NZ617447B2 - Anti-nerve growth factor antibodies and methods of preparing and using the same - Google Patents
Anti-nerve growth factor antibodies and methods of preparing and using the same Download PDFInfo
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- NZ617447B2 NZ617447B2 NZ617447A NZ61744712A NZ617447B2 NZ 617447 B2 NZ617447 B2 NZ 617447B2 NZ 617447 A NZ617447 A NZ 617447A NZ 61744712 A NZ61744712 A NZ 61744712A NZ 617447 B2 NZ617447 B2 NZ 617447B2
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- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/46—Hybrid immunoglobulins
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- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/46—Hybrid immunoglobulins
- C07K16/461—Igs containing Ig-regions, -domains or -residues form different species
- C07K16/467—Igs with modifications in the FR-residues only
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- C07K2317/20—Immunoglobulins specific features characterized by taxonomic origin
- C07K2317/24—Immunoglobulins specific features characterized by taxonomic origin containing regions, domains or residues from different species, e.g. chimeric, humanized or veneered
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- C07K2317/56—Immunoglobulins specific features characterized by immunoglobulin fragments variable (Fv) region, i.e. VH and/or VL
- C07K2317/565—Complementarity determining region [CDR]
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- C07K2317/56—Immunoglobulins specific features characterized by immunoglobulin fragments variable (Fv) region, i.e. VH and/or VL
- C07K2317/567—Framework region [FR]
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- C07K2317/00—Immunoglobulins specific features
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- C07K2317/76—Antagonist effect on antigen, e.g. neutralization or inhibition of binding
Abstract
Disclosed is an antibody or an antigen binding fragment thereof which is capable of specifically binding to feline neuronal growth factor (NGF) and inhibiting the ability of feline NGF to bind to the p75 or TrkA feline NGF receptor, wherein the antibody or antigen binding fragment comprises the heavy and light chains of the sequences as disclosed in the specification; wherein the antibody or antigen binding fragment thereof does not contain any amino acid in any position within the framework regions which would be foreign at the position in one or more feline antibodies. Also disclosed is a method for preparing such antibodies. y and light chains of the sequences as disclosed in the specification; wherein the antibody or antigen binding fragment thereof does not contain any amino acid in any position within the framework regions which would be foreign at the position in one or more feline antibodies. Also disclosed is a method for preparing such antibodies.
Description
ANTI-NERVE GROWTH FACTOR ANTIBODIES AND METHODS OF PREPARING AND USING THE SAME Field of the Invention The present invention s to antibodies and fragments thereof which act as antagonists of feline nerve growth factor. The invention extends to methods of preparing same and to the therapeutic use of these antibodies and fragments in treating conditions associated with nerve growth factor such as pain, pain related disorders and conditions which result in the occurrence of pain in felines.
Background to the Invention Nerve growth factor (NGF) is a naturally occurring secreted protein which consists of an alpha, beta and gamma polypeptide chain. NGF is a member of the neurotrophin family and is implicated in a number erent roles. NGF promotes survival and differentiation of sensory and sympathetic neurons and signals via two membrane bound receptors, p75, a low affinity NGF receptor and TrkA, a embrane tyrosine kinase and a high affinity NGF receptor. The binding of NGF to TrkA or p75 results in an upregulation of neuropeptides in y s.
The use of NGF antagonists to treat pain and pain sensitivity in humans has been described (Cattaneo A., Curr. Op. Mol. Ther. 2010 12(1):94-106). For example, International Patent Application No. describes a sed form of the rat alphaD11 (dD11) monoclonal antibody. The (IBM antibody has binding specificity to mouse NGF, but is also known to bind to human and rat forms of NGF. Humanisation of the aD11 rat derived monoclonal dy is required prior to administration to humans in order to se the production of neutralising antibodies which result from a human anti-mouse antibody (HAMA) response being mounted against rodent derived antibodies. Furthermore, the replacement of mouse nt domains with human constant s allows downstream effector functions to be selected for.
Pain management in felines is currently provided h administration of analgesic drugs of several classes, including local and general anaesthetics, opioid analgesics, a2 agonists, non-steroidal anti-inflammatory drugs (NSAIDs) and steroids. Each of these needs to be administered frequently and also has limitations in efficacy and safety. There is accordingly a need for an infrequently dosed, long lasting and efficacious form of pain relief for s suffering from chronic pain, such as those with neuropathic or oncologic pain.
