goodpasture syndrome-like symptoms (J Exp Med, 191, 899-906, 2000) have been reported.
- dysregulation of Fc ⁇ RIIb has been reported to be associated with human autoimmune diseases.
- SLE systemic lupus erythematosus
- Fc ⁇ RIIb is thought to play a role in controlling autoimmune diseases and inflammatory diseases, mainly involving B cells, and controls autoimmune diseases and inflammatory diseases. Is a promising target molecule.
- IgG1 which is mainly used as a commercially available antibody drug, is known to bind not only to Fc ⁇ RIIb but also to active Fc ⁇ R (Blood, 113, 3716-3725, 2009).
- Development of antibody drugs with immunosuppressive properties compared to IgG1 by using Fc region with enhanced binding to Fc ⁇ RIIb or improved selectivity of binding activity to Fc ⁇ RIIb compared to active Fc ⁇ R There is a possibility.
- the use of an antibody having a variable region that binds to BCR and an Fc that has enhanced binding to Fc ⁇ RIIb has been suggested to inhibit B cell activation (Mol Immunol, 45, 3926-3933). , 2008).
- Fc ⁇ RI and FcgRIIb on mast cells are combined using a molecule that fuses the Fc portion of IgE that binds to Fc ⁇ RI, the receptor for IgE, and the Fc portion of IgG that has enhanced binding to FcgRIIb. It has been reported that cross-linking causes phosphorylation of FcgRIIb and suppresses Fc ⁇ RI-dependent calcium influx, which enhances binding to FcgRIIb and inhibits degranulation through stimulation of FcgRIIb. (Immunol let, doi: 10.1016 / j.imlet.2012.01.008). These facts suggest that antibodies having Fc with improved Fc ⁇ RIIb binding activity are promising as therapeutic agents for inflammatory diseases such as autoimmune diseases.
- FcgRIIb has been shown to play an important role in the agonist activity of agonist antibodies against the anti-TNF receptor family.
- the antibody introduced with the mutation of S267E / L328F maintained the binding of Fc ⁇ RIa and Fc ⁇ RIIa to the H type at the same level as that of natural IgG1.
- this modification enhanced the binding of Fc ⁇ RIIa to the R form by several hundred times as much as the binding to Fc ⁇ RIIb, and improved the selectivity of binding to Fc ⁇ RIIb when compared to the Fc ⁇ RIIa R form.
- the Fc with enhanced binding to FcgRIIb is markedly enhanced compared to native IgG1 for FcgRIIa R type, so as a drug for patients with FcgRIIa R type
- the value is significantly reduced.
- Fc ⁇ RIIa H-type and R-type are observed in Caucasian and African-American with almost the same frequency (J Clin Invest, 97, 1348-1354, 1996, Arthritis Rheum, 41, 1181-1189, 1998). Therefore, when this Fc is used for the treatment of autoimmune diseases, the number of patients that can be safely used while enjoying the effect as a pharmaceutical is limited.
- dendritic cell maturation occurs spontaneously in dendritic cells deficient in FcgRIIb, or in dendritic cells whose anti-FcgRIIb antibody inhibits the interaction between FcgRIIb and the Fc portion of the antibody.
- FcgRIIb actively suppresses maturation of dendritic cells in a steady state where no inflammation or the like occurs.
- FcgRIIa is also expressed on the surface of dendritic cells.
- Fc ⁇ RIIb is one of the active Fc ⁇ Rs
- Fc ⁇ RIIa is 93% identical in sequence to the extracellular region, very similar in structure
- Fc ⁇ RIIa is a H type whose 131st amino acid is His as a gene polymorphism. (H type) and Rrgtype (R type), which is Arg, each have different interactions with antibodies (J Exp Med, 172, 19-25, 1990).
- IL6R variable region IL6R (SEQ ID NO: 128), which is a variable region of an antibody against human interleukin 6 receptor disclosed in WO2009 / 125825, was used.
- IL6R-G1d (SEQ ID NO: 129) having G1d from which Cly terminal Gly and Lys of human IgG1 were removed was prepared.
- IL6R-B3 (SEQ ID NO: 130) in which K439E was introduced into IL6R-G1d was prepared.
- IL6R-BP208 (SEQ ID NO: 131) in which E233D, G237D, P238D, H268D, P271G, and A330R were introduced into IL6R-B3 was prepared.
- S267E and L328F were introduced into IL6R-B3 to prepare IL6R-BP253 (SEQ ID NO: 132) having an existing FcgRIIb binding activity-enhancing Fc.
- IL6R-L SEQ ID NO: 133
- IL6R-L which is the L chain of tocilizumab, is commonly used as the antibody L chain
- Table 62 shows the results of evaluating the binding activity of these variants to FcgR Ia, FcgR IIaR, FcgR IIaH, FcgR IIb, and FcgR IIIaV according to the method described in Reference Example 8.
- the cells painted in gray were weakly bound to IgG by FcgR, and it was determined that the analysis could not be performed correctly by kinetic analysis.
- KD By transforming this equation, KD can be expressed as Equation 2 below. [Formula 2] By substituting the values of R max , RI, and C into this equation, KD can be calculated. For RI and C, values can be obtained from the sensorgram of measurement results and measurement conditions. For the calculation of R max , the following method was used. For the antibody with sufficiently strong interaction that was evaluated at the same time during the measurement round, the R max value obtained when global fitting was performed with the 1: 1 Langmuir binding model was used as the sensor for the antibody to be compared. The value obtained by dividing by the capture amount on the chip and multiplying by the capture amount of the modified antibody to be evaluated was defined as R max .
- IL6R-B3 / IL6R-L FcgRIa FcgRIIaR, FcgRIIaH, FcgRIIb KD divided by the corresponding KD of each variant
- IL6R-B3 / IL6R-L FcgRIIaR, FcgRIIaH, FcKDII Table 63 shows the relative KD, which is the relative KD.
- the existing FcgRIIb binding activity-enhancing antibody IL6R-BP253 / IL6R-L binds to FcgRIIb compared to the human IgG1 type antibody (IL6R-B3 / IL6R-L) before the introduction of the modification.
- the activity is enhanced about 350 times, and the binding activity to FcgRIIaR is enhanced about 500 times.
- IL6R-BP208 / IL6R-L has about 100 times the binding activity to FcgRIIb, which is less than that of the existing FcgRIIb binding activity-enhancing antibody, but the binding activity to FcgRIIaR is 1.3 times that of IgG1 type. This antibody retains its activity and has excellent selectivity for FcgRIIb.
- Fc (BP208) expression purification Fc (BP208) was prepared as follows. First, replace the Cy of EU numbering 220th of IL6R-BP208 with Ser, and express the gene sequence Fc (BP208) cloned by PCR from the EU numbering 236th Glu by PCR according to the method described in Reference Example 1. Vector preparation, expression and purification were performed. In addition, Cys of EU numbering 220th forms a disulfide bond with Cys of L chain in normal IgG1, but when preparing only Fc, L chain is not co-expressed, so unnecessary disulfide bond formation occurs. Replaced with Ser to avoid.
- Endo F1 (Protein Science 1996, 5, 2617-2622) 0.15 mg expressed and purified by E. coli as a fusion protein with glutathione S-transferase was added to 1.5 mg of the FcgRIIb extracellular region sample obtained for crystallization, The mixture was allowed to stand at room temperature for 3 days under a buffer condition of M Bis-Tris pH 6.5 to cleave leaving N-acetylglucosamine in which the N-type sugar chain was directly bound to Asn.
- the FcgRIIb extracellular region sample that had been subjected to the sugar chain cleavage treatment was concentrated with a 5000 MWCO ultrafiltration membrane and equilibrated with 20 mM HEPES pH 7.5, 0.1 M NaCl (Superdex200 10/300).
- Fc (BP208) was added to the obtained sugar chain-cleaved FcgRIIb extracellular region fraction so that the FcgRIIb extracellular region was slightly excessive in molar ratio, and after concentration by an ultrafiltration membrane of a 10,000 MWCO ultrafiltration membrane, The sample was purified by gel filtration column chromatography (Superdex200 10/300) equilibrated with 25 mM HEPES pH 7.5, 0.1 M NaCl to obtain a sample of Fc (BP208) / FcgRIIb extracellular region complex.
- Fc (BP208) / FcgRIIb complex extracellular domain crystallization A sample of the Fc (BP208) / FcgRIIb extracellular region complex was concentrated to about 10 mg / ml with a 10,000 MWCO ultrafiltration membrane, and crystallization was performed using the hanging drop vapor diffusion method together with the Seeding method.
- crystallization sample 0.85 ⁇ l: 0.85 ⁇ l
- the CCD detector MX-225HE (RAYONIX) equipped with a beam line is used to rotate the crystals by 0.6 ° at a time to make a total of 300 X Line diffraction images were collected.
- the programs Xia2 J. Appl. Cryst. 2010, 43, 186-190
- XDS Package Acta Cryst. 2010, D66, 125-132
- Scala Acta Cryst. 2006, D62, 72-82
- the amino acid residue part of A chain 6-178 was extracted from the structure coordinates of PDB code: 2FCB, which is the crystal structure of the FcgRIIb extracellular region, and used as a model for searching Fc (BP208).
- an initial model of Fc (BP208) / FcgRIIb extracellular region complex crystal structure was obtained.
- the rigid model that moves the two Fc CH2 domains, the two Fc CH3 domains, and the FcgRIIb extracellular region to the initial model was obtained.
- the scientific reliability factor R value was 42.6%
- the Free R value was 43.7%.
- the structure refinement using the program REFMAC5 Acta Cryst. 2011, D67, 355-367
- the structural factor Fo determined experimentally, the structural factor Fc calculated from the model, and the phase calculated from the model are also included.
- the model is corrected with the program Coot (Acta Cryst.
- FcgRIIb extracellular region complex As a result of structural analysis, the three-dimensional structure of Fc (BP208) / FcgRIIb extracellular region complex was determined with a resolution of 2.81 ⁇ , and the structure obtained as a result of the analysis is shown in FIG. FcgRIIb extracellular region is sandwiched between two Fc CH2 domains, and Fc (WT) and FcgRIIIa (Proc.Natl.Acad.Sci.USA) are Fc of natural IgG analyzed so far. , 2011, 108, 12669-126674), FcgRIIIb (Nature, 2000, 400, 267-273; J. Biol. Chem. 2011, 276, 16469-16477), three-dimensional structure of the complex with each extracellular region of FcgRIIa It was similar.
- Fc (BP208) changes the loop structure of 233-239 that continues from the hinge region in CH2 domain A compared to Fc (WT) bound to FcgRIIa due to the introduction of G237D and P238D mutations.
- FIG. 50 As a result, formation of a strong hydrogen bond was observed between the amide of the G237 main chain of Fc (BP208) and the Tyr160 side chain of FcgRIIb. This Tyr160 is a Phe in FcgRIIa and cannot form a hydrogen bond, so this hydrogen bond makes an important contribution to the enhancement of the binding activity to FcgRIIb and the selectivity to reduce the binding to FcgRIIa. It was considered.
- S239 was found as one of the candidates for modification introduction sites. As shown in FIG. 51, Ser239 of CH2 domain B is located in the direction in which Lys117 of FcgRIIb extends in the most natural form when viewed structurally. However, since the electron density of Lys117 in FcgRIIb has not been observed in this analysis, there is no fixed structure, and at present, the involvement of Lys117 in the interaction with Fc (BP208) is limited.
- this amino acid side chain forms a hydrogen bond with the main chain of G236, continues from the hinge region, and includes D237 that forms a hydrogen bond with the FcgRIIb Tyr160 side chain. It was thought that the loop structure from No. to No. 239 was stabilized (FIG. 52). Stabilization of the loop structure to the conformation at the time of binding suppresses a decrease in entropy accompanying the binding, resulting in an increase in binding free energy, that is, an improvement in binding activity. On the other hand, when S239 of this CH2 domain A is altered to D or E, the hydrogen bond with the G236 main chain is lost, leading to instability of the loop structure.
- the binding activity may be increased by the amount of electrostatic interaction with Lys117 of FcgRIIb newly formed by S239D or S239E introduced into CH2 domain B. It was.
- IL6R-A5 (SEQ ID NO: 136) in which D356K and H435R mutations were introduced into IL6R-G1d was prepared as the other H chain, and E233D, G237D, P238D, H268D, P271G, and A330R were further prepared.
- the introduced IL6R-AP002 (SEQ ID NO: 137) was prepared.
- IL6R-L SEQ ID NO: 133
- IL6R-L which is the L chain of tocilizumab, is commonly used as the antibody L chain
- the homodimerized antibodies IL6R-B3 / IL6R-L, IL6R are used together with the respective H chains according to the method of Reference Example 1.
- KD By transforming this equation, KD can be expressed as Equation 2 below. [Formula 2] By substituting the values of R max , RI, and C into this equation, KD can be calculated. For RI and C, values can be obtained from the sensorgram of measurement results and measurement conditions. For the calculation of R max , the following method was used. For the antibody with sufficiently strong interaction that was evaluated at the same time during the measurement round, the R max value obtained when global fitting was performed with the 1: 1 Langmuir binding model was used as the sensor for the antibody to be compared. The value obtained by dividing by the capture amount on the chip and multiplying by the capture amount of the modified antibody to be evaluated was defined as R max .
- IL6R-B3 / IL6R-L FcgRIa FcgRIIaR, FcgRIIaH, FcgRIIb divided by KD of each variant IL6R-B3 / IL6R-L FcgRIIaR, FcgRIIaH, FcgRIIb
- Table 65 shows values obtained by dividing relative KD as relative KD and KD for FcgRIIaR of each variant by KD for FcgRIIb.
- the binding activity to FcgRIIb was improved by 752 times and 657 times, respectively.
- the binding activity to FcgRIIaR also increased from 1.3 times that of IL6R-BP208 / IL6R-L to 7.7 times and 8.3 times, respectively.
- KD (IIaR) / KD (IIb) in the table is a value obtained by dividing the KD of each variant for FcgRIIaR by the KD for FcgRIIb, and the larger this value, the higher the selectivity for FcgRIIb.
- IL6R-BP253 / IL6R-L which is an existing FcgRIIb-binding activity-enhancing antibody, has a value of 0.3, which does not improve selectivity compared to IgG1, whereas IL6R-BP208 / IL6R-L has 26.3. And high FcgRIIb selectivity.
- IL6R-AP002 / IL6R-BP256 / IL6R-L, IL6R-AP002 / IL6R-BP257 / IL6R-L introduced S239D or S239E on one H chain of IL6R-BP208 / IL6R-L.
- IIaR) / KD (IIb) were 34.3 and 27.7, respectively, which were improved from IL6R-BP208 / IL6R-L.
- Example 27 Design of constant region amino acid sequence aimed at improving separation and purification ability of homodimer and heterodimer [Selection of residue substitution site]
- heterodimerized antibodies when two types of H chains (each A chain and B chain) are co-expressed, homodimerized antibodies and B chains in which each H chain is dimerized A dimerized homodimerized antibody and a heterodimerized antibody in which two different H chains, A and B chains, are dimerized.
- As a method for efficiently separating and purifying the target heterodimerized antibody there is a method of substituting amino acid residues for each variable region to control the isoelectric point of the antibody and the retention ability and separation ability of the ion exchange column.
- variable region particularly the CDR region
- CDR region has a different sequence for each antibody
- the versatility of the corresponding technology is considered to be limited. Therefore, as a more general-purpose antibody residue substitution technique for purifying heterodimerized antibodies, a method for controlling retention and resolution on isoelectric points and ion exchange columns by residue substitution only in the antibody constant region. was considered.
- separation on the ion exchange column depends on the charge on the surface of the molecule, and in many cases, the separation conditions considering the isoelectric point of the target molecule are examined. Therefore, also in this example, separation on an ion exchange column is performed by substituting amino acid residues constituting the antibody constant region so that a difference occurs in isoelectric points between the homodimerized antibody and the heterodimerized antibody to be separated. was expected to improve.
- Residue substitution that changes the isoelectric point is a method in which a neutral residue is substituted with a basic residue or an acidic residue, and a basic residue or acidic residue is substituted with a neutral residue. There is. As a more effective countermeasure, there are methods of replacing a positively charged residue with a negatively charged residue and replacing a negatively charged residue with a positively charged residue.
- all parts of the antibody sequence are candidates for residue substitution sites that can change the isoelectric point.
- random substitution to a non-native sequence has the risk of increasing the risk of immunogenicity and is not an appropriate method when considered for use as a pharmaceutical product.
- IgG subclass sequences There are IgG1, IgG2, IgG3 and IgG4 in the subclass of human IgG. Based on the method disclosed in WO2007 / 114325, it is possible to change the isoelectric point while suppressing an increase in T-cell epitope by substituting a part of the antibody sequence with a sequence of a different subclass.