While NGF is expressed in feline s, only a partial clone is ble of its sequence. This l mRNA sequence is defined in Genbank Accession number EF065101 (URL: http://www.ncbi.n|m.nih.gov. Felis catus nerve growth factor beta-like mRNA). No antagonist to feline NGF has been described, nor has the use of blocking NGF mediated signalling in felines to prevent or ate pain.
The use in felines of known antibodies which act as anti-NGF antagonists in other species would not be feasible as it cannot be determined with certainty whether an antibody with binding specificity to nerve growth factor expressed in another species would also bind to feline nerve growth factor. Furthermore, there also exists the possibility that neutralising antibodies may be produced against any such administered antibody, as it would be recognised as n by the feline immune . Any production of neutralising antibodies would limit the long term administration of the antibody to felines, this being a particularly important requirement when treating a chronic pain related condition or a cancerous ion. Further still, the stration to a feline of an anti-NGF antibody derived from another species may exhibit cross-reactivity to other target epitopes which may be present in felines, but not present in the species from which the antibody was originally d. Accordingly, there is a serious need for binding s which act as antagonists of feline NGF and which retain high levels of binding affinity and avidity, while avoiding the production of neutralising antibodies there against, for use in pain management in felines. y of the invention Following extensive efforts, the present inventor has surprisingly produced nonimmunogenic chimeric and felinised antibodies and binding fragments derived therefrom which bind specifically to feline NGF. It is demonstrated herein, quite unexpectedly, that the binding of the antibodies and binding nts of the invention to feline NGF sequesters the biological activity of feline NGF by inhibiting the binding of feline NGF to the high affinity TrkA receptor or to the p75 receptor.
This, in turn, prevents the upregulation of neuropeptides in sensory neurons with the resulting effect that the sensation of pain will be d or removed. The antibodies have been produced using recombinant DNA methods such that they are substantially non-immunogenic, that is, neutralising antibodies are not raised against them when administered to a feline subject. Such a finding is entirely sing and unexpected, as the antibodies were not produced using standard methodologies, such as CDR ng, or the like.
According to a first aspect of the invention there is provided a method of preparing an antibody suitable for use in a feline comprising or consisting essentially of the steps of: - ing a donor antibody from a species other than a , wherein the donor antibody has binding icity for a target antigen t in felines; - comparing each amino acid residue of the amino acid sequence of ork regions of the donor antibody with each amino acid residue present at a corresponding position in the amino acid sequence of framework regions of one or more feline antibodies to identify one or more amino acid residues within the amino acid sequence of the framework regions of the donor antibody that differ from one or more amino acid residues at the ponding position within the amino acid sequence of framework regions of the one or more feline antibodies; - substituting the one or more identified amino acid residues in the donor antibody with the one or more amino acid residues present at the corresponding position in the one or more feline antibodies.
The method of the present invention modifies a donor antibody for use in a feline in such a way that the modified antibody does not contain any amino acid in any position within the ork s which would be foreign at that position in s. The modified antibody therefore retains the icity and affinity of the donor antibody for the target antigen, but importantly is ed such that no potentially foreign epitopes are created. The modified antibody is therefore not seen as foreign in felines and hence does not induce an immune response in felines which could lead to a neutralisation of the efficacy of the antibody, especially following long term administration.
In certain embodiments, the step of substituting the one or more fied amino acid residues comprises substituting the one or more identified amino acid residues with the one or more amino acid residues t at the corresponding position which have the highest homology to the one or more tuted amino acid residues.
In certain ments, the method further comprises the step of replacing constant domains of the heavy chain and/or light chain of the donor antibody with constant domains of a heavy and/or light chain from a feline antibody. Typically, the constant domain of the heavy chain is replaced with a H02 type feline constant domain.
In certain embodiments, the target epitope is nerve growth factor (NGF).
The method of the first aspect of the invention does not comprise CDR grafting.
Antibodies prepared according to the method of the first aspect of the invention comprise CDRs of the donor antibody, felinised framework regions prepared according to the method of the first aspect of the invention and feline constant domains.