- an in silico tool for predicting T-cell epitope such as Epibase
- Epibase Light is an in silico tool that uses FASTER algorism (Expert Opin Biol Ther. 2007 Mar; 7 (3): 405-18.) To calculate the binding ability of the 9-mer peptide and the major DRB1 allele. is there. This tool can identify T-cell epitopes that are strong and moderate binding to MHC class II. The abundance ratio of DRB1 allotype is reflected in the calculation, and the abundance ratio in Caucasian shown below can be used.
- DRB1 * 1501 (24.5%), DRB1 * 0301 (23.7%), DRB1 * 0701 (23.3%), DRB1 * 0101 (15.0%), DRB1 * 1101 (11.6%), DRB1 * 1302 (8.2%), DRB1 * 1401/1454 (4.9%), DRB1 * 0901 (2.3%), DRB1 * 1502 (0.5%), DRB1 * 1202 (0.1%)
- H240-AK072 SEQ ID NO: 1034
- H240-BH076 SEQ ID NO: 105
- Table 67 shows the number of T-cell epitopes that can be altered by substitution of any residue for H240-AK072 and Table 68 for H240-BH076. Based on this result, it is possible to select a residue substitution that does not increase T-cell epitope and changes the isoelectric point.
- H240-AK072 and H240-BH076 variants were designed as residue substitution sites for isoelectric point modification (Tables 69 and 70).
- H240-AK072 / H240-BH076 / L73-k0 modified antibody expression vector First, synthesis designed to mutate each selected amino acid residue using H240-AK072 or H240-BH076 as a template to generate H240-AK072 / H240-BH076 / L73-k0 modified antibody cDNA. Each oligo DNA was designed. Next, using each synthetic oligo DNA, an animal cell expression vector containing the target gene was prepared according to the method of Reference Example 1.
- each H chain introduced with a modification to H240-AK072 or H240-BH076 (H chain modified with H240-AK072 is replaced with A chain, H240 -The H chain in which modification is introduced into BH076 is referred to as the B chain) and the L chain (L73-k0, SEQ ID NO: 106) are co-expressed in any combination, and according to the method of Reference Example 1, the A chain And a modified antibody in which the B chain is an arbitrary combination was obtained.
- Representative A chain and B chain SEQ ID NOs are shown in Table 71.
- FIG. 53 shows a representative chromatogram.
- the peak appearing at the position where the elution time is early is derived from the B chain-B chain homodimerized antibody, and the main peak is derived from the A chain-B chain heterodimerized antibody.
- Residue substitution H435R
- the antibody used here is rProtein A SepharoseTM Fast Flow (GE Healthcare) in the process of preparation by the method of Reference Example 1.
- retention time difference ⁇ RT (min) (heteroantibody peak retention time) ⁇ (B chain homoantibody peak retention time) was calculated.
- Table 72 shows the evaluation results of various variants. From the above, it was shown that the retention time difference between the heteroantibody and the homoantibody is expanded by the introduction of the designed residue substitution and the combination thereof.
- Tm thermal denaturation midpoint
- the thermal stability was evaluated by measuring the thermal denaturation midpoint (Tm) of the antibody using a scanning scanning fluorometric method using Rotor-Gene Q (QIAGEN).
- QIAGEN Rotor-Gene Q
- this technique shows a good correlation with Tm evaluation using a scanning scanning calorimeter widely known as an antibody thermal stability evaluation method (Journal of Pharmaceutical Science 2010; 4: 1707-1720).
- a measurement sample was prepared by diluting 5000 times concentration of SYPRO orange (Molecular Probes) with PBS (Sigma) and then mixing with the antibody solution. 20 ⁇ L of each sample was set in a measuring tube and the temperature was raised from 30 ° C.
- Example 29 Immunological evaluation of H240-AK072 / H240-BH076 / L73-k0 variant [Evaluation of binding activity to Fc ⁇ R by surface plasmon scattering] According to the method of Reference Example 8, an interaction analysis between the target antibody and FcgR was performed. Table 73 shows the evaluation results of various modified products. Thus, the binding ability of the H240-FA021 / H240-BF084 / L73-k0 variant confirmed to be separated in FIG. 54 to Fc ⁇ R is equivalent to that of H240-AK072 / H240-BH076 / L73-k0 before the alteration. It has been shown.
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Abstract
Description
〔1〕Fc領域を含み、該Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドであって、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド及び該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、該Fc領域の機能が改変されていることを特徴とするポリペプチド。
〔2〕前記Fc領域において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔1〕に記載のポリペプチド。
〔3〕前記アミノ酸変異が、変異を導入しない場合及び第一のポリペプチド及び第二のポリペプチドの両方のFc領域に変異が導入された場合と比較して、一方のFc領域にのみに変異が導入された場合の方が、該Fc領域の機能が向上するアミノ酸変異を少なくとも1つ含む、〔1〕又は〔2〕に記載のポリペプチド。
〔4〕前記Fc領域のCH2領域において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔2〕又は〔3〕に記載のポリペプチド。
〔5〕前記Fc領域のCH2領域において、EUナンバリング231番目のAla、EUナンバリング232番目のPro、EUナンバリング233番目のGlu、EUナンバリング234番目のLeu、EUナンバリング235番目のLeu、EUナンバリング236番目のGly、EUナンバリング237番目のGly、EUナンバリング238番目のPro、EUナンバリング239番目のSer、EUナンバリング240番目のVal、EUナンバリング265番目のAsp、EUナンバリング266番目のVal、EUナンバリング267番目のSer、EUナンバリング268番目のHis、EUナンバリング269番目のGlu、EUナンバリング270番目のAsp、EUナンバリング271番目のPro、EUナンバリング295番目のGln、EUナンバリング296番目のTyr、EUナンバリング298番目のSer、EUナンバリング300番目のTyr、EUナンバリング324番目のSer、EUナンバリング325番目のAsn、EUナンバリング326番目のLys、EUナンバリング327番目のAla、EUナンバリング328番目のLeu、EUナンバリング329番目のPro、EUナンバリング330番目のAla、EUナンバリング331番目のPro、EUナンバリング332番目のIle、EUナンバリング333番目のGlu、EUナンバリング334番目のLys、EUナンバリング335番目のThr、EUナンバリング336番目のIle、及びEUナンバリング337番目のSerからなる群より選択されるアミノ酸部位において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔4〕に記載のポリペプチド。
〔6〕前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強、及び、結合の選択性の向上からなる群より選択される少なくとも一つ以上の改変であることを特徴とする、〔1〕~〔5〕のいずれかに記載のポリペプチド。
〔7〕前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強であることを特徴とする、〔6〕に記載のポリペプチド。
〔8〕前記FcγレセプターがFcγRIa、FcγRIIa R、FcγRIIa H、FcγRIIb 、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであることを特徴とする、〔7〕に記載のポリペプチド。
〔9〕前記Fcγレセプターが、FcγRIaであることを特徴とする、〔8〕に記載のポリペプチド。
〔10〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表2-1及び表2-2の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔9〕に記載のポリペプチド。
〔11〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表2-1、表2-2及び表2-3の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔9〕に記載のポリペプチド。
〔12〕前記Fcγレセプターが、FcγRIIa Rであることを特徴とする、〔8〕に記載のポリペプチド。
〔13〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表3-1及び表3-2の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔12〕に記載のポリペプチド。
〔14〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表3-1及び表3-2の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔12〕に記載のポリペプチド。
〔15〕前記Fcγレセプターが、FcγRIIa Hであることを特徴とする、〔8〕に記載のポリペプチド。
〔16〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表4の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔15〕に記載のポリペプチド。
〔17〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表4の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔15〕に記載のポリペプチド。
〔18〕前記Fcγレセプターが、FcγRIIbであることを特徴とする、〔8〕に記載のポリペプチド。
〔19〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表5の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔18〕に記載のポリペプチド。
〔20〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表5の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔18〕に記載のポリペプチド。
〔21〕前記Fcγレセプターが、FcγRIIIaであることを特徴とする、〔8〕に記載のポリペプチド。
〔22〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表6の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔21〕に記載のポリペプチド。
〔23〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表6の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔21〕に記載のポリペプチド。
〔24〕前記Fc領域の機能の改変がFcγレセプターに対する結合活性の選択性の向上であることを特徴とする、〔6〕に記載のポリペプチド。
〔25〕前記Fcγレセプターに対する結合活性の選択性の向上が、活性型Fcγレセプターと阻害型Fcγレセプターとの間の選択性であることを特徴とする、〔24〕に記載のポリペプチド。
〔26〕前記Fcγレセプターにおいて、活性型FcγレセプターがFcγRIa、FcγRIIa R、FcγRIIa H、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであり、阻害型FcγレセプターがFcγRIIbであることを特徴とする、〔25〕に記載のポリペプチド。
〔27〕前記活性型FcγレセプターがFcγRIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIaに対する結合活性が選択的に増強されたことを特徴とする、〔26〕に記載のポリペプチド。
〔28〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表19-1、表19-2、表19-3及び表19-4の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔27〕に記載のポリペプチド。
〔29〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表19-1、表19-2、表19-3、表19-4及び表19-5の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔27〕に記載のポリペプチド。
〔30〕前記活性型FcγレセプターがFcγRIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIaに対する結合活性が選択的に減弱されたことを特徴とする、〔26〕に記載のポリペプチド。
〔31〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表23-1及び表23-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔30〕に記載のポリペプチド。
〔32〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表23-1及び表23-2の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔30〕に記載のポリペプチド。
〔33〕前記活性型FcγレセプターがFcγRIIa Rであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Rに対する結合活性が選択的に増強されたことを特徴とする、〔26〕に記載のポリペプチド。
〔34〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表20-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔33〕に記載のポリペプチド。
〔35〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表20-1、表20-2及び表20-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔33〕に記載のポリペプチド。
〔36〕前記活性型FcγレセプターがFcγRIIa Rであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Rに対する結合活性が選択的に減弱されたことを特徴とする、〔26〕に記載のポリペプチド。
〔37〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表24-1の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔36〕に記載のポリペプチド。
〔38〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表24-1及び表24-2の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔36〕に記載のポリペプチド。
〔39〕前記活性型FcγレセプターがFcγRIIa Hであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Hに対する結合活性が選択的に増強されたことを特徴とする、〔26〕に記載のポリペプチド。
〔40〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表21-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔39〕に記載のポリペプチド。
〔41〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表21-1、表21-2及び表21-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔39〕に記載のポリペプチド。
〔42〕前記活性型FcγレセプターがFcγRIIa Hであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Hに対する結合活性が選択的に減弱されたことを特徴とする、〔26〕に記載のポリペプチド。
〔43〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表25-1及び表25-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔42〕に記載のポリペプチド。
〔44〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表25-1、表25-2及び表25-3の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔42〕に記載のポリペプチド。
〔45〕前記活性型FcγレセプターがFcγRIIIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIIaに対する結合活性が選択的に増強されたことを特徴とする、〔26〕に記載のポリペプチド。
〔46〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表22-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔45〕に記載のポリペプチド。