According to a second aspect of the present invention there is provided a chimeric antibody or a binding fragment thereof which specifically binds to feline neuronal growth factor (NGF), said ic antibody comprising light and/or heavy chain variable domains derived from an dy which binds nerve growth factor in a species other than felines, and light and heavy chain constant domains obtained from feline derived antibodies. Typically, the chimeric antibody or binding fragment derived therefrom binds to feline NGF at a binding epitope which, when bound, results in neutralisation of the biological function of feline NGF. That is, the binding of the chimeric antibody or g fragment to feline NGF sequesters the ability of feline NGF to bind to the TrkA receptor or to the p75 receptor. In certain embodiments, the chimeric antibody, or binding fragment thereof, binds to feline NGF with a g affinity (KB) of 1x108 or less.
In one embodiment of the t invention, there is provided an anti-feline NGF chimeric antibody or a g fragment thereof which binds to feline NGF and which neutralises the ability of feline NGF to bind to the p75 or the TrkA feline NGF receptors, the chimeric antibody comprising a light chain comprising the amino acid sequence ofSEQ ID NO:1 or an amino acid ce which has a sequence identity of at least 85, 90, 95 or 99% thereto and/or a heavy chain comprising the amino acid sequence of SEQ ID N02 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% o. The heavy chain constant domains of SEQ ID NO:2 are derived from the antibody derived from Felis catus which is deposited under Genbank accession number BAA32229.1. In a further embodiment, the heavy chain has the amino acid sequence of SEQ ID NO:16, that is a nt domain conjoined to heavy chain constant domains derived from the antibody derived from Felis catus which is ted under Genbank accession number BAA32230.1.
Typically, the nt domains of the anti-feline NGF chimeric antibody of the invention do not mediate downstream effector functions associated with the antibody constant regions, such as complement fixation, ADCC, Fc receptor binding, or the like. In certain embodiments, residues of the nt domains of the heavy chain may be substituted to residues which cannot be glycosylated. In certain embodiments, the aglycosylated heavy chain has the amino acid sequence of SEQ ID NO:19 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto.
The present invention extends to antibodies prepared according to the first aspect of the present ion. Accordingly, in certain further aspects the present invention extends to a sed anti-feline NGF lising antibody. The felinised antibody s the binding specificity of an antibody which binds to non- feline NGF at a binding epitope which the inventor predicts is conserved n feline NGF and NGF of other species, while reducing the immunogenicity of the antibody by ing feline derived constant domains, and, significantly, modifying selected residues of the variable region framework regions (FRs) in order that the binding specificity of the CDR regions is unaltered, but that the T cell epitopes which may be present in the framework regions interposed n the CDR regions are removed by substitutions of specific residues in the donor dy framework regions with feline derived amino acids. lmportantly, the ork residues are not replaced in their entirety by framework regions derived from antibodies of feline origin. Rather, the substitution of framework residues is considered and specific.
According to a further or related aspect of the invention there is provided a felinised antibody or binding nt thereof which binds specifically to feline neuronal growth factor (NGF). Typically, the felinised antibody or binding fragment thereof neutralises feline NGF biological function, when bound thereto. That is, the binding of the felinised antibody or binding nt to feline NGF sequesters the y of feline NGF to bind to the TrkA NGF receptor or to the p75 NGF receptor. In certain embodiments, the felinised antibody, or binding fragment thereof, binds to NGF with a binding affinity KB of 1x108 or less. lly, the felinised antibody is not immunogenic in felines.
In certain embodiments, the felinised antibody is prepared according to the method of preparing an antibody of the first aspect of the invention.
In a further or related aspect of the invention there is provided a neutralising antibody, or an antigen g fragment thereof, which is capable of specifically binding to feline nerve growth factor (NGF), the antibody or antibody binding fragment comprising, consisting of or consisting essentially of a light chain variable domain comprising the amino acid sequence of SEQ ID NO:23 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto. In n embodiments said ty is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In some embodiments the neutralising antibody is a monoclonal antibody. In some embodiments, the antibody is a chimeric antibody. In some embodiments, the antibody is a felinised antibody, that is, an antibody which has an amino acid sequence which has been de-immunised such that neutralising antibodies will not be produced there t when administered to a feline subject. In certain embodiments, the felinised antibody is prepared according to the method of preparing an antibody of the first aspect of the invention. Typically the heavy chain constant domains of the dy are selected or modified by way of amino acid substitution or deletion such that the nt domains do not mediate downstream effector functions.
In certain ments, the sed antibody or antibody binding fragment thereof comprises, consists of, or consists essentially of a light chain comprising the amino acid sequence of SEQ ID NO:25 or an amino acid sequence which has at least 85, 90, 95 or 99% sequence identity thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In a further or related aspect, there is ed a neutralising felinised antibody, or an antigen binding fragment thereof, which is e of specifically g to feline nerve growth factor (NGF), the felinised antibody or antibody binding fragment comprising, consisting of or consisting ially of a heavy chain variable domain comprising the amino acid sequence of SEQ ID NO:22 or an amino acid sequence which has a sequence identity of at least 85, 90, 95 or 99% thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
Typically, the le region of the heavy chain (VH) is conjoined to a heavy chain constant region which comprises at least one immunoglobulin nt domain.
Typically, a heavy chain constant region is comprised of 3 tandem (i.e. in line) nt domains, with a hinge region being provided between 2 of the domains to provide structural flexibility. Constant regions of different isotypes may se more or less than 3 constant domains. In certain embodiments, the heavy chain constant region is derived from a feline derived antibody. Two different feline constant domains are known sented by Genbank accession numbers BAA32229.1 and BAA32230.1), with the same hinge region and eight amino acid sequence differences between their CH3 domains. Typically, said constant domains comprise CH1, CH2 and CH3 along with a suitable linker (or "hinge") located between said CH1 and CH2 domains. Typically, the anti-feline NGF antibody of the invention comprises a heavy chain le domain conjoined to a constant domain, wherein the constant domain does not result in antibody Fc region mediated ream effector functions such as complement fixation, ADCC, Fc receptor binding, or the like.
In certain embodiments, the antibody or antibody binding nt comprises, consists of, or consists essentially of a heavy chain comprising the amino acid sequence of: SEQ ID NO:24 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto.
In ular embodiments, the felinised antibody or binding fragment derived rom may comprise a heavy chain wherein at least one residue in a constant domain has been substituted or deleted in order to prevent the glycosylation of that residue. In certain ments, the heavy chain subtype is derived from a feline antibody of subtype lgG2. In certain further embodiments, the constant s are derived from the antibody derived from Felis catus which is deposited under Genbank accession number BAA32230.1.
In a yet r or related , the present invention extends to a felinised antibody, or an antigen binding nt thereof, which specifically binds to feline nerve growth factor (NGF) and neutralises its biological function in g to the TrkA NGF or and the p75 NGF receptor, the felinised antibody or antibody binding nt thereof comprising a light chain and a heavy chain, wherein the variable domain of the light chain (VL) comprises, consists or consists essentially of an amino acid sequence which is identical or substantially homologous to the amino acid sequence of SEQ ID NO:23 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto, and wherein the variable domain of the heavy chain (VH) comprises, consists or consists essentially of an amino acid sequence which is identical or substantially homologous to the amino acid sequence of SEQ ID NO:22 or a sequence which has an amino acid ty of at least 85, 90, 95 or 98% thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the felinised antibody or binding member comprises a light chain which comprises, consists of or consists essentially of the amino acid sequence of SEQ ID NO:25 or a sequence having an amino acid identity of at least 85%, more preferably of 95% and most preferably at least 98% identity thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the sed antibody or binding member comprises a heavy chain which comprises, consists of or consists essentially of an amino acid sequence of SEQ ID NO:24 or a ptide having an amino acid ce with an identity of at least 85%, more preferably of 95% and most preferably at least 98% identity thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the antibody may be ated to at least one er molecule. In certain further embodiments at least one residue in at least one of the constant domains can be substituted or deleted in order to prevent the glycosylation of that e.