〔47〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表22-1、表22-2及び表22-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔45〕に記載のポリペプチド。
〔48〕前記活性型FcγレセプターがFcγRIIIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIIaに対する結合活性が選択的に減弱されたことを特徴とする、〔26〕に記載のポリペプチド。
〔49〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表26-1及び表26-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔48〕に記載のポリペプチド。
〔50〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表26-1、表26-2、表26-3及び表26-4の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔48〕に記載のポリペプチド。
〔51〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング234番目のアミノ酸LのYへの置換、EUナンバリング235番目のアミノ酸LのY又はQへの置換、EUナンバリング236番目のアミノ酸GのWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング298番目のアミノ酸SのAへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換、EUナンバリング330番目のアミノ酸AからM又はKへの置換及びEUナンバリング334番目のアミノ酸KからE又はLへの置換からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔1〕、〔21〕又は〔45〕に記載のポリペプチド。
〔52〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング234番目のLeu、235番目のLeu、236番目のGly、239番目のSer、268番目のHis、270番目のAsp、298番目のSer、EUナンバリング326番目のLys、327番目のAla、328番目のLeu、330番目のAla及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されていることを特徴とする、〔1〕、〔21〕又は〔45〕に記載のポリペプチド。
〔53〕前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング234番目のLeu、235番目のLeu、236番目のGly、239番目のSer、268番目のHis、270番目のAsp、298番目のSer、327番目のAla、328番目のLeu及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング270番目のAsp、EUナンバリング326番目のLys、330番目のAla及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されていることを特徴とする、〔1〕、〔21〕又は〔45〕に記載のポリペプチド。
〔54〕前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからY又はQへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換及びEUナンバリング334番目のアミノ酸KからLへの置換からなる群より選択される、少なくとも一つのアミノ酸変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからM又はKへの置換、EUナンバリング334番目のアミノ酸KからEへの置換からなる群より選択される、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、〔1〕、〔21〕又は〔45〕に記載のポリペプチド。
〔55〕前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、(i)から(vi)のいずれかの変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、(vii)から(ix)のいずれかの変異が導入されている、〔1〕、〔21〕又は〔45〕に記載のポリペプチド:
(i) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(ii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからQへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iv) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(v) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(vi) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換、EUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換及びEUナンバリング334番目のアミノ酸KからLへの置換
(vii) EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(viii) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(ix) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからKへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換。
〔56〕Fc領域を含み、該Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドであって、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド又は該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、該Fc領域の機能が改変されていることを特徴とするポリペプチド。
〔57〕前記Fc領域の機能の改変が、ポリペプチドのFcγレセプターに対する結合活性の増強、結合の減弱、及び、結合の選択性の向上からなる群より選択される少なくとも一つ以上の改変であることを特徴とする、〔56〕に記載のポリペプチド。
〔58〕前記Fc領域の機能の改変が、さらに物理化学的安定性が向上するという改変であることを特徴とする、〔57〕に記載のポリペプチド。
〔59〕前記物理化学的安定性が向上するという改変は、Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドが、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド又は該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、高いTmを有することを特徴とする〔58〕に記載のポリペプチド。
〔60〕前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強であり、該Fcγレセプターが、FcγRIa、FcγRIIa R、FcγRIIa H、FcγRIIb 、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであることを特徴とする、〔57〕~〔59〕のいずれかに記載のポリペプチド。
〔61〕前記Fcγレセプターが、FcγRIaであることを特徴とする、〔60〕に記載のポリペプチド。
〔62〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表31-1、表31-2及び表31-3に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔61〕に記載のポリペプチド。
〔63〕前記Fcγレセプターが、FcγRIIa Rであることを特徴とする、〔60〕に記載のポリペプチド。
〔64〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表32-1及び表32-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔63〕に記載のポリペプチド。
〔65〕前記Fcγレセプターが、FcγRIIa Hであることを特徴とする、〔60〕に記載のポリペプチド。
〔66〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表33-1及び表33-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔65〕に記載のポリペプチド。
〔67〕前記Fcγレセプターが、FcγRIIbであることを特徴とする、〔60〕に記載のポリペプチド。
〔68〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表34-1及び表34-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔67〕に記載のポリペプチド。
〔69〕前記Fcγレセプターが、FcγRIIIaであることを特徴とする、〔60〕に記載のポリペプチド。
〔70〕前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表35-1及び表35-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、〔69〕に記載のポリペプチド。
〔71〕更に第一のポリペプチドと第二のポリペプチドの等電点に差を付与させるためのアミノ酸改変が導入されている、〔1〕から〔70〕のいずれかに記載のポリペプチド。
〔72〕等電点の差を付与するためのアミノ酸改変が、第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング137番目のGly、138番目のGly、139番目のThr、147番目のLys、192番目のSer、193番目のLeu、196番目のGln、198番目のTyr、199番目のIle、203番目のAsn、214番目のLys、263番目のVal、272番目のGlu、274番目のLys、278番目のTyr、288番目のLys、290番目のLys、316番目のGly、317番目のLys、320番目のLys、324番目のLys、335番目のThr、337番目のSer、340番目のLys、358番目のLeu、360番目のLys、362番目のGln、364番目のSer、383番目のSer、384番目のAsn、385番目のGly、386番目のGln、387番目のPro、390番目のAsn、397番目のVal及び422番目のValからなる群より選択されるアミノ酸部位において、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、〔71〕に記載のポリペプチド。
〔73〕等電点の差を付与するためのアミノ酸改変が、第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング196番目のGln、199番目のIle、263番目のVal、272番目のGlu、316番目のGly、358番目のLeu、364番目のSer、383番目のSer、387番目のPro及び397番目のValからなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング137番目のGly、138番目のGly、139番目のThr、147番目のLys、192番目のSer、193番目のLeu、198番目のTyr、199番目のIle、203番目のAsn、214番目のLys、274番目のLys、278番目のTyr、288番目のLys、290番目のLys、316番目のGly、317番目のLys、320番目のLys、324番目のLys、335番目のThr、337番目のSer、340番目のLys、358番目のLeu、360番目のLys、362番目のGln、383番目のSer、384番目のAsn、385番目のGly、386番目のGln、390番目のAsn及び422番目のValからなる群より選択される、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、〔71〕に記載のポリペプチド。
〔74〕前記ポリペプチドが、抗原結合分子であることを特徴とする、〔1〕~〔73〕のいずれかに記載のポリペプチド。
〔75〕前記抗原結合分子が、抗体、二重特異性抗体、ペプチドFc融合タンパク質、又はスキャッフォールドFc融合タンパク質などのFc融合分子であることを特徴とする、〔74〕に記載のポリペプチド。
〔76〕〔74〕又は〔75〕に記載のポリペプチド及び医学的に許容し得る担体を含む、医薬組成物。
〔77〕Fc領域を含むポリペプチドの機能を改変する方法であって、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入することにより該Fc領域をヘテロ二量体とし、アミノ酸変異の導入により該Fc領域がホモ二量体となった場合に比べてFc領域の機能を改変する工程を含む、ポリペプチドの機能を改変する方法。
〔78〕Fc領域を含むポリペプチドを製造する方法であって、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入することにより該Fc領域をヘテロ二量体とし、アミノ酸変異の導入により該Fc領域がホモ二量体となった場合に比べてFc領域の機能を改変する工程を含む、Fc領域を含むポリペプチドを製造する方法。
また、本発明においては、Fc領域のより高い機能の改変効果を得るために、変異を導入しない場合及び2つのポリペプチドの両方のFc領域に変異が導入された場合と比較して、一方にのみ変異が導入された場合の方が、該Fc領域の機能が向上するアミノ酸変異が少なくとも1つ導入されていることが好ましい。
アミノ酸残基を置換する場合には、別のアミノ酸残基に置換することで、例えば次の(a)~(c)のような点について改変する事を目的とする。
(a) シート構造、若しくは、らせん構造の領域におけるポリペプチドの背骨構造;(b) 標的部位における電荷若しくは疎水性、または(c)側鎖の大きさ。
(1) 疎水性: ノルロイシン、met、ala、val、leu、ile;
(2) 中性親水性: cys、ser、thr、asn、gln;
(3) 酸性: asp、glu;
(4) 塩基性: his、lys、arg;
(5) 鎖の配向に影響する残基: gly、pro;及び
(6) 芳香族性: trp、tyr、phe。
・哺乳動物の抗体産生細胞
・抗体をコードするDNAを含む発現ベクターで形質転換された真核細胞
(1)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング356位および439位のアミノ酸残基、
(2)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング357位および370位のアミノ酸残基、
(3)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング399位および409位のアミノ酸残基。
(X)グルタミン酸(E)、アスパラギン酸(D)、
(Y)リジン(K)、アルギニン(R)、ヒスチジン(H)。
本発明において改変に供するアミノ酸残基としては、上述した抗体の可変領域または抗体の定常領域のアミノ酸残基に限られない。当業者であれば、ポリペプチド変異体または異種多量体について、市販のソフトウェアを用いたホモロジーモデリング等により、界面を形成するアミノ酸残基を見出すことができ、会合を制御するように、該部位のアミノ酸残基を改変に供することが可能である。
FcγRIIaのポリヌクレオチド配列及びアミノ酸配列は、それぞれBC020823.1及びAAH20823.1に、
FcγRIIbのポリヌクレオチド配列及びアミノ酸配列は、それぞれBC146678.1及びAAI46679.1に、
FcγRIIIaのポリヌクレオチド配列及びアミノ酸配列は、それぞれBC033678.1及びAAH33678.1に、及び
FcγRIIIbのポリヌクレオチド配列及びアミノ酸配列は、それぞれBC128562.1及びAAI28563.1に記載されている(RefSeq登録番号)。
また、上記の測定法で測定したKD値において、KD値が1 pM以上低下していることが好ましく、10 pM、100 pM、1 nM以上、2 nM以上、3 nM以上、5 nM以上、10 nM以上、20 nM以上、50 nM以上、100 nM以上、1μM以上低下していることがさらに好ましい。
また、上記の測定法で測定したKD値において、KD値が5μM以下であることが好ましく、3μM以下、1μM以下、0.5μM以下、0.1μM以下、0.01μM以下、1 nM以下、0.1 nM以下、0.001 nM以下、1 pM以下であることが更に好ましい。
また、抗体のFc領域とFcγRとの相互作用の強さはZn2+イオン濃度依存的であることが報告されている(Immunology Letters 143 (2012) 60-69)。抗体はFc領域のZn2+イオン濃度が高いほど、Fc領域とFcgRとの相互作用は増強される。抗体のFc領域のCH3に存在するHis310、His435がZn2+をキレートすることにより、遠位にあるFc領域の各CH2ドメインが開く。これにより、CH2ドメインとFcgRと相互作用しやすくなり、Fc領域とFcgRの相互作用が増強される。本発明の抗体の非限定な一態様として、EUナンバリングで表される310位のHis、435位のHis、433位のHisおよび/または434位のAsnにZn2+がキレートされたFc領域が挙げられる。
EUナンバリング239番目のアミノ酸SのDへの置換、EUナンバリング330番目のアミノ酸AのLへの置換、及びEUナンバリング332番目のアミノ酸IのEへの置換からなる群より選択される、少なくとも一つ以上(例えば2つ又は3つ)のアミノ酸変異が導入されており、
もう一方のポリペプチドのアミノ酸配列において、
EUナンバリング234番目のアミノ酸LのYへの置換、EUナンバリング236番目のアミノ酸GのWへの置換、及びEUナンバリング298番目のアミノ酸SのAへの置換からなる群より選択される、少なくとも一つ以上(例えば2つ又は3つ)のアミノ酸変異が導入されていてもよい。
(i) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(ii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからQへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iv) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(v) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(vi) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換、EUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換及びEUナンバリング334番目のアミノ酸KからLへの置換
(vii) EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(viii) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(ix) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからKへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換。
(i)所望のFcγレセプターに対する結合活性が増強し、所望のFcγレセプター以外のレセプターに対する結合活性は変わらない又は減弱する、
(ii) 所望のFcγレセプターに対する結合活性が増強し、所望のFcγレセプター以外のレセプターに対する結合活性も増強するが、所望のFcγレセプター以外のレセプターに対する結合活性の増強の程度が所望のFcγレセプターに対する結合活性の増強の程度よりも低い、あるいは、
(iii)所望のFcγレセプターに対する結合活性は減弱しているが、当該結合活性の減弱の程度が所望のFcγレセプター以外のFcγレセプターに対する結合活性の減弱の程度よりも低い。
(i)所望のFcγレセプターに対する結合活性が減弱し、所望のFcγレセプター以外のレセプターに対する結合活性は変わらない又は増強する、
(ii) 所望のFcγレセプターに対する結合活性が減弱し、所望のFcγレセプター以外のレセプターに対する結合活性も減弱するが、所望のFcγレセプター以外のレセプターに対する結合活性の減弱の程度が所望のFcγレセプターに対する結合活性の減弱の程度よりも低い、あるいは、
(iii) 所望のFcγレセプターに対する結合活性は増強しているが、当該結合活性の増強の程度が所望のFcγレセプター以外のFcγレセプターに対する結合活性の増強の程度よりも低い。
本発明において、「アミノ酸変異が、第一のポリペプチド及び第二のポリペプチドの両方のFc領域に導入された場合、該Fc領域の機能が改変しない」とは、同じアミノ酸変異を第一のポリペプチドと第二のポリペプチド両方に導入した場合に、所望の機能が向上しないことを意味し、例えば、ポリペプチドのFcγレセプターとの結合活性を増強させたい場合には、当該結合活性が変化しない又は減弱する、結合活性を減弱させたい場合には、当該結合活性が変化しない又は増強する、結合活性の選択性を向上させたい場合には、当該選択性が向上しない、ポリペプチドの物理化学的安定性を向上させたい場合には、当該安定性が変化しない又は低下することを意味する。アミノ酸変異が「一方のFc領域にのみ導入された場合、該Fc領域の機能が改変する」とは、アミノ酸変異を第一のポリペプチド又は第二のポリペプチドのいずれか一方のみに導入した場合に、所望の機能が向上することを意味し、例えば、ポリペプチドのFcγレセプターとの結合活性を増強させたい場合には、当該結合活性が増強する、結合活性を減弱させたい場合には、当該結合活性が減弱する、結合活性の選択性を向上させたい場合には、当該選択性が向上する、ポリペプチドの物理化学的安定性を向上させたい場合には、当該安定性が向上することを意味する。
さらに、本発明のポリペプチドとして抗体を提供する。
本発明における「抗体」という用語は、最も広い意味で使用され、所望の生物学的活性を示す限り、モノクローナル抗体(全長モノクローナル抗体を含む)、ポリクローナル抗体、抗体変異体、抗体断片、多特異性抗体(例えば、二特異性抗体)、キメラ抗体、ヒト化抗体等、如何なる抗体も含まれる。