In a further or related aspect of the invention there is provided a neutralising antibody, or an antigen binding fragment thereof, which is capable of specifically binding to feline nerve growth factor (NGF), the antibody or antibody binding fragment comprising, consisting of or consisting essentially of a light chain variable domain comprising the amino acid sequence of SEQ ID NO:3 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In some embodiments the neutralising antibody is a monoclonal antibody. In some embodiments, the dy is a chimeric antibody. In some embodiments, the antibody is a felinised dy, that is, an antibody which has an amino acid sequence which has been de-immunised such that neutralising antibodies will not be produced there against when administered to a feline subject. In n ments, the antibody is prepared ing to the first aspect of the invention. Typically the heavy chain constant domains of the antibody are selected or modified by way of amino acid substitution or deletion such that the constant domains do not mediate downstream effector functions.
In certain embodiments, the sed antibody or antibody binding fragment thereof comprises, consists of, or consists essentially of a light chain comprising the amino acid sequence of SEQ ID NO:5 or an amino acid sequence which has at least 85, 90, 95 or 99% sequence identity thereto. In certain embodiments said 2012/051003 identity is over a length of at least about 15 amino acids, ably about 20 amino acids, more preferably about 25 amino acids.
In a further or related aspect, there is provided a neutralising felinised antibody, or an antigen binding nt thereof, which is capable of specifically binding to feline nerve growth factor (NGF), the felinised antibody or antibody binding fragment comprising, consisting of or consisting essentially of a heavy chain variable domain comprising the amino acid sequence of SEQ ID NO:4 or an amino acid sequence which has a sequence identity of at least 85, 90, 95 or 99% thereto.
In certain embodiments said ty is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
Typically, the variable region of the heavy chain (VH) is conjoined to a heavy chain constant region which comprises at least one globulin constant domain.
In certain embodiments, the heavy chain constant region is derived from a feline derived antibody, e.g. those represented by Genbank accession s BAA32229.1 and BAA32230.1. Typically, said constant domains comprise CH1, CH2 and CH3 along with a suitable linker (or "hinge") located between said CH1 and CH2 domains. Typically, the anti-feline NGF antibody of the invention comprises a heavy chain variable domain conjoined to a constant domain, n the constant domain does not result in antibody Fc region mediated downstream effector functions such as complement fixation, ADCC, Fc receptor binding, or the like.
In certain embodiments, the antibody or antibody binding nt comprises, consists of, or ts essentially of a heavy chain sing the amino acid sequence of: SEQ ID NO:6 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto. In said ment, the constant domains are derived from the antibody derived from Felis catus which is deposited under Genbank accession number BAA32229.1.
In particular embodiments, the felinised antibody or binding fragment derived therefrom may comprise a heavy chain wherein at least one residue in a constant domain has been substituted or deleted in order to prevent the glycosylation of that e. Accordingly, in certain further embodiments, the antibody or antibody binding fragment comprises, consists of, or consists ially of a heavy chain comprising the amino acid of SEQ ID NO:7 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids. In certain embodiments, the heavy chain subtype is derived from a feline dy of subtype lgG2.
In certain further embodiments, the constant domains are derived from the antibody derived from Felis catus which is deposited under Genbank accession number BAA32230.1. Accordingly, in certain further embodiments, the heavy chain of a further felinised antibody according to the present invention comprises a heavy chain d from the antibody derived from Felis catus which is deposited under Genbank accession number BAA32230.1. Said antibody comprises the amino acid sequence of SEQ ID NO:17. In n further embodiments, the heavy chain ce of SEQ ID NO:17 may be modified to substitute any amino acid residues which may be subject to glycosylation. Accordingly, a yet further embodiment of the invention es a felinised antibody with a heavy chain comprising the amino acid sequence of SEQ ID NO:18 or an amino acid ce which has a sequence identity of at least 85, 90, 95 or 99% thereto. In certain ments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In a yet further or related aspect, the present invention extends to a felinised antibody, or an antigen binding fragment thereof, which specifically binds to feline nerve growth factor (NGF) and neutralises its biological function in binding to the TrkA NGF receptor and the p75 NGF receptor, the felinised antibody or antibody binding fragment thereof comprising a light chain and a heavy chain, wherein the variable domain of the light chain (VL) ses, ts or ts essentially 2012/051003 of an amino acid sequence which is identical or substantially homologous to the amino acid sequence of SEQ ID NO:3 or a sequence which has an amino acid identity of at least 85, 90, 95 or 99% o, and wherein the variable domain of the heavy chain (VH) comprises, consists or consists essentially of an amino acid sequence which is identical or substantially homologous to the amino acid sequence of SEQ ID NO:4 or a sequence which has an amino acid identity of at least 85, 90, 95 or 98% thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the sed antibody or binding member comprises a light chain which comprises, consists of or ts essentially of the amino acid sequence of SEQ ID NO:5 or a ce having an amino acid identity of at least 85%, more preferably of 95% and most preferably at least 98% identity thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the felinised antibody or binding member comprises a heavy chain which comprises, consists of or consists essentially of an amino acid sequence of SEQ ID NO:6 or SEQ ID NO:17 or a polypeptide having an amino acid sequence with an identity of at least 85%, more preferably of 95% and most preferably at least 98% identity thereto. In n embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
In certain embodiments, the antibody may be conjugated to at least one reporter molecule.