nogen activator inhibitor-1, platelet-growth factor, plgR, PLP, poly glycol chains of different size(e.g. PEG-20, PEG-30, PEG40), PP14, prekallikrein, prion protein, procalcitonin, Programmed cell death protein 1, proinsulin, prolactin, Proprotein convertase PC9, prorelaxin, prostate specific membrane antigen (PSMA), Protein A, Protein C, Protein D, Protein S, Protein Z, PS, PSA, PSCA, PsmAr, PTEN, PTHrp, Ptk, PTN, P-selectin glycoprotein ligand-1, R51, RAGE, RANK, RANKL, RANTES, relaxin, Relaxin A-chain, Relaxin B-chain, renin, respiratory syncytial virus (RSV) F, Ret, reticulon 4, Rheumatoid factors, RLI P76, RPA2, RPK-1, RSK, RSV Fgp, S100, RON-8, SCF/KL, SCGF, Sclerostin, SDF-1, SDF1α, SDF1β, SERINE, Serum Amyloid P, Serum albumin, sFRP-3, Shh, Shiga like toxin II, SIGIRR, SK-1, SLAM, SLPI, SMAC, SMDF, SMOH, SOD, SPARC, sphingosine 1-phosphate receptor 1, Staphylococcal lipoteichoic acid, Stat, STEAP, STEAP-II, stem cell factor (SCF), streptokinase, superoxide dismutase, syndecan-1, TACE, TACI, TAG-72 (tumor-associated glycoprotein-72), TARC, TB, TCA-3, T-cell receptor alpha/beta, TdT, TECK, TEM1, TEM5, TEM7, TEM8, Tenascin, TERT, testicular PLAP-like alkaline phosphatase, TfR, TGF, TGF-alpha, TGF-beta, TGF-beta Pan Specific, TGF-beta RII, TGF-beta RIIb, TGF-beta RIII, TGF-beta Rl (ALK-5), TGF-beta1, TGF-beta2, TGF-beta3, TGF-beta4, TGF-beta5, TGF-I, Thrombin, thrombopoietin (TPO), Thymic stromal lymphoprotein receptor, Thymus Ck-1, thyroid stimulating hormone (TSH), thyroxine, thyroxine-binding globulin, Tie, TIMP, TIQ, Tissue Factor, tissue factor protease inhibitor, tissue factor protein, TMEFF2, Tmpo, TMPRSS2, TNF receptor I, TNF receptor II, TNF-alpha, TNF-beta, TNF-beta2, TNFc, TNF-RI, TNF-RII, TNFRSF10A (TRAIL R1 Apo-2/DR4), TNFRSF10B (TRAIL R2 DR5/KILLER/TRICK-2A/TRICK-B), TNFRSF10C (TRAIL R3 DcR1/LIT/TRID), TNFRSF10D (TRAIL R4 DcR2/TRUNDD), TNFRSF11A (RANK ODF R/TRANCE R), TNFRSF11B (OPG OCIF/TR1), TNFRSF12 (TWEAK R FN14), TNFRSF12A, TNFRSF13B (TACI), TNFRSF13C (BAFF R), TNFRSF14 (HVEM ATAR/HveA/LIGHT R/TR2), TNFRSF16 (NGFR p75NTR), TNFRSF17 (BCMA), TNFRSF18 (GITR AITR), TNFRSF19 (TROY TAJ/TRADE), TNFRSF19L (RELT), TNFRSF1A (TNF Rl CD120a/p55-60), TNFRSF1B (TNF RII CD120b/p75-80), TNFRSF21 (DR6), TNFRSF22 (DcTRAIL R2 TNFRH2), TNFRSF25 (DR3 Apo-3/LARD/TR-3/TRAMP/WSL-1), TNFRSF26 (TNFRH3), TNFRSF3 (LTbR TNF RIII/TNFC R), TNFRSF4 (OX40 ACT35/TXGP1 R), TNFRSF5 (CD40 p50), TNFRSF6 (Fas Apo-1/APT1/CD95), TNFRSF6B (DcR3 M68/TR6), TNFRSF7 (CD27), TNFRSF8 (CD30), TNFRSF9 (4-1 BB CD137/ILA), TNFRST23 (DcTRAIL R1 TNFRH1), TNFSF10 (TRAIL Apo-2 Ligand/TL2), TNFSF11 (TRANCE/RANK Ligand ODF/OPG Ligand), TNFSF12 (TWEAK Apo-3 Ligand/DR3 Ligand), TNFSF13 (APRIL TALL2), TNFSF13B (BAFF BLYS/TALL1/THANK/TNFSF20), TNFSF14 (LIGHT HVEM Ligand/LTg), TNFSF15 (TL1A/VEGI), TNFSF18 (GITR Ligand AITR Ligand/TL6), TNFSF1A (TNF-a Conectin/DIF/TNFSF2), TNFSF1B (TNF-b LTa/TNFSF1), TNFSF3 (LTb TNFC/p33), TNFSF4 (OX40 Ligand gp34/TXGP1), TNFSF5 (CD40 Ligand CD154/gp39/HIGM1/IMD3/TRAP), TNFSF6 (Fas Ligand Apo-1 Ligand/APT1 Ligand), TNFSF7 (CD27 Ligand CD70), TNFSF8 (CD30 Ligand CD153), TNFSF9 (4-1 BB Ligand CD137 Ligand), TNF-α, TNF-β, TNIL-I, toxic metabolite, TP-1, t-PA, Tpo, TRAIL, TRAIL R, TRAIL-R1, TRAIL-R2, TRANCE, transferrin receptor, transforming growth factors (TGF) such as TGF-alpha and TGF-beta, Transmembrane glycoprotein NMB, Transthyretin, TRF, Trk, TROP-2, Trophoblast glycoprotein, TSG, TSLP, Tumor Necrosis Factor (TNF), tumor-associated antigen CA 125, tumor-associated antigen expressing Lewis Y related carbohydrate, TWEAK, TXB2, Ung, uPAR, uPAR-1, Urokinase, VAP-1, vascular endothelial growth factor (VEGF), vaspin, VCAM, VCAM-1, VECAD, VE-Cadherin, VE-Cadherin-2, VEFGR-1 (flt-1), VEFGR-2, VEGF receptor (VEGFR), VEGFR-3 (flt-4), VEGI, VIM, Viral antigens, VitB12 receptor, Vitronectin receptor, VLA, VLA-1, VLA-4, VNR integrin, von Willebrand Factor (vWF), WIF-1, WNT1, WNT10A, WNT10B, WNT11, WNT16, WNT2, WNT2B/13, WNT3, WNT3A, WNT4, WNT5A, WNT5B, WNT6, WNT7A, WNT7B, WNT8A, WNT8B, WNT9A, WNT9B, XCL1, XCL2/SCM-l-beta, XCLl/Lymphotactin, XCR1, XEDAR, XIAP, XPDなどがあげられる。
(1)哺乳類細胞、:CHO(Chinese hamster ovary cell line)、COS(Monkey kidney cell line)、ミエローマ(Sp2/O、NS0等)、BHK (baby hamster kidney cell line)、HEK293(human embryonic kidney cell line with sheared adenovirus (Ad)5 DNA)、PER.C6 cell (human embryonic retinal cell line transformed with the Adenovirus Type 5 (Ad5) E1A and E1B genes)、Hela、Vero、など(Current Protocols in Protein Science (May, 2001, Unit 5.9, Table 5.9.1))
(2)両生類細胞:アフリカツメガエル卵母細胞など
(3)昆虫細胞:sf9、sf21、Tn5など
抗体の重鎖をコードするDNAであって、Fc領域中の1又は複数のアミノ酸残基が目的の他のアミノ酸に置換された重鎖をコードするDNA、および抗体の軽鎖をコードするDNAを発現させる。Fc領域中の1又は複数のアミノ酸残基が目的の他のアミノ酸に置換された重鎖をコードするDNAは、例えば、天然型の重鎖をコードするDNAのFc領域部分を取得し、該Fc領域中の特定のアミノ酸をコードするコドンが目的の他のアミノ酸をコードするよう、適宜置換を導入することによって得ることが出来る。
(1)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング356位および439位のアミノ酸残基、
(2)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング357位および370位のアミノ酸残基、
(3)H鎖CH3領域に含まれるアミノ酸残基であって、EUナンバリング399位および409位のアミノ酸残基。
(X)グルタミン酸(E)、アスパラギン酸(D)、
(Y)リジン(K)、アルギニン(R)、ヒスチジン(H)。
(a)Fc領域を含むポリペプチドにおいて、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入する工程、
(b)前記工程(a)で変異が導入された第一のポリペプチド及び第二のポリペプチドからなるヘテロ二量体の、Fc領域の機能を測定する工程、および
(c)親ポリペプチド又はアミノ酸変異の導入により該Fc領域がホモ二量体となった場合と比較して、Fc領域の機能が改変されたポリペプチドを選択する工程。
(d)Fc領域を有する第一のポリペプチドと第二のポリペプチドから成るヘテロ二量化ポリペプチドを、提示したリボソーム、ファージ、イーストにディスプレイさせる工程
(a)親ポリペプチド又はアミノ酸変異の導入により該Fc領域がホモ二量体となった場合と比較して、Fc領域の機能が改変されるように、当該ポリペプチドをコードする核酸を改変する工程、
(b)宿主細胞に当該核酸を導入し発現するように培養する工程、
(c)宿主細胞培養物から当該ポリペプチドを回収する工程、を含む方法である。
(a)Fc領域を含むポリペプチドにおいて、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入する工程、
(b)前記工程(a)で変異が導入された第一のポリペプチド及び第二のポリペプチドからなるヘテロ二量体の、Fc領域の機能を測定する工程、および
(c)親ポリペプチド又はアミノ酸変異の導入により該Fc領域がホモ二量体となった場合と比較して、Fc領域の機能が改変されたポリペプチドを選択する工程。
(d)Fc領域を有する第一のポリペプチドと第二のポリペプチドから成るヘテロ二量化ポリペプチドを、提示したリボソーム、ファージ、イーストにディスプレイさせる工程
好ましい態様としては、Fc領域を含むポリペプチドの改変方法であって、
(a)親ポリペプチド又はアミノ酸変異の導入により該Fc領域がホモ二量体となった場合と比較して、Fc領域の機能が改変されるように、当該ポリペプチドをコードする核酸を改変する工程、
(b)宿主細胞に当該核酸を導入し発現するように培養する工程、
(c)宿主細胞培養物から当該ポリペプチドを回収する工程、を含む方法である。
さらに当該改変方法によって改変される抗体及びFc融合タンパク質分子も本発明に含まれる。
本発明は、本発明のポリペプチドを含有する医薬組成物を提供する。
本発明の医薬組成物は、本発明のポリペプチドである抗体又はFc融合タンパク質分子に加えて医薬的に許容し得る担体を導入し、公知の方法で製剤化することが可能である。例えば、水もしくはそれ以外の薬学的に許容し得る溶液との無菌性溶液、又は懸濁液剤の注射剤の形で非経口的に使用できる。例えば、薬理学上許容される担体もしくは媒体、具体的には、滅菌水や生理食塩水、植物油、乳化剤、懸濁剤、界面活性剤、安定剤、香味剤、賦形剤、ベヒクル、防腐剤、結合剤などと適宜組み合わせて、一般に認められた製薬実施に要求される単位用量形態で混和することによって製剤化することが考えられる。具体的には、軽質無水ケイ酸、乳糖、結晶セルロース、マンニトール、デンプン、カルメロースカルシウム、カルメロースナトリウム、ヒドロキシプロピルセルロース、ヒドロキシプロピルメチルセルロース、ポリビニルアセタールジエチルアミノアセテート、ポリビニルピロリドン、ゼラチン、中鎖脂肪酸トリグリセライド、ポリオキシエチレン硬化ヒマシ油60、白糖、カルボキシメチルセルロース、コーンスターチ、無機塩類等を担体として挙げることができる。これら製剤における有効成分量は指示された範囲の適当な容量が得られるようにするものである。
アラニン:Ala:A
アルギニン:Arg:R
アスパラギン:Asn:N
アスパラギン酸:Asp:D
システイン:Cys:C
グルタミン:Gln:Q
グルタミン酸:Glu:E
グリシン:Gly:G
ヒスチジン:His:H
イソロイシン:Ile:I
ロイシン:Leu:L
リジン:Lys:K
メチオニン:Met:M
フェニルアラニン:Phe:F
プロリン:Pro:P
セリン:Ser:S
スレオニン:Thr:T
トリプトファン:Trp:W
チロシン:Tyr:Y
バリン:Val:V
〔実施例1〕ヘテロ二量化抗体によるFcγR認識能向上のコンセプトの説明
抗体はFc領域を介してFcRn、FcγR、補体など、様々な分子と相互作用している。FcのリガンドのひとつであるFcRnは抗体の各H鎖(重鎖)に対してそれぞれ1分子が結合しているため、1分子の抗体に対して2分子のFcRnが結合する(図1)。生体内においてFcRnは細胞膜上に発現しているため、生体内において抗体は各H鎖の同じ部分を介して対照的に2分子のFcRnを認識している(Nature, 372: 379-383, 1994)。また、IgGと同じ免疫グロブリンファミリーに属するIgAも、IgGとFcRnの関係と同様に、1分子のIgAが対称的に2分子のIgAレセプターであるFcαRを認識している(図2)(Nature, 423:614 - 620, 2003)。
抗体の各H鎖に異なる改変を導入したヘテロ二量化抗体を用いることにより、従来技術であるホモ二量化抗体と比べて、抗体とFcγRに対する結合活性をより最適化できるか検討した。
実施例2で示した通り、ヘテロ二量化抗体を用いることで、ホモ二量化抗体よりもFcγRに対する結合活性を増強させられることが明らかとなった。実施例2の改変を抗体の両H鎖に導入した場合には、むしろ天然型抗体よりもFcγRに対する結合活性が減少していた。この結果からは、ヘテロ二量化抗体に導入した改変が、一方のH鎖に導入されたときはFcγRに対する結合活性を増強するが、両鎖に導入した場合には、FcγRが結合した状態で、一方の鎖では改変後の残基が結合を増強するものの、もう一方の鎖ではFcγRとの相互作用を阻害していると考えられた。すなわち、図3のFcγRが図の奥側から結合している状態を「X方向からの結合」と呼び、それとは反対に図の表側からの結合を「Y方向からの結合」と呼ぶと、ホモ二量化抗体はX方向、Y方向の両方向からのFcγRに対する結合活性を等しく変化させるが、ヘテロ二量化抗体はX方向、Y方向のいずれか一方向からの結合に偏ってFcγRに対する結合活性を変化させていると考えられた。
実施例2より、抗体の2つのH鎖に異なる改変を加えることにより、2つのH鎖に同じ改変を加えるよりも、抗体のFc領域を介したFcγRに対する結合を増強することが可能であることを見出した。そこで、このような性質を持つ改変を見出すために、以下の実験を行った。
2. He/Con、Ho/Conの値が100以下である場合:その変異を導入したGpH7-B3 variantを含むヘテロ二量化抗体He Ab、ホモ二量化抗体Ho AbのFcγRに対する結合活性が、それぞれヘテロ二量化抗体のコントロール、ホモ二量化抗体のコントロールのFcγRに対する結合活性より弱いことを示す。
3. He/Con、Ho/Conの値が100以上を示す場合:その変異を導入したGpH7-B3 variantを含むヘテロ二量化抗体He Ab、ホモ二量化抗体Ho AbのFcγRに対する結合活性が、それぞれヘテロ二量化抗体のコントロール、ホモ二量化抗体のコントロールのFcγRに対する結合活性より強いことを示す。
4. He/Conの値がHo/Conの値より大きい場合:その変異を導入したGpH7-B3 variantを含むヘテロ二量化抗体He AbのFcγRに対する結合活性が、ホモ二量化抗体Ho AbのFcγRに対する結合活性より強いことを示す。
5. He/Conの値がHo/Conの値より小さい場合:変異を導入したGpH7-B3 variantを含むヘテロ二量化抗体He AbのFcγRに対する結合活性が、変異を導入したGpH7-B3 variantを含むホモ二量化抗体Ho AbのFcγRに対する結合活性より弱いことを示す。
なお、各表において、FcγRIa、FcγRIIa H、FcγRIIa R、FcγRIIb、FcγRIIIaに対する結合活性に関わるHe/ConをそれぞれHe/Con _1a、He/Con _2aH、He/Con _2aR、He/Con _2b、He/Con_3aとし、FcγRIa、FcγRIIa H、FcγRIIa R、FcγRIIb、FcγRIIIaに対する結合活性に関わるHo/ConをそれぞれHo/Con _1a、Ho/Con _2aH、Ho/Con _2aR、Ho/Con _2b、Ho/Con_3aとした。
実施例3で示したように、ヘテロ二量化抗体において、ある改変がFcγRに対する結合に及ぼす効果は、改変によって方向が異なる。そのため、ヘテロ二量化抗体において複数の改変を組み合わせてFcγRに対する結合を一層増強あるいは減弱させようとする場合には、各改変のFcγRとの結合に及ぼす効果の方向をそろえる必要がある。仮に二つの改変が抗体のFcγRに対する結合に及ぼす増強効果の方向が異なる状態で各改変を導入した場合、各改変の効果が互いに打ち消しあい、FcγRに対する結合増強改変を組み合わせたにもかかわらず、結合増強効果が観察されないと考えられる。しかし、通常は各改変をどちらのH鎖に導入すべきかを事前に見分ける方法がないため、適切な組み合わせ方法を見出すためには、目的の改変を同じH鎖あるいは異なるH鎖に導入した抗体を調製し、FcγRに対する結合活性を比較しなければならない。例えば、ホモ二量化抗体の場合、3種類の異なる改変を全て導入する際には、両H鎖に各改変を導入した抗体を一種類作製すればよい。しかし、ヘテロ二量化抗体の場合、各改変をいずれかのH鎖に導入するかを判断する必要がある。その場合、図22に示した通り、最大で4通りの組み合わせを試す必要がある。すなわち、改変の組み合わせの検討をする際に作製すべき改変体の数が多大になり、非効率的である。そこで抗体とFcγRの結合を一方向からのみ阻害するP329Rを、導入を検討する改変と組み合わせることでその改変が抗体とFcγRとの結合に影響を及ぼす方向を見出す方法を検討した。
実施例5の表7、表8、表9の結果から、単独でFcγRIIIaに対する結合活性を増強するヘテロ改変は、適切に組み合わせることで、FcγRIIIaへの結合をさらに増強することが可能であることが示された。具体的には、L234Y、G236W、S298Aは同じH鎖に改変を加えることで、FcγRに対する結合活性がより増強することが示された。
これまでにもFcγRIIIaに対する結合を増強することでADCC活性を増強する改変が知られている。例えば、S239D、I332E、A330Lの改変は両抗体のH鎖に導入した場合に、最もFcγRIIIaに対する結合を増強する改変であることが知られている(Proc. Natl. Acad. Sci. USA, 103, 4005-4010, 2006)。抗体依存的細胞障害(ADCC)活性が増強することで、抗体の抗腫瘍活性が増強することが示されており、抗体のFcγRIIIaに対する結合を増強することは抗体の医薬品としての有用性を高めるために有効な手段である。しかしながら、これまでの実施例で示されている通り、ホモ二量化抗体を用いたFcγRに対する結合活性の増強には限界があると考えられ、ヘテロ改変により、更なる増強が可能と考えられた。
FcγRは、ITAMをもつ活性型とITIMをもつ抑制型が存在する。代表的な活性型FcγR (Activating receptor)としてFcγRIa、FcγRIIa、FcγRIIIaが挙げられ、また代表的な抑制型FcγR(Inhibitory receptor)としてFcγRIIbが挙げられる。がんを標的にした抗体において、ADCC活性や抗体依存的細胞貪食(ADCP)活性を作用機序にもつ活性型FcγRに対する結合活性と抑制型FcγRに対する結合活性の比率が重要な役割を果たすと考えられている(Nature Medicine, 6: 443-446, 2000)。
抗体を医薬品として開発する際には、高度な物理化学的安定性を有することも期待される。例えば、上記で言及したS239D、A330L、I332Eを抗体の両鎖に導入した改変の場合、この改変を導入すると、抗体のFc領域が熱力学的に不安定になることが報告されており、熱安定性の低下は医薬品としての開発を困難にさせる(Molecular Immunology, 45, 1872-1882, 2008)。抗体の医薬品としての有用性および開発の容易さを高めるためには、FcγRに対する結合活性を増強する一方で、物理化学的な安定性を維持することも重要である。ホモ二量化抗体では改変を両H鎖に導入するために、1種類の改変を導入すると抗体1分子あたり2箇所改変を導入することになる。しかし、ヘテロ二量化抗体では各H鎖に対して改変を導入するか否か選択できるために、1種類の改変を導入するとしても抗体1分子あたりに1箇所改変を導入するのに留めることが可能である。実施例7で考察したように、改変の種類によってはFcγRIIIaに対する結合活性の増強効果に関しては一方のH鎖に導入すれば十分な場合がある。仮にその改変が抗体の物理化学的な安定性を減じる効果を持っていた場合には、一方のH鎖にのみその改変を導入することでFcγRIIIaに対する結合活性増強効果を付与する一方で、抗体の物理化学的な不安定化を最小限にとどめることが可能であると考えられる。
実施例9に記載したように、H鎖に改変を導入するとFcγRに対する結合活性を増強するが、CH2の物理化学的な安定性、すなわちTmを低下させる可能性がある。しかしながら、実施例9で述べたように、特に抗体を医薬品として用いる場合にはそのような性質は好ましくない。実施例9で述べたように、FcγRに対する結合活性を増強する一方で、CH2の不安定化を抑制するためには一方のH鎖のみに改変を導入するヘテロ二量化抗体を用いることが有用である。すなわち、図21のiiおよびiiiの領域に該当するような従来のホモ二量化抗体においてもFcγRに対する結合活性の増強が観察されていたにもかかわらず、ホモ二量化抗体においてはTmが低下してしまっている改変については、ヘテロ二量化することで天然型抗体と比べてFcγRに対する結合活性は増強した上に、ホモ二量化抗体よりもTmを向上させることが可能である。
実施例7で考察したように、ヘテロ二量化抗体を用いることで、従来のホモ二量化抗体技術によって創製された改変体よりもFcγRIIIaに対する結合活性を増強することに成功した。抗体はFcγRIIIaを介してNK細胞を誘導し、標的抗原を発現する細胞に対する抗体依存的細胞障害活性を発揮する。ヘテロ二量化抗体においてFcγRIIIaに対する結合活性だけでなく、ADCC活性も同様に増強していることを確認するために、実施例7の表13に記載したFcγRIIIaに対する結合活性が上昇したヘテロ二量化抗体、ホモ二量化抗体、および天然型IgG1について、参考実施例7の方法に従ってADCC活性を測定した。その結果を図31に示す。
実施例1で述べたように、FcγRIIIaは抗体医薬の薬効に置いて重要な役割を果たしていると考えられている。更に、FcγRIIIaに加えて、IgG1由来の抗体医薬の薬効において、FcγRIIaの果たす役割も注目されている。
実施例9にあるように、従来技術で得られたホモ二量化抗体はFcγRへの結合活性が増強しているものの、物理化学的に不安定であるため、医薬品としての価値を損ねていた。しかし、ヘテロ二量化抗体技術は各改変のFcγRに対する結合活性の増強効果と物理化学的な面での影響とを制御しやすく、FcγRに対する結合活性を増強しつつも物理化学的な安定性を損なわないことが可能であることが明らかとなった。この実施例では活性型FcγRであるFcγRIIaとFcγRIIIaに対する結合活性が増強した抗体についても同様に物理化学的な安定性、特に熱力学的安定性が減じていないか検証した。実施例11でFcγRに対する結合活性を評価した抗体について、参考実施例5の方法にしたがって各抗体のCH2領域のTmを測定し、その結果をに表39まとめた。
実施例8で述べたように、活性型FcγRおよび抑制型FcγRに対する選択性を向上させる技術は有用である。ここでは実施例8で見出した活性型FcγであるFcγRIIIa Fに対する結合と抑制型FcγRであるFcγRIIbに対する結合の比率を向上させるのに、すなわち選択性の向上にヘテロ二量化が有効であるか検証した。具体的には活性型FcγであるFcγRIIIa Fに対する結合と抑制型FcγRであるFcγRIIbに対する結合の比率を向上させる改変であるL234Y、G236W、S298A(表22-1領域a)と実施例7で検討したS239D、A330L、I332Eと組み合わせて、ヘテロ二量化抗体でホモ二量化抗体と比べて、選択性の向上の効果が得られるのかを検証した。
実施例12で調製したGpH7-G1d/GpL16-k0、GpH7-Kn033/GpH7-Hl033/GpL16-k0、GpH7-Kn037/GpH7-Hl036/GpL16-k0、GpH7-Kn032/GpH7-Hl032/GpL16-k0、GpH7-Kn045/GpH7-Hl048/GpL16-k0、GpH7-Kn056/GpH7-Hl055/GpL16-k0について、参考実施例7の方法にしたがってADCC活性を評価し、その結果を図33にまとめた。
また、実施例11で示したように、FcγRIIIaに対する結合活性を増強したヘテロ二量化抗体はADCC活性も増強していることが明らかとなった。実施例11では、GPC3に対する抗体において効果が確認されたが、他の抗原においても同様の効果が観察されるか確認するため、抗Epiregulin (EREG) 抗体を用いて同様の実験を行った。ここで、EREGに対する抗体のH鎖可変領域の配列をH240(配列番号:80)、可変領域、定常領域を含むL鎖の配列をL73-k0(配列番号:106)とする。
これらについて、参考実施例8の方法にしたがって、各FcgRに対する結合活性を評価し、その結果を表41にまとめた。
先の実施例16において、優れたADCC活性を示すH240-Kn061/H240-Hl071/L73-k0を見出した。更に優れた活性を有する改変体を見出すため、H240-Kn061/H240-Hl071/L73-k0をテンプレートとして、参考実施例1の方法にしたがって、H240-Kn061およびH240-Hl071の各H鎖のEUナンバリング231番目から242番目をそれぞれCysおよび元のアミノ酸以外の異なる18種類のアミノ酸に置換した改変体を合計約420種類調製し、各FcgRに対する結合を評価した。具体的には、参考実施例8に記載の方法にしたがって各改変体のFcgRI、FcgRIIa R、FcgRIIa H、FcgRIIb、FcgRIIIa F、FcgRIIIa Vに対するKD値をそれぞれ算出し、そのKD値でH240-Kn061/H240-Hl071/L73-k0の FcgRI、FcgRIIa R、FcgRIIa H、FcgRIIb、FcgRIIIa F、FcgRIIIa Vに対するKD値を割った値をRelative KDとし、評価の指標とした。すなわち、H240-Kn061/H240-Hl071/L73-k0のKD値を1とした場合に、各改変体の各FcgRに対するKD値が何倍変動したかを評価の指標とした。Relative KDが大きいほど、その改変体がH240-Kn061/H240-Hl071/L73-k0と比べて各FcgRに対する結合がより増強していることを示している。
これらの改変は抑制型FcgRであるFcgRIIbに対する結合を増強せず、ADCP活性に重要な役割を果たすFcgRIIaやADCC活性に重要な役割を果たすFcgRIIIaに対する結合を増強する効果がある。そのため、これらの改変を導入することで、抗体の免疫抑制的な作用を増強することなく、ADCC活性やADCP活性を増強させ、より強い抗腫瘍活性を発揮することが期待される。
これらの改変はADCC活性に重要な役割を果たすFcgRIIIaに対する結合を減弱することなく、改変によってはFcgRIIIaに対する結合を増強し、ADCP活性に重要な役割を果たすFcgRIIaに対する結合を増強する改変である。そのため、この改変を導入することで、ADCC活性およびADCP活性、ADCC活性またはADCP活性を増強させ、より強い抗腫瘍活性を発揮することが期待される。
これらの改変はADCC活性に重要な役割を果たすFcgRIIIaに対する結合を減弱することなく、抑制型FcgRであるFcgRIIbに対する結合を減弱させている。そのため、この改変を導入することで、ADCC活性を低減することなく、抗体の免疫抑制的な作用が低減されているため、より強い抗腫瘍活性を発揮することが期待される。
実施例17で得られた図35、図36、図37、図38、図39、図40の結果から、ヘテロ二量化抗体H240-Kn061/H240-Hl071/L73-k0のこれらの改変箇所をその他の改変に置き換えることが可能かを検証した。ここで、置換可能な改変とは、その改変を導入することで、導入前と比較して、FcgRIIIa FおよびFcgRIIIa Vに対する結合が0.7倍以上であり、FcgRIIbに対する結合が1.3倍以下であるような改変を指す。
次に、H240-Kn061/H240-Hl071を更に改良するために、ADCC活性を増強すると考えられるFcgRIIIaに対する結合を更に増強し、免疫抑制的なシグナルを通じて抗体の抗腫瘍活性を低減すると考えられるFcgRIIbに対する結合を更に減弱することを試みた。具体的には、実施例4で見出されたFcgRIIIaに対する結合を増強し、かつFcgRIIbに対する結合を減弱する改変であるD270EをH240-Kn061/H240-Hl071/L73-k0の両H鎖に導入した。H240-Kn061、H240-Hl071のそれぞれにD270Eを導入した配列をそれぞれH240-Kn072 (配列番号:90)、H240-Hl076 (配列番号:91)とし、実施例1の方法にしたがい、L73-k0と組み合わせヘテロ二量化抗体H240-Kn072/H240-Hl076/L73-k0を発現、調製した。この抗体と、H240-Kn033/H240-Hl033/L73-k0、H240-Kn032/H240-Hl032/L73-k0、H240-afucosyl_G1d/L73-k0、H240-Kn061/H240-Hl071/L73-k0とを、参考実施例8の方法にしたがって、各FcgRに対する結合活性を評価し、その結果を表50にまとめた。
この結果から、ヘテロ二量化抗体H240-Kn072/H240-Hl076/L73-k0は既存のADCC活性増強技術よりも強いADCC活性を有することに加えて、FcgRIIbに対する結合も減弱した既存技術よりも優れた抗体である。
実施例19において見出されたH240-Kn072/H240-Hl076/L73-k0の更なる改良を試みた。具体的には、実施例18において見出されたH240-Kn061/H240-Hl071/L73-k0に更に優れた性質をH240-Kn061に導入することで付与する改変Y234E、Y235N、Y235Q、S239Mを、H240-Kn072/H240-Hl076/L73-k0と組み合わせた。
各FcgRに対する結合プロファイル、および既存技術と比較したADCC活性の結果から、今回H240-Kn072/H240-Hl076/L73-k0のH240-Kn072に導入したY234E、Y235N、Y235Q、S239MはH240-Kn072/H240-Hl076/L73-k0により優れた性質を付与する改変であることが明らかとなった。
実施例4の結果をもとにH鎖にFcgRIIIaおよびFcgRIIaに対して結合を増強した改変体を作製した。具体的には、参考実施例1の方法にしたがってH240-Kn033(配列番号:84)にL234Y、L235Y、G236W、H268D、S298A、A327Dを導入し、H240-Kn067(配列番号:95)を作製し、H240-Hl033(配列番号:85)にD270E、K326D、A330K、K334Eを導入し、H240-Hl068(配列番号:96)を作製した。H240-Kn067、H240-Hl068、L73-k0を組み合わせて、参考実施例1の方法にしたがってヘテロ二量化抗体H240-Kn067/H240-Hl068/L73-k0を発現させた。
次に、参考実施例9にしたがって各改変体のADCC活性を既存のADCC活性増強技術であるアフコシル化抗体H240-afucosyl_G1d/L73-k0と比較した。その結果を図43に示す。
これまでKnobs-into-Holesを利用したヘテロ二量化抗体としてH240-Kn072/H240-Hl076/L73-k0の各FcgRに対する結合、ADCC活性を評価してきた。ここで、別のヘテロ二量化抗体作製技術であるD356K、H435RおよびK439Eを使った場合にも、異なる二つのH鎖から成るヘテロ二量化抗体がその各H鎖から成るホモ二量化抗体よりもFcgRに対する結合活性を増強するというヘテロ二量化抗体の特徴が同様に観察されるかを確認した。
実施例21で作製したH240-Kn120/H240-Hl068/L73-k0では、FcgRIIIaならびにFcgRIIa H型にくわえ、アロタイプであるFcgRIIa R型に対する結合活性の増強を果たしたが、抑制型レセプターであるFcgRIIbに対する結合活性の増強も同時に観察された。FcgRIIbに対する結合増強は、免疫抑制的な効果をもたらすと考えられるため、このFcgRIIbとの結合を低減させることで、本発明の目的であるADCC活性を一層増強させることができる可能性がある。
[Fc (Kn0120/Hl068) の発現精製]
Fc (Kn0120/Hl068) の調製は以下のように行った。まず、H240-Kn120(配列番号99)およびH240-Hl068 (配列番号96)のEUナンバリング220番目のCysをSerに置換し、EUナンバリング236番目のGluからそのC末端をPCRによってクローニングした遺伝子配列Fc (Kn0120)および Fc (Hl068)を参考例1に記載の方法にしたがって発現ベクターの作製、発現、精製を行った。なお、EUナンバリング220番目のCysは通常のIgG1においては、L鎖のCysとdisulfide bondを形成しているが、Fcのみを調製する場合、L鎖を共発現させないため、不要なdisulfide bond形成を回避するためにSerに置換した。
参考例8の方法にしたがって調製した。
結晶化用に得られたFcgRIIb細胞外領域サンプル 1.5mgに対し、glutathione S-transferaseとの融合蛋白として大腸菌により発現精製したEndo F1(Protein Science 1996, 5, 2617-2622) 0.15mgを加え、0.1M Bis-Tris pH6.5のBuffer条件で、室温にて3日間静置することにより、N型糖鎖をAsnに直接結合したN-acetylglucosamineを残して切断した。次にこの糖鎖切断処理を施したFcgRIIb細胞外領域サンプルを10000MWCOの限外ろ過膜により濃縮し、20mM HEPES pH7.5, 0.1M NaClで平衡化したゲルろ過カラムクロマトグラフィー(Superdex200 10/300)により精製した。さらに得られた糖鎖切断FcgRIIb細胞外領域画分にFc (Kn0120/Hl068) をモル比でFcgRIIb細胞外領域のほうが若干過剰となるよう加え、10000MWCOの限外ろ過膜により濃縮後、25mM HEPES pH7.5, 0.1M NaClで平衡化したゲルろ過カラムクロマトグラフィー(Superdex200 10/300)により精製し、Fc (Kn0120/Hl068) / FcgRIIb細胞外領域複合体のサンプルを得た。
Fc (Kn120/Hl068) / FcgRIIb細胞外領域複合体のサンプルを10000MWCOの限外ろ過膜により約10mg/mlまで濃縮し、ハンギングドロップ蒸気拡散法にてSeeding法を併用しつつ結晶化をおこなった。結晶化にはVDXmプレート(Hampton Research)を用い、0.1M Bis-Tris pH6.0, 14.4% PEG3350, 0.2M Ammonium Sulfatecのリザーバー溶液に対し、リザーバー溶液:結晶化サンプル=0.85μl:0.85μlで混合して結晶化ドロップを作成、さらに同様な条件で得られた同複合体の結晶からSeeding Tool(Hampton Research)を用いて種結晶を移植するStreak Seedingをおこない、20℃に静置したところ、柱状の結晶を得ることに成功した。
得られたFc (Kn120/Hl068) / FcgRIIb細胞外領域複合体の単結晶一つを0.1M Bis-Tris pH6.0, 17.5% PEG3350, 0.2M Ammonium Sulfate, Glycerol 16%(v/v) の溶液に浸した後、微小なナイロンループ付きのピンで溶液ごとすくいとり、液体窒素中で凍結させ、高エネルギー加速器研究機構の放射光施設フォトンファクトリーBL-17AにてX線回折データの測定をおこなった。なお、測定中は常に-178℃の窒素気流中に置くことで凍結状態を維持し、ビームライン備え付けのCCDディテクタQuantum 315r (ADSC)により、結晶を0.5°ずつ回転させながらトータル360枚のX線回折画像を収集した。得られた回折画像からの格子定数の決定、回折斑点の指数付け、ならびに回折データの処理には、プログラムXia2(J. Appl. Cryst. 2010, 43, 186-190)、XDS Package(Acta Cryst. 2010, D66, 125-132)ならびにScala(Acta Cryst. 2006, D62, 72-82)を用い、最終的に分解能2.78Åまでの回折強度データを得た。本結晶は、空間群P41212に属し、格子定数a=152.94Å、b=152.94Å、c=82.24Å、α=90°、β=90°、γ=90°であった。
構造決定は、プログラムPhaser(J. Appl. Cryst. 2007, 40, 658-674)を用いた分子置換法によりおこなった。得られた結晶格子の大きさとFc (Kn120/Hl068) / FcgRIIb細胞外領域複合体の分子量から非対称単位中の複合体の数は一個と予想された。Fc(WT) / FcgRIIIa細胞外領域複合体の結晶構造であるPDB code:3SGJの構造座標から、A鎖239-340番ならびにB鎖239-340番のアミノ酸残基部分を別座標として取り出し、それぞれをFc CH2ドメインの探索用モデルとした。同じくPDB code:3SGJの構造座標から、A鎖341-444番とB鎖341-443番のアミノ酸残基部分を一つの座標として取り出し、Fc CH3ドメインの探索用モデルとした。最後にFcgRIIb細胞外領域の結晶構造であるPDB code:2FCB の構造座標からA鎖6-178番のアミノ酸残基部分を取り出しFcgRIIbの探索用モデルとした。Fc CH3ドメイン、FcgRIIb細胞外領域、Fc CH2ドメインの各探索用モデルの結晶格子内での向きと位置を、回転関数および並進関数から決定し、Fc (Kn120/Hl068) / FcgRIIb細胞外領域複合体結晶構造の初期モデルを得た。得られた初期モデルに対し2つのFcのCH2ドメイン、2つのFcのCH3ドメインならびにFcgRIIb細胞外領域を動かす剛体精密化をおこなったところ、この時点で25-3.0Åの回折強度データに対し、結晶学的信頼度因子R値は41.4%、Free R値は42.6%となった。さらにプログラムREFMAC5(Acta Cryst. 2011, D67, 355-367)を用いた構造精密化と、実験的に決定された構造因子Foとモデルから計算された構造因子Fcならびにモデルから計算された位相をもとに算出した2Fo-Fc、Fo-Fcを係数とする電子密度マップを見ながらのモデル修正をプログラムCoot(Acta Cryst. 2010, D66, 486-501)でおこない、これらを繰り返すことでモデルの精密化をおこなった。最後に2Fo-Fc、Fo-Fcを係数とする電子密度マップをもとに水分子をモデルに組み込み、精密化をおこなうことで、最終的に分解能25-2.78Åの24274個の回折強度データを用い、4964個の非水素原子を含むモデルに対し、結晶学的信頼度因子R値は22.8%、Free R値は27.7%となった。
実施例21で見出された改変体H240-Kn120/H240-Hl068/L73-k0はADCP活性に重要なFcgRIIaR, FcgRIIaHに対する結合活性が増強されると共に、抑制型のFcgRIIbに対する結合活性も天然型IgG1と比較して約50倍増強されていた。高いADCP活性を示すためには、抑制型FcgRIIbに対する結合活性を可能な限り低減できることが好ましい。そこで、活性型FcgRIIaR, FcgRIIaHへの結合活性を維持したままFcgRIIbへの結合活性を低減できる改変を探索した。実施例23に示したように、H240-Kn120/H240-Hl068/L73-k0のFcとFcgRIIb細胞外領域の複合体の結晶構造解析結果から、FcgRIIbのTyr160とFc(Kn120/Hl068)のCH2ドメインAに存在するGly236の主鎖カルボニル酸素との間で水素結合が形成されていることが示された。FcgRIIaR, FcgRIIaHにおいてはこの部位がPhe160となっており、上述の相互作用は存在しないと考えられるため、Gly236に改変を導入し、FcgRIIbのTyr160との相互作用を消失させることができれば、FcgRIIa R型に対する結合活性は維持しつつも、FcgRIIbに対する結合活性を低下させる、すなわちFcgRIIbに対して選択的に結合活性を低減できる可能性がある。具体的には、H240-Kn120/H240-Hl068/L73-k0とFcgRIIbとの結合においてFcgRIIbのY160と相互作用しているH240-Hl068に由来するH鎖存在するG236を、Ser, Val, Ile, Thrに置換することで、G236を反転させ、ループ構造を変化させ、Y160との相互作用を消失させることができないかと考えた。また、FcgRIIbのLys127とFc(Kn120/Hl068)のCH2ドメインAのE294とは、遠位ながらも静電相互作用している可能性がある。従って、E294を正電荷をもつLys、Argに置換することで、静電反発を誘起し、FcgRIIbとの相互作用を減弱できる可能性があると考えた。
これらの改変体に対してさらに、I332EおよびY235Nを導入したH240-Kn192/H240-Hl204/L73-k0、およびH240-Kn193/H240-Hl204/L73-k0はいずれも改変導入前のH240-Kn179/H240-Hl089/L73-k0、およびH240-Kn180/H240-Hl089/L73-k0と比較してFcgRIIaR, FcgRIIaH、FcgRIIbへの結合を維持したままFcgRIIIaFへの結合を2倍に、またFcgRIIIaVへの結合を約8倍向上させることができた。
実施例24においてH240-Kn120/H240-Hl068/L73-k0に対して改変を導入することで、FcgRIIaR, FcgRIIaHに対する結合を維持または増強し、抑制型FcgRIIbに対する結合活性を低減した改変体を作製した。本検討では、活性型のFcgRであるFcgRIIaR, FcgRIIaH, FcgRIIIaF, FcgRIIIaVに対する結合活性の増強を試みた。
参考実施例1の方法に従ってH240-Kn120にL328Wを導入したH240-Kn138(配列番号116)、I332Qを導入したH240-Kn173(配列番号117)、K334Yを導入したH240-Kn178(配列番号118)、L328Aを導入したH240-Kn166(配列番号119)、I332Mを導入したH240-Kn172(配列番号120)、L328WとK334Lを導入したH240-Kn149(配列番号121)を作製した。またもう一方のH鎖として、H240-Hl068にL328Wを導入したH240-Hl147(配列番号122)、L328Aを導入したH240-Hl170(配列番号123)、I332Eを導入したH240-Hl174(配列番号124)、I332Tを導入したH240-Hl150(配列番号125)、A231Hを導入したH240-Hl182(配列番号126)、I332Qを導入したH240-Hl177(配列番号127)を作製した。参考実施例1の方法に従い、片方のH鎖としてH240-Kn138(配列番号116)、H240-Kn173(配列番号117)、H240-Kn178(配列番号118)H240-Kn149(配列番号121)、H240-Kn166(配列番号119)、H240-Kn172(配列番号120)を、またもう一方のH鎖としてH240-Hl170(配列番号123)、H240-Hl150(配列番号125)、H240-Hl174(配列番号124)、H240-Hl182(配列番号126)、H240-Hl147(配列番号122)、H240-Hl177(配列番号127)を、L鎖としてL73-k0(配列番号106)を用いてH240-Kn120/H240-Hl170/L73-k0、H240-Kn120/H240-Hl150/L73-k0、H240-Kn138/H240-Hl068/L73-k0、H240-Kn120/H240-Hl174/L73-k0、H240-Kn173/H240-Hl068/L73-k0、H240-Kn178/H240-Hl068/L73-k0、H240-Kn120/H240-Hl182/L73-k0、H240-Kn138/H240-Hl147/L73-k0、H240-Kn166/H240-Hl170/L73-k0、H240-Kn172/H240-Hl177/L73-k0、H240-Kn149/H240-Hl068/L73-k0を調製した。これらの改変体のFcgRに対する結合を参考実施例8の方法に従って評価した結果を表60に示す。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Hl068に対してL328Aを導入したH240-Kn120/H240-Hl170/L73-k0はH240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaR, FcgRIIaHに対する結合活性が2.3倍向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Hl068に対してI332Tを導入したH240-Kn120/H240-Hl150/L73-k0はH240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaRに対する結合活性を維持したままFcgRIIaHに対する結合活性が1.2倍向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Kn120にL328Wを導入したH240-Kn138/H240-Hl068/L73-k0はH240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaRに対する結合活性を維持したまま、FcgRIIaHに対する結合活性が1.6倍に向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Hl068に対してI332Eを導入したH240-Kn120/H240-Hl174/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIIaFに対する結合活性が4.3倍、FcgRIIIaVに対する結合活性が10倍向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Kn120に対してI332Qを導入したH240-Kn173/H240-Hl068/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIIaVに対する結合活性を維持したままFcgRIIIaFに対する結合活性を1.2倍向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Kn120に対してK334Yを導入したH240-Kn178/H240-Hl068/L73-k0はH240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIIaFに対する結合活性が1.6倍に、FcgRIIIaVに対する結合活性が1.9倍に向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Hl068に対してA231Hを導入したH240-Kn120/H240-Hl182/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIIaVに対する結合活性が1.2倍に向上した。
H240-Kn120/H240-Hl068/L73-k0の両方のH鎖にL328Wを導入したH240-Kn138/H240-Hl147/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaRに対する結合活性が1.8倍に向上した。
H240-Kn120/H240-Hl068/L73-k0の両方のH鎖にL328Aを導入したH240-Kn166/H240-Hl170/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaHに対する結合活性が1.9倍に向上した。
H240-Kn120/H240-Hl068/L73-k0の片方のH鎖であるH240-Kn120にI332Mを、もう一方のH鎖であるH240-Hl068に対してI332Qを導入したH240-Kn172/H240-Hl177/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIIaFに対する結合活性を維持したままFcgRIIIaVに対する結合活性が1.6倍向上した。
H240-Kn120/H240-Hl068/L73-k0の一方のH鎖であるH240-Kn120にL328W, K334Lを導入したH240-Kn149/H240-Hl068/L73-k0は、H240-Kn120/H240-Hl068/L73-k0と比較してFcgRIIaR, FcgRIIIaVに対する結合活性を維持したまま、FcgRIIaHに対する結合活性が1.6倍向上した。
以上の結果からこれらの改変体はH240-Kn120/H240-Hl068/L73-k0と比較して高いADCP活性もしくはADCC活性を有すると考えられた。
ヒトでは、FcγRのタンパク質ファミリーには、FcγRIa (CD64A)、FcγRIIa (CD32A)、FcγRIIb (CD32B)、FcγRIIIa (CD16A)、FcγRIIIb (CD16B)のアイソフォームが報告されており、それぞれのアロタイプも報告されている(Immunol Lett, 82(1-2), 57-65, 2002)。FcγRIa、FcγRIIa、FcγRIIIaは免疫活性的な機能を有するため活性型FcγRと呼ばれ、FcγRIIbは免疫抑制的な機能を有し、抑制型FcγRと呼ばれる(Nat Rev Immunol, 10, 328-343, 2010)。
これらのことから、FcγRIIbに対する結合活性を向上させたFcを持つ抗体が自己免疫疾患等の炎症性疾患の治療薬として有望であることが示唆される。
すなわち、FcgRIIaに対する結合を増強すると、血小板凝集を介した血栓形成のリスクを上昇させてしまい、また抗原性が高くなり、抗抗体産生のリスクを高めてしまうという点で、医薬品としての価値を著しく減じてしまう。
これに対して、これまでにFc領域にアミノ酸改変を導入することで、FcγRIIbに対する結合の選択性を上昇させた例が報告されている(Mol Immunol, 40, 585-593, 2003)。しかし、この文献中で報告されているFcγRIIbに対する選択性が改善したとされるいずれの変異体においても、天然型IgG1と比べてFcγRIIbに対する結合が減少していた。そのため、これらの変異体が実際にFcγRIIbを介した免疫抑制的な反応をIgG1以上に引き起こすことは困難であると考えられる。
また先に述べたアゴニスト抗体においてもFcgRIIbは重要な役割を果たしているため、その結合活性の増強をすることで、アゴニスト活性の増強も期待される。しかしながら、FcgRIIaに対する結合も同様にして増強してしまうと、目的としないADCC活性やADCP活性などを発揮してしまい、副作用が出てしまう恐れがある。そのような観点からも、FcgRIIbに対して選択的に結合活性を増強できることが好ましい。
〔式1〕
Req:a plot of steady state binding levels against analyte concentration
C: concentration
RI:bulk refractive index contribution in the sample
Rmax:analyte binding capacity of the surface
〔式2〕
この式にRmax、RI、Cの値を代入することで、KDを算出することが可能である。RI、Cについては測定結果のセンサーグラム、測定条件から値を求めることができる。Rmaxの算出については、以下の方法にしたがった。その測定回に同時に評価した比較対象となる相互作用が十分強い抗体について、上記の1:1 Langmuir binding modelでglobal fittingさせた際に得られたRmaxの値を、比較対象となる抗体のセンサーチップへのキャプチャー量で除し、評価したい改変抗体のキャプチャー量で乗じて得られた値をRmaxとした。
Fc (BP208)の調製は以下のように行った。まず、IL6R-BP208のEUナンバリング220番目のCysをSerに置換し、EUナンバリング236番目のGluからそのC末端をPCRによってクローニングした遺伝子配列Fc(BP208)を参考例1に記載の方法にしたがって発現ベクターの作製、発現、精製を行った。なお、EUナンバリング220番目のCysは通常のIgG1においては、L鎖のCysとdisulfide bondを形成しているが、Fcのみを調製する場合、L鎖を共発現させないため、不要なdisulfide bond形成を回避するためにSerに置換した。
参考例8の方法にしたがって調製した。
結晶化用に得られたFcgRIIb細胞外領域サンプル 1.5mgに対し、glutathione S-transferaseとの融合蛋白として大腸菌により発現精製したEndo F1(Protein Science 1996, 5, 2617-2622) 0.15mgを加え、0.1M Bis-Tris pH6.5のBuffer条件で、室温にて3日間静置することにより、N型糖鎖をAsnに直接結合したN-acetylglucosamineを残して切断した。次にこの糖鎖切断処理を施したFcgRIIb細胞外領域サンプルを5000MWCOの限外ろ過膜により濃縮し、20mM HEPES pH7.5, 0.1M NaClで平衡化したゲルろ過カラムクロマトグラフィー(Superdex200 10/300)により精製した。さらに得られた糖鎖切断FcgRIIb細胞外領域画分にFc (BP208) をモル比でFcgRIIb細胞外領域のほうが若干過剰となるよう加え、10000MWCOの限外ろ過膜の限外ろ過膜により濃縮後、25mM HEPES pH7.5, 0.1M NaClで平衡化したゲルろ過カラムクロマトグラフィー(Superdex200 10/300)により精製し、Fc (BP208) / FcgRIIb細胞外領域複合体のサンプルを得た。
Fc (BP208) / FcgRIIb細胞外領域複合体のサンプルを10000MWCOの限外ろ過膜 により約10mg/mlまで濃縮し、ハンギングドロップ蒸気拡散法にてSeeding法を併用しつつ結晶化をおこなった。結晶化にはVDXmプレート(Hampton Research)を用い、0.1M Bis-Tris pH6.5、19% PEG3350, 0.2M Potassium Phosphate dibasicのリザーバー溶液に対し、リザーバー溶液:結晶化サンプル=0.85μl:0.85μlで混合して結晶化ドロップを作成、そこに同様な条件で得られた同複合体の結晶をSeed Bead(Hampton Research)を用いて砕いた種結晶溶液から作成した希釈溶液0.15ulを添加し、リザーバーの入ったウェルに密閉、20℃に静置したところ、板状の結晶を得ることに成功した。
得られたFc (BP208) / FcgRIIb細胞外領域複合体の単結晶一つを0.1M Bis-Tris pH6.5, 24% PEG3350, 0.2M Potassium Phosphate dibasic, Ethlene glycol 20%(v/v) の溶液に浸した後、微小なナイロンループ付きのピンで溶液ごとすくいとり、液体窒素中で凍結させ、Spring-8のBL32XUにてX線回折データの測定をおこなった。なお、測定中は常に-178℃の窒素気流中に置くことで凍結状態を維持し、ビームライン備え付けのCCDディテクタMX-225HE(RAYONIX) により、結晶を0.6°ずつ回転させながらトータル300枚のX線回折画像を収集した。得られた回折画像からの格子定数の決定、回折斑点の指数付け、ならびに回折データの処理には、プログラムXia2(J. Appl. Cryst. 2010, 43, 186-190)、XDS Package(Acta Cryst. 2010, D66, 125-132)ならびにScala(Acta Cryst. 2006, D62, 72-82)を用い、最終的に分解能2.81Åまでの回折強度データを得た。本結晶は、空間群C2221に属し、格子定数a=156.69Å、b=260.17Å、c=56.85Å、α=90°、β=90°、γ=90°であった。
構造決定は、プログラムPhaser(J. Appl. Cryst. 2007, 40, 658-674)を用いた分子置換法によりおこなった。得られた結晶格子の大きさとFc (BP208) / FcgRIIb細胞外領域複合体の分子量から非対称単位中の複合体の数は一個と予想された。Fc(WT) / FcgRIIIa細胞外領域複合体の結晶構造であるPDB code:3SGJの構造座標から、A鎖239-340番ならびにB鎖239-340番のアミノ酸残基部分を別座標として取り出し、それぞれをFcのCH2ドメインの探索用モデルとした。同じくPDB code:3SGJの構造座標から、A鎖341-444番とB鎖341-443番のアミノ酸残基部分を一つの座標として取り出し、Fc CH3ドメインの探索用モデルとした。最後にFcgRIIb細胞外領域の結晶構造であるPDB code:2FCB の構造座標からA鎖6-178番のアミノ酸残基部分を取り出しFc (BP208) の探索用モデルとした。Fc CH3ドメイン、FcgRIIb細胞外領域、Fc CH2ドメインの各探索用モデルの結晶格子内での向きと位置を、回転関数および並進関数から決定しようとしたところ、CH2ドメインのひとつについてはその位置決定がうまくいかなかった。そこで残りの3つの部分から計算された位相をもとに計算した電子密度マップに対し、Fc(WT) / FcgRIIIa細胞外領域複合体の結晶構造構造を参考にしながら最後のCH2ドメインAの位置を決定、Fc (BP208) / FcgRIIb細胞外領域複合体結晶構造の初期モデルを得た。得られた初期モデルに対し2つのFcのCH2ドメイン、2つのFcのCH3ドメインならびにFcgRIIb細胞外領域を動かす剛体精密化をおこなったところ、この時点で25-3.0Åの回折強度データに対し、結晶学的信頼度因子R値は42.6%、Free R値は43.7%となった。さらにプログラムREFMAC5(Acta Cryst. 2011, D67, 355-367)を用いた構造精密化と、実験的に決定された構造因子Foとモデルから計算された構造因子Fcならびにモデルから計算された位相をもとに算出した2Fo-Fc、Fo-Fcを係数とする電子密度マップを見ながらのモデル修正をプログラムCoot(Acta Cryst. 2010, D66, 486-501)でおこない、これらを繰り返すことでモデルの精密化をおこなった。最後に2Fo-Fc、Fo-Fcを係数とする電子密度マップをもとに水分子をモデルに組み込み、精密化をおこなうことで、最終的に分解能25-2.81Åの27259個の回折強度データを用い、4794個の非水素原子を含むモデルに対し、結晶学的信頼度因子R値は24.4%、Free R値は27.9%となった。
〔式1〕
Req:a plot of steady state binding levels against analyte concentration
C: concentration
RI:bulk refractive index contribution in the sample
Rmax:analyte binding capacity of the surface
〔式2〕
この式にRmax、RI、Cの値を代入することで、KDを算出することが可能である。RI、Cについては測定結果のセンサーグラム、測定条件から値を求めることができる。Rmaxの算出については、以下の方法にしたがった。その測定回に同時に評価した比較対象となる相互作用が十分強い抗体について、上記の1:1 Langmuir binding modelでglobal fittingさせた際に得られたRmaxの値を、比較対象となる抗体のセンサーチップへのキャプチャー量で除し、評価したい改変抗体のキャプチャー量で乗じて得られた値をRmaxとした。
[残基置換部位の選択]
ヘテロ二量化抗体の製造において二種類のH鎖(それぞれをA鎖およびB鎖とする)を共発現させた場合、各H鎖であるA鎖が二量体化したホモ二量化抗体およびB鎖が二量化したホモ二量化抗体と、異なる二つのH鎖であるA鎖、B鎖が二量化したヘテロ二量化抗体が生成する。目的とするヘテロ二量化抗体を効率的に分離精製する手法として、各々の可変領域についてアミノ酸残基を置換し、抗体の等電点およびイオン交換カラムでの保持能と分離能を制御する方法が知られている(WO2007/114325)。しかしながら、可変領域、特にCDR領域は抗体毎に配列が異なることから、該当技術の汎用性には限界があると考えられる。そこで、ヘテロ二量化抗体精製のためのより汎用的な抗体残基置換手法として、抗体の定常領域のみの残基置換により、等電点およびイオン交換カラムでの保持能と分離能を制御する方法が検討された。
Epibase Light (Lonza)はFASTER algorism (Expert Opin Biol Ther. 2007 Mar;7(3):405-18.)を用いて、9-merペプチドとmajor DRB1アレルとの結合能を計算するin silicoツールである。本ツールはMHC classIIに対する強い結合および中程度の結合となるT-cell epitopeを同定することができる。
計算にはDRB1アロタイプの存在比が反映され、これには以下に示すCaucasianにおける存在比が使用できる。
DRB1*1501(24.5%)、DRB1*0301(23.7%)、DRB1*0701(23.3%)、DRB1*0101(15.0%)、DRB1*1101(11.6%)、DRB1*1302(8.2%)、DRB1*1401/1454(4.9%)、DRB1*0901(2.3%)、DRB1*1502(0.5%)、DRB1*1202(0.1%)
初めに、H240-AK072/H240-BH076/L73-k0の改変抗体のcDNAを作製するため、H240-AK072またはH240-BH076を鋳型として、選択された各アミノ酸残基が変異するようデザインされた合成オリゴDNAがそれぞれ設計された。次に、各合成オリゴDNAを使って、参考実施例1の方法にしたがい、目的の遺伝子を含む動物細胞発現ベクターを作製した。
H240-AK072/H240-BH076/L73-k0の改変抗体を評価するため、H240-AK072またはH240-BH076に改変を導入した各H鎖(H240-AK072に改変を導入したH鎖をA鎖、H240-BH076に改変を導入したH鎖をB鎖と呼ぶ)およびL鎖(L73-k0、配列番号:106)を任意の組み合わせで共発現させることによって、参考実施例1の方法にしたがい、A鎖およびB鎖が任意の組み合わせとなるような改変抗体が得られた。代表的なA鎖およびB鎖の配列番号を表71に示した。
[陽イオン交換クロマトグラフィーによる保持時間差の測定]
各抗体について、下記の条件で測定が実施された。
Mobile phase A: 20 mM MES-NaOH, pH6.0
Mobile phase B: 20 mM MES-NaOH, 200 mM NaCl, pH6.0
Column: Bio Pro SP-F (YMC)
Flow rate: 0.5 mL/min
Gradient: 10%B(0-5 min), 10-60%B(5-55 min)
Detection: Abs. 280 nm
ACQUITY UPLC H-Class system(Waters)を用いたSEC分析により、精製抗体中の会合体含有量が評価された。移動相には300 mMの塩化ナトリウムを含む50 mMリン酸緩衝液, pH7.0(伊勢久)を、分析カラムにはBEH200 SEC(waters)を用い、215 nmの波長で測定が行われた。Empower2(Waters)を用いてデータ解析を実施し、単量体よりも高分子量側に溶出した成分を一括して会合体としてその含有量が算出された。表72は各種改変体の評価結果を示す。これより、各種改変体は改変前のH240-AK072/H240-BH076/L73-k0に比べ、大幅に会合体量が増加しているものはなく、会合化に関する安定性が確保されていると考えられた。
Rotor-Gene Q(QIAGEN)を用いた示査走査型蛍光定量法を用いて抗体の熱変性中点(Tm)を測定することにより熱安定性が評価された。なお、本手法は、抗体の熱安定性評価法として広く知られている示査走査型熱量計を用いたTm評価と良好な相関を示すことが既に報告されている(Journal of Pharmaceutical Science 2010 ; 4 : 1707-1720)。
5000倍濃度のSYPRO orange(Molecular Probes)をPBS(Sigma)により希釈後、抗体溶液と混和することにより測定サンプルが調製された。各サンプルを20 μLずつ測定用チューブにセットし、30℃から99℃まで温度を上昇させた。0.4℃昇温して約6秒静止後に蛍光強度が470 nm(励起波長)/ 555 nm(蛍光波長)において検出された。
データはRotor-Gene Q Series Software(QIAGEN)を用いて蛍光遷移が認められた温度を算出し、この値がTm値とされた。Molecular Immunology 37 (2000) 697-706等で報告されているように、CH2ドメインのTm値はFirst transition に該当するTm1とした。一方、検討した抗体ではCH3とFabのTm値が近く、これらを分離した比較をすることが困難であると判断し、本評価に用いるTm値はTm1の値を採用した。表72は各種改変体の評価結果を示す。これより、各種改変体は改変前のH240-AK072/H240-BH076/L73-k0に比べ、大幅にTm値が低下しているものはなく、構造的な安定性が維持されていると考えられた。
AKTA avant25 (GE healthcare)を用いたイオン交換クロマトグラフィー精製法において、各検体の分離が評価された。移動相には20 mM MES緩衝液, pH6.0ならびに500 mMの塩化ナトリウムを含む20 mM MES緩衝液, pH6.0を、カラムはHi Trap SP HP 1mL (GE healthcare)を用い、2液混合グラジエント法により精製が実施された。精製データの取得は280 nmの波長で実施し、Unicorn6.1 (GE healthcare)を用いて溶出結果が評価された。図54はH240-FA021/H240-BF084/L73-k0改変体の評価結果を示す。これより、ラージスケールで使用されるカラム担体を用いた精製により、本検討において新規に見出された残基置換を導入することで、ホモ二量化抗体とヘテロ二量化抗体が分離精製可能であることが示された。
[表面プラズモン散乱法によるFcγRに対する結合活性の評価]
参考実施例8の方法にしたがって、目的の抗体とFcgRとの相互作用解析が行われた。
各種改変体の評価結果を表73に示した。これより、図54で分離が確認されたH240-FA021/H240-BF084/L73-k0改変体のFcγRへの結合能は改変前のH240-AK072/H240-BH076/L73-k0と同等であることが示された。
臨床における抗体医薬品の有用性と薬効は抗医薬品抗体(ADAs)により制限される。ADAsは抗体医薬品の薬効および動態に影響を及ぼし、時に重篤な副作用をもたらすことがある。免疫原性に影響する因子は多数報告されているが、特にT cell epitopeが抗原に含まれることが重要であるとされる。このT cell epitopeを予測するin silicoツールとしてはEpibase(Lonza)、iTope/TCED(Antitope)およびEpiMatrix(EpiVax)等が利用可能である。これらのツールを用いることで目的とするタンパク質に存在するT CELL EPITOPEを含む配列を予測できることが報告されている(Expert Opin Biol Ther. 2007 Mar;7(3):405-18.)。
Epibase Light (Lonza)はFASTER algorism (Expert Opin Biol Ther. 2007 Mar;7(3):405-18.)を用いて、9-merペプチドとmajor DRB1アレルとの結合能を計算するin silicoツールである。本ツールはMHC classIIに対する強い結合および中程度の結合となるT cell epitopeを同定することができる。
(式4)
免疫原性スコア = Sum (each DRB1 allotype population frequency X number of critical epitopes)
計算にはDRB1アロタイプの存在比が反映され、これには以下に示すCaucasianにおける存在比が使用できる。
DRB1*1501(24.5%)、DRB1*0301(23.7%)、DRB1*0701(23.3%)、DRB1*0101(15.0%)、DRB1*1101(11.6%)、DRB1*1302(8.2%)、DRB1*1401/1454(4.9%)、DRB1*0901(2.3%)、DRB1*1502(0.5%)、DRB1*1202(0.1%)
アミノ酸置換の導入はQuikChange Site-Directed Mutagenesis Kit(Stratagene)、PCRまたはIn fusion Advantage PCR cloning kit (TAKARA)等を用いて当業者公知の方法で行い、発現ベクターを構築した。得られた発現ベクターの塩基配列は当業者公知の方法で決定した。作製したプラスミドをヒト胎児腎癌細胞由来HEK293H株(Invitrogen)、またはFreeStyle293細胞(Invitrogen社)に、一過性に導入し、抗体の発現を行った。得られた培養上清から、rProtein A SepharoseTM Fast Flow(GEヘルスケア)を用いて当業者公知の方法で、抗体を精製した。精製抗体濃度は、分光光度計を用いて280 nmでの吸光度を測定し、得られた値からPACE法により算出された吸光係数を用いて抗体濃度を算出した(Protein Science 1995 ; 4 : 2411-2423)。
FcgRの細胞外ドメインを以下の方法で調製した。まずFcgRの細胞外ドメインの遺伝子の合成を当業者公知の方法で実施した。その際、各FcgRの配列はNCBIに登録されている情報に基づき作製した。具体的には、FcgRIについてはNCBIのaccession # NM_000566.3の配列、FcgRIIaについてはNCBIのaccession # NM_001136219.1の配列、FcgRIIbについてはNCBIのaccession # NM_004001.3の配列、FcgRIIIaについてはNCBIのaccession # NM_001127593.1の配列、FcgRIIIbについてはNCBIのaccession # NM_000570.3の配列に基づいて作製し、C末端にHisタグを付加した。またFcgRIIa、FcgRIIIa、FcgRIIIbについては多型が知られているが、多型部位についてはFcgRIIaについてはJ. Exp. Med., 1990, 172: 19-25、FcgRIIIaについてはJ. Clin. Invest., 1997, 100 (5): 1059-1070, FcgRIIIbについてはJ. Clin. Invest., 1989, 84, 1688-1691を参考にして作製した。
抗体H鎖可変領域として、次のものが使用された。Q153(抗ヒトF.IX抗体のH鎖可変領域、配列番号:61)、Q407(抗ヒトF.IX抗体のH鎖可変領域、配列番号:62)、J142(抗ヒトF.X抗体のH鎖可変領域、配列番号:63)、J300(抗ヒトF.X抗体のH鎖可変領域、配列番号:64)、MRA-VH(抗ヒトインターロイキン-6受容体抗体のH鎖可変領域、配列番号:65)。
MRA-G1d/MRA-k
MRA-z106/MRA-z107/MRA-k
Q153-G4d/J142-G4d/L180-k
Q153-G4d/J142-z72/L180-k
Q153-z7/J142-z73/L180-k
Q407-z106/J300-z107/L210-k
Q153-G4d/J142-G4d/L180-k及びQ153-G4d/J142-z72/L180-kを一過性に発現させ得られたFreeStyle293細胞培養液(以下CMと略す)を試料として、プロテインAアフィニティクロマトグラフィーの溶出条件を検討した。D-PBSで平衡化したrProtein A Sepharose Fast Flowカラム(GE Healthcare)に、φ0.22μmフィルターで濾過したCMを負荷し、表75に示す洗浄1、2、溶出1~5を段階的に実施した。カラムに負荷する抗体量が20 mg/mL resineになるようにCMの負荷量を調節した。各条件の溶出画分を分取し、陽イオン交換クロマトグラフィー分析により、各溶出画分に含まれている成分を同定した。コントロールには各CMをrProtein G Sepharose Fast Flow樹脂 (GE Healthcare)に負荷し、バッチで溶出することにより精製した試料を用いた。プロテインGは抗体のFab部分に結合するため、プロテインGを用いることで、プロテインAへの結合活性とは無関係に、CM中に存在する全ての抗体(目的の2種類のH鎖がヘテロ会合化した二重特異性抗体(ヘテロ抗体)、及び、不純物の1種類のH鎖がホモ会合化した単特異性のホモ抗体)を精製することが可能である。
下記に示す抗体のCMを試料として用いた。
・Q153-G4d/J142-G4d/L180-k
・Q153-G4d/J142-z72/L180-k
・Q153-z7/J142-z73/L180-k
・Q407-z106/J300-z107/L210-k
本検討では、Rotor-Gene Q(QIAGEN)を用いた示査走査型蛍光定量法を用いて改変抗体のTmを評価した。なお、本手法は、抗体の熱安定性評価法として広く知られている示唆走査型熱量計を用いたTm評価と良好な相関を示すことが既に報告されている(Journal of Pharmaceutical Science 2010 ; 4 : 1707-1720)。
本実施例中の抗体に関して加速試験を実施し、保存安定性の比較をおこなった。
プロテインA精製後の各抗体を0.2 mM塩酸を含むPBSを用いて1.0 mg/mLに調製し、40℃の恒温槽において保存を行った。各抗体とも、保存開始時、2週間保存後、4週間保存後にG3000 SWXLカラムを用いたサイズ排除クロマトグラフィーを実施し、単量体含有率を観察した。
抗体の片側のH鎖にのみ入れることでFcγRに対する結合活性が増強した改変体について、以下の方法に従ってADCC活性を測定した。
ヒト末梢血単核球(以下、ヒトPBMCと指称する。)をエフェクター細胞として用いて各被験抗体のADCC活性を以下のように測定した。
1000単位/mlのヘパリン溶液(ノボ・ヘパリン注5千単位,ノボ・ノルディスク)が予め200μl注入された注射器を用い、中外製薬株式会社所属の健常人ボランティア(成人男性)より末梢血50 mlを採取した。PBS(-)を用いて2倍に希釈された当該末梢血を4等分し、15 mlのFicoll-Paque PLUSが予め注入されて遠心操作が行なわれたLeucosepリンパ球分離管(Greiner bio-one)に加えた。当該末梢血が分注された分離管が2150 rpmの速度によって10分間室温にて遠心分離の操作をした後、単核球画分層を分取した。10%FBSを含むDulbecco's Modified Eagle's Medium(SIGMA)(以下10%FBS/D-MEMと称する。)によって1回当該各分層に含まれる細胞を洗浄した後、当該細胞が10%FBS/D-MEM中にその細胞密度が5x106 細胞/ mlとなるように懸濁した。当該細胞懸濁液をヒトPBMC溶液として以後の実験に供した。
SK-Hep-1にヒトグリピカン3を強制発現させたSK-pca13aをディッシュから剥離し、3x106cellsに1.85MBqのCr-51を加えたた。Cr-51を加えた細胞を5%炭酸ガスインキュベータ中において37℃で1時間インキュベートした後、10%FBS/D-MEMで1回細胞を洗浄し、当該細胞が10%FBS/D-MEM中にその細胞密度が2x105 細胞/ mlとなるように懸濁した。当該細胞懸濁液を標的細胞として以後の実験に供した。
ADCC活性をクロムリリース法による特異的クロム遊離率にて評価した。まず、各濃度(0、0.004、0.04、0.4、4、40 μg/ml)に調製した抗体溶液を96ウェルU底プレートの各ウェル中に50μlずつ添加した。次に、(2)で調製した標的細胞を50μlずつ播種し(1x104 cells/ウェル)室温にて15分間静置した。各ウェル中に(1)で調製したヒトPBMC溶液各100μl(5x105 cells/ウェル)を加えた当該プレートを、5%炭酸ガスインキュベータ中において37℃で4時間静置した後に、遠心操作した。当該プレートの各ウェル中の100μlの培養上清の放射活性をガンマカウンターを用いて測定した。下式:
特異的クロム遊離率(%)=(A-C)×100/(B-C)
に基づいて特異的クロム遊離率を求めた。
FcgRの細胞外ドメインを以下の方法で調製した。まずFcgRの細胞外ドメインの遺伝子の合成を当業者公知の方法で実施した。その際、各FcgRの配列はNCBIに登録されている情報に基づき作製した。具体的には、FcgRIについてはNCBIのaccession # NM_000566.3の配列、FcgRIIaについてはNCBIのaccession # NM_001136219.1の配列、FcgRIIbについてはNCBIのaccession # NM_004001.3の配列、FcgRIIIaについてはNCBIのaccession # NM_001127593.1の配列、FcgRIIIbについてはNCBIのaccession # NM_000570.3の配列に基づいて作製し、C末端にHisタグを付加した。またFcgRIIa、FcgRIIIa、FcgRIIIbについては多型が知られているが、多型部位についてはFcgRIIaについてはJ. Exp. Med., 1990, 172: 19-25、FcgRIIIaについてはJ. Clin. Invest., 1997, 100 (5): 1059-1070, FcgRIIIbについてはJ. Clin. Invest., 1989, 84, 1688-1691を参考にして作製した。
得られた遺伝子断片を動物細胞発現ベクターに挿入し、発現ベクターを作製した。作製した発現ベクターをヒト胎児腎癌細胞由来FreeStyle293細胞(Invitrogen社)に、一過性に導入し、目的タンパク質を発現させた。なお、結晶構造解析用に用いたFcgRIIbについては、終濃度10 ug/mLのKifunesine存在下で目的タンパク質を発現させ、FcgRIIbに付加される糖鎖が高マンノース型になるようにした。培養し、得られた培養上清を回収した後、0.22μmフィルターを通して培養上清を得た。得られた培養上清は原則として次の4ステップで精製した。第1ステップは陽イオン交換カラムクロマトグラフィー(SP Sepharose FF)、第2ステップはHisタグに対するアフィニティカラムクロマトグラフィー(HisTrap HP)、第3ステップはゲルろ過カラムクロマトグラフィー(Superdex200)、第4ステップは無菌ろ過、を実施した。ただし、FcgRIについては、第1ステップにQ sepharose FFを用いた陰イオン交換カラムクロマトグラフィーを実施した。精製したタンパク質については分光光度計を用いて280 nmでの吸光度を測定し、得られた値からPACE等の方法により算出された吸光係数を用いて精製タンパク質の濃度を算出した(Protein Science 1995 ; 4 : 2411-2423)。
Biacore T100、Biacore T200、Biacore A100またはBiacore 4000(GE Healthcare) を用いて、目的の抗体とFcγRとの相互作用解析を行った。ランニングバッファーにはHBS-EP+ (GE Healthcare)を用い、測定温度は25℃とした。センサーチップにはSeries S Sencor Chip CM5(GEヘルスケア)にアミンカップリング法により抗原ペプチドを固定化したチップ、Series S Sensor Chip SA(certified)(GEヘルスケア)に対して予めビオチン化しておいた抗原ペプチドを相互作用させ、固定化したチップ、Series S Sencor Chip CM5(GEヘルスケア)にProtein L (ACTIGEN, BioVision) を固定化したチップ、あるいはSeries S Sencor Chip CM5(GEヘルスケア)にProtein A/G (Thermo Scientific) を固定化したチップを用いた。これらのチップへ目的の抗体をキャプチャーさせ、ランニングバッファーで希釈した各FcγRを相互作用させた。10 mM glycine-HCl、pH1.5を反応させることで、チップにキャプチャーした抗体を洗浄し、チップを再生して繰り返し用いた。
FcγRに対する結合活性はFcγRに対する相対的な結合活性を意味する。FcγRに対する相対的な結合活性は各測定時におけるコントロールとなるサンプルの結合活性を100 (%)として、他の抗体の結合活性を算出した。ここでいう結合活性には、キャプチャーさせた抗体にFcγRを相互作用させた前後でのセンサーグラムの変化量をFcγRの結合活性を各抗体のキャプチャー量で割った値を用いた。FcγRの結合活性はキャプチャーした抗体の量に依存するためである。
Fc改変を適用した各改変体について、以下の方法に従ってADCC活性を測定した。
ヒト末梢血単核球(以下、ヒトPBMCと指称する。)をエフェクター細胞として用いて各被験抗体のADCC活性を以下のように測定した。
1000単位/mlのヘパリン溶液(ノボ・ヘパリン注5千単位,ノボ・ノルディスク)が予め200μl注入された注射器を用い、中外製薬株式会社所属の健常人ボランティア(成人男性)より末梢血50 mlを採取した。PBS(-)を用いて2倍に希釈された当該末梢血を4等分し、15 mlのFicoll-Paque PLUSが予め注入されて遠心操作が行なわれたLeucosepリンパ球分離管(Greiner bio-one)に加えた。当該末梢血が分注された分離管が2150 rpmの速度によって10分間室温にて遠心分離の操作をした後、単核球画分層を分取した。10%FBSを含むDulbecco's Modified Eagle's Medium(SIGMA)(以下10%FBS/D-MEMと称する。)によって1回当該各分層に含まれる細胞を洗浄した後、当該細胞が10%FBS/D-MEM中にその細胞密度が5 x 106 細胞/ml又は2.5 x 106 細胞/mlとなるように懸濁した。当該細胞懸濁液をヒトPBMC溶液として以後の実験に供した。
SK-Hep-1にヒトEpiregulinを強制発現させたSK-pca13a又はSKE18又はヒト大腸癌株DLD-1又はヒト膵癌細胞株MIAPaCa-2をディッシュから剥離し、1 x 106cellsあたり0.2 mg/mLのCalcein溶液200μL又は3 x 106cellsに1.85 MBqのCr-51を加えた。Calcein溶液又はCr-51を加えた細胞を5%炭酸ガスインキュベータ中において37℃で1-2時間インキュベートした後、10%FBS/D-MEMで1回細胞を洗浄し、当該細胞が10%FBS/D-MEM中にその細胞密度が2 x 105 細胞/mlとなるように懸濁した。当該細胞懸濁液を標的細胞として以後の実験に供した。
ADCC活性をカルセイン又はクロムリリース法による特異的カルセイン又はクロム遊離率にて評価した。まず、各濃度(0、0.004、0.04、0.4、4、40μg/ml)に調製した抗体溶液を96ウェルU底プレートの各ウェル中に50μlずつ添加した。次に、(2)で調製した標的細胞を50μlずつ播種し(1 x 104 cells/ウェル)室温にて15分間静置した。各ウェル中に(1)で調製したヒトPBMC溶液各100μl(5 x 105 cells/ウェル又は2.5 x 105 cells/ウェル)を加えた当該プレートを、5%炭酸ガスインキュベータ中において37℃で4時間静置した後に、遠心操作した。当該プレートの各ウェル中の100μlの培養上清のカルセイン蛍光又は放射活性を吸光光度計又はガンマカウンターを用いて測定した。下式:
特異的カルセイン又はクロム遊離率(%)=(A-C)×100/(B-C)
に基づいて特異的カルセイン又はクロム遊離率を求めた。
Claims (78)
- Fc領域を含み、該Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドであって、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド及び該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、該Fc領域の機能が改変されていることを特徴とするポリペプチド。
- 前記Fc領域において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項1に記載のポリペプチド。
- 前記アミノ酸変異が、変異を導入しない場合及び第一のポリペプチド及び第二のポリペプチドの両方のFc領域に変異が導入された場合と比較して、一方のFc領域にのみに変異が導入された場合の方が、該Fc領域の機能が向上するアミノ酸変異を少なくとも1つ含む、請求項1又は2に記載のポリペプチド。
- 前記Fc領域のCH2領域において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項2又は3に記載のポリペプチド。
- 前記Fc領域のCH2領域において、EUナンバリング231番目のAla、EUナンバリング232番目のPro、EUナンバリング233番目のGlu、EUナンバリング234番目のLeu、EUナンバリング235番目のLeu、EUナンバリング236番目のGly、EUナンバリング237番目のGly、EUナンバリング238番目のPro、EUナンバリング239番目のSer、EUナンバリング240番目のVal、EUナンバリング265番目のAsp、EUナンバリング266番目のVal、EUナンバリング267番目のSer、EUナンバリング268番目のHis、EUナンバリング269番目のGlu、EUナンバリング270番目のAsp、EUナンバリング271番目のPro、EUナンバリング295番目のGln、EUナンバリング296番目のTyr、EUナンバリング298番目のSer、EUナンバリング300番目のTyr、EUナンバリング324番目のSer、EUナンバリング325番目のAsn、EUナンバリング326番目のLys、EUナンバリング327番目のAla、EUナンバリング328番目のLeu、EUナンバリング329番目のPro、EUナンバリング330番目のAla、EUナンバリング331番目のPro、EUナンバリング332番目のIle、EUナンバリング333番目のGlu、EUナンバリング334番目のLys、EUナンバリング335番目のThr、EUナンバリング336番目のIle、及びEUナンバリング337番目のSerからなる群より選択されるアミノ酸部位において、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項4に記載のポリペプチド。
- 前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強、及び、結合の選択性の向上からなる群より選択される少なくとも一つ以上の改変であることを特徴とする、請求項1~5のいずれかに記載のポリペプチド。
- 前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強であることを特徴とする、請求項6に記載のポリペプチド。
- 前記FcγレセプターがFcγRIa、FcγRIIa R、FcγRIIa H、FcγRIIb 、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであることを特徴とする、請求項7に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIaであることを特徴とする、請求項8に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表2-1及び表2-2の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項9に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表2-1、表2-2及び表2-3の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項9に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIa Rであることを特徴とする、請求項8に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表3-1及び表3-2の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項12に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表3-1及び表3-2の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項12に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIa Hであることを特徴とする、請求項8に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表4の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項15に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表4の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項15に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIbであることを特徴とする、請求項8に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表5の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項18に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表5の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項18に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIIaであることを特徴とする、請求項8に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表6の領域iに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項21に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表6の領域iiに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項21に記載のポリペプチド。
- 前記Fc領域の機能の改変がFcγレセプターに対する結合活性の選択性の向上であることを特徴とする、請求項6に記載のポリペプチド。
- 前記Fcγレセプターに対する結合活性の選択性の向上が、活性型Fcγレセプターと阻害型Fcγレセプターとの間の選択性であることを特徴とする、請求項24に記載のポリペプチド。
- 前記Fcγレセプターにおいて、活性型FcγレセプターがFcγRIa、FcγRIIa R、FcγRIIa H、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであり、阻害型FcγレセプターがFcγRIIbであることを特徴とする、請求項25に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIaに対する結合活性が選択的に増強されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表19-1、表19-2、表19-3及び表19-4の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項27に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表19-1、表19-2、表19-3、表19-4及び表19-5の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項27に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIaに対する結合活性が選択的に減弱されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表23-1及び表23-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項30に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表23-1及び表23-2の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項30に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIa Rであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Rに対する結合活性が選択的に増強されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表20-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項33に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表20-1、表20-2及び表20-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項33に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIa Rであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Rに対する結合活性が選択的に減弱されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表24-1の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項36に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表24-1及び表24-2の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項36に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIa Hであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Hに対する結合活性が選択的に増強されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表21-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項39に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表21-1、表21-2及び表21-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項39に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIa Hであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIa Hに対する結合活性が選択的に減弱されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表25-1及び表25-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項42に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表25-1、表25-2及び表25-3の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項42に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIIaに対する結合活性が選択的に増強されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表22-1の領域aに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項45に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表22-1、表22-2及び表22-3の領域bに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項45に記載のポリペプチド。
- 前記活性型FcγレセプターがFcγRIIIaであり、前記阻害型FcγレセプターがFcγRIIbであり、FcγRIIbに比べてFcγRIIIaに対する結合活性が選択的に減弱されたことを特徴とする、請求項26に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表26-1及び表26-2の領域cに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項48に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表26-1、表26-2、表26-3及び表26-4の領域dに記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項48に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング234番目のアミノ酸LのYへの置換、EUナンバリング235番目のアミノ酸LのY又はQへの置換、EUナンバリング236番目のアミノ酸GのWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング298番目のアミノ酸SのAへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換、EUナンバリング330番目のアミノ酸AからM又はKへの置換及びEUナンバリング334番目のアミノ酸KからE又はLへの置換からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項1、21又は45に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング234番目のLeu、235番目のLeu、236番目のGly、239番目のSer、268番目のHis、270番目のAsp、298番目のSer、EUナンバリング326番目のLys、327番目のAla、328番目のLeu、330番目のAla及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されていることを特徴とする、請求項1、21又は45に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング234番目のLeu、235番目のLeu、236番目のGly、239番目のSer、268番目のHis、270番目のAsp、298番目のSer、327番目のAla、328番目のLeu及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング270番目のAsp、EUナンバリング326番目のLys、330番目のAla及び334番目のLysから選択される、少なくとも一つのアミノ酸に変異が導入されていることを特徴とする、請求項1、21又は45に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからY又はQへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換及びEUナンバリング334番目のアミノ酸KからLへの置換からなる群より選択される、少なくとも一つのアミノ酸変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからM又はKへの置換、EUナンバリング334番目のアミノ酸KからEへの置換からなる群より選択される、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、請求項1,21又は45に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、(i)から(vi)のいずれかの変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、(vii)から(ix)のいずれかの変異が導入されている、請求項1、21又は45に記載のポリペプチド:
(i) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(ii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iii) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからQへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング270番目のアミノ酸DからEへの置換及びEUナンバリング298番目のアミノ酸SからAへの置換
(iv) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(v) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換及びEUナンバリング327番目のアミノ酸AからDへの置換
(vi) EUナンバリング234番目のアミノ酸LからYへの置換、EUナンバリング235番目のアミノ酸LからYへの置換、EUナンバリング236番目のアミノ酸GからWへの置換、EUナンバリング239番目のアミノ酸SからMへの置換、EUナンバリング268番目のアミノ酸HからDへの置換、EUナンバリング298番目のアミノ酸SからAへの置換、EUナンバリング327番目のアミノ酸AからDへの置換、EUナンバリング328番目のアミノ酸LからWへの置換及びEUナンバリング334番目のアミノ酸KからLへの置換
(vii) EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(viii) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからMへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換
(ix) EUナンバリング270番目のアミノ酸DからEへの置換、EUナンバリング326番目のアミノ酸KからDへの置換、EUナンバリング330番目のアミノ酸AからKへの置換及びEUナンバリング334番目のアミノ酸KからEへの置換。 - Fc領域を含み、該Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドであって、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド又は該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、該Fc領域の機能が改変されていることを特徴とするポリペプチド。
- 前記Fc領域の機能の改変が、ポリペプチドのFcγレセプターに対する結合活性の増強、結合の減弱、及び、結合の選択性の向上からなる群より選択される少なくとも一つ以上の改変であることを特徴とする、請求項56に記載のポリペプチド。
- 前記Fc領域の機能の改変が、さらに物理化学的安定性が向上するという改変であることを特徴とする、請求項57に記載のポリペプチド。
- 前記物理化学的安定性が向上するという改変は、Fc領域が第一のポリペプチド及び第二のポリペプチドを含むヘテロ二量化体により構成されていることを特徴とするポリペプチドが、該Fc領域が第一のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチド又は該Fc領域が第二のポリペプチドのみを含むホモ二量化体により構成されていることを特徴とするポリペプチドと比べて、高いTmを有することを特徴とする請求項58に記載のポリペプチド。
- 前記Fc領域の機能の改変がFcγレセプターに対する結合活性の増強であり、該Fcγレセプターが、FcγRIa、FcγRIIa R、FcγRIIa H、FcγRIIb 、及びFcγRIIIaからなる群より選択される少なくとも1つ以上のレセプターであることを特徴とする、請求項57~59のいずれかに記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIaであることを特徴とする、請求項60に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表31-1、表31-2及び表31-3に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項61に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIa Rであることを特徴とする、請求項60に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表32-1及び表32-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項63に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIa Hであることを特徴とする、請求項60に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表33-1及び表33-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項65に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIbであることを特徴とする、請求項60に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表34-1及び表34-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項67に記載のポリペプチド。
- 前記Fcγレセプターが、FcγRIIIaであることを特徴とする、請求項60に記載のポリペプチド。
- 前記Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、明細書表35-1及び表35-2に記載されたアミノ酸変異からなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されていることを特徴とする、請求項69に記載のポリペプチド。
- 更に第一のポリペプチドと第二のポリペプチドの等電点に差を付与させるためのアミノ酸改変が導入されている、請求項1から70のいずれかに記載のポリペプチド。
- 等電点の差を付与するためのアミノ酸改変が、第一のポリペプチド及び/又は第二のポリペプチドのアミノ酸配列において、EUナンバリング137番目のGly、138番目のGly、139番目のThr、147番目のLys、192番目のSer、193番目のLeu、196番目のGln、198番目のTyr、199番目のIle、203番目のAsn、214番目のLys、263番目のVal、272番目のGlu、274番目のLys、278番目のTyr、288番目のLys、290番目のLys、316番目のGly、317番目のLys、320番目のLys、324番目のLys、335番目のThr、337番目のSer、340番目のLys、358番目のLeu、360番目のLys、362番目のGln、364番目のSer、383番目のSer、384番目のAsn、385番目のGly、386番目のGln、387番目のPro、390番目のAsn、397番目のVal及び422番目のValからなる群より選択されるアミノ酸部位において、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、請求項71に記載のポリペプチド。
- 等電点の差を付与するためのアミノ酸改変が、第一のポリペプチド又は第二のポリペプチドのどちらか一方のポリペプチドのアミノ酸配列において、EUナンバリング196番目のGln、199番目のIle、263番目のVal、272番目のGlu、316番目のGly、358番目のLeu、364番目のSer、383番目のSer、387番目のPro及び397番目のValからなる群より選択される、少なくとも一つ以上のアミノ酸変異が導入されており、もう一方のポリペプチドのアミノ酸配列において、EUナンバリング137番目のGly、138番目のGly、139番目のThr、147番目のLys、192番目のSer、193番目のLeu、198番目のTyr、199番目のIle、203番目のAsn、214番目のLys、274番目のLys、278番目のTyr、288番目のLys、290番目のLys、316番目のGly、317番目のLys、320番目のLys、324番目のLys、335番目のThr、337番目のSer、340番目のLys、358番目のLeu、360番目のLys、362番目のGln、383番目のSer、384番目のAsn、385番目のGly、386番目のGln、390番目のAsn及び422番目のValからなる群より選択される、少なくとも一つのアミノ酸変異が導入されていることを特徴とする、請求項71に記載のポリペプチド。
- 前記ポリペプチドが、抗原結合分子であることを特徴とする、請求項1~73のいずれかに記載のポリペプチド。
- 前記抗原結合分子が、抗体、二重特異性抗体、ペプチドFc融合タンパク質、又はスキャッフォールドFc融合タンパク質などのFc融合分子であることを特徴とする、請求項74に記載のポリペプチド。
- 請求項74又は75に記載のポリペプチド及び医学的に許容し得る担体を含む、医薬組成物。
- Fc領域を含むポリペプチドの機能を改変する方法であって、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入することにより該Fc領域をヘテロ二量体とし、アミノ酸変異の導入により該Fc領域がホモ二量体となった場合に比べてFc領域の機能を改変する工程を含む、ポリペプチドの機能を改変する方法。
- Fc領域を含むポリペプチドを製造する方法であって、該Fc領域を構成する第一のポリペプチド及び/又は第二のポリペプチドにアミノ酸変異を導入することにより該Fc領域をヘテロ二量体とし、アミノ酸変異の導入により該Fc領域がホモ二量体となった場合に比べてFc領域の機能を改変する工程を含む、Fc領域を含むポリペプチドを製造する方法。
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BR112013032630-1A BR112013032630B1 (pt) | 2011-06-30 | 2012-06-29 | Polipeptídeo heterodimerizado compreendendo região fc de igg |
EP12804446.8A EP2728002B1 (en) | 2011-06-30 | 2012-06-29 | Heterodimerized polypeptide |
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KR1020147001713A KR102049122B1 (ko) | 2011-06-30 | 2012-06-29 | 헤테로이량화 폴리펩티드 |
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JP2013522970A JP5997151B2 (ja) | 2011-06-30 | 2012-06-29 | ヘテロ二量化ポリペプチド |
MX2013015366A MX340498B (es) | 2011-06-30 | 2012-06-29 | Polipeptido heterodimerizado. |
DK12804446.8T DK2728002T3 (da) | 2011-06-30 | 2012-06-29 | Heterodimeriseret polypeptid |
EP21195522.4A EP4011913A1 (en) | 2011-06-30 | 2012-06-29 | Heterodimerized polypeptide |
RU2014102978A RU2641256C2 (ru) | 2011-06-30 | 2012-06-29 | Гетеродимеризованный полипептид |
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