In certain further embodiments at least one residue in at least one of the constant domains can be substituted or deleted in order to prevent the ylation of that residue. Accordingly, in certain r embodiments, the felinised antibody or antibody binding fragment comprises, consists of, or ts essentially of a heavy chain comprising the amino acid sequence of SEQ ID NO:7 or SEQ ID NO:18 or an amino acid sequence with an identity of at least 95% and more preferably at least 98% identity thereto. In certain embodiments said identity is over a length of at least about 15 amino acids, preferably about 20 amino acids, more preferably about 25 amino acids.
The inventor has further defined a series of framework s (FR) which can be combined with complementarity determining regions (CDRs) to form felinised heavy and light chain variable domains. Each of the heavy and light chain domains has 4 framework regions, designated FR1, FR2, FR3 and FR4.
An antibody molecule may comprise a heavy chain variable domain sing CDR1, CDR2 and CDR3 regions and associated interposed framework s.
The heavy chain variable domain (VH) CDRs are known as HCDRs, with these CDRs being found at the following positions according to the Kabat numbering system: HCDR1 — Kabat residues 31-35, HCDR2 — Kabat residues 50-65, HCDR3 — Kabat residues 95-102 (Kabat EA et al. (1991) ces of proteins of immunological st, 5th edition. Bethesda: US Department of Health and Human Services).
Furthermore, an antibody further comprises a light chain variable domain comprising CDR1, CDR2 and CDR3 regions and associated osed framework regions. The light chain variable domain (VL) CDRs are known as LCDRs, with these CDRs being found at the following positions according to the Kabat numbering : LCDR1 — Kabat residues 24-34, LCDR2 — Kabat residues 50- 56, LCDR3 — Kabat residues 89-97.
A light or heavy chain variable domain comprises four framework regions, FR1, FR2, FR3 and FR4, interposed with CDRs in the following arrangement: FR1- CDR1-FR2—CDR2—FR3-CDR3-FR4.
In a yet further , the present invention s to an anti-NGF antibody, or an NGF antigen binding fragment thereof, the antibody or antibody binding fragment comprising a light chain variable region comprising at least one of: an FR1 framework region consisting or comprising of the amino acid sequence of SEQ ID NO:26, an FR2 framework region consisting or comprising of the amino acid ce of SEQ ID NO:27, an FR3 framework region ting or comprising of the amino acid sequence ofSEQ ID N028, and an FR4 framework region consisting or sing of the amino acid sequence ofSEQ ID NO:29, and/or a heavy chain variable region comprising at least one of: an FR1 framework region consisting or sing of the amino acid sequence of SEQ ID NO:30, an FR2 framework region consisting or comprising of the amino acid sequence ofSEQ ID NO:31, an FR3 framework region consisting or comprising of the amino acid sequence of SEQ ID NO:32, and an FR4 framework region consisting or comprising of the amino acid sequence of SEQ ID NO:33.
Typically the light and heavy chain CDRs are derived from an antibody which has binding specificity to NGF, preferably feline NGF.
In n embodiments, the light chain variable domain comprising said at least one framework region described above is conjoined to a feline d light chain constant domain, typically a light chain kappa constant domain, but optionally a light chain lambda constant domain. In certain embodiments, said light chain comprises an FR1 region having an amino acid sequence of SEQ ID NO:26, an FR2 region with an amino acid sequence of SEQ ID NO:27, an FR3 region with an amino acid sequence of SEQ ID N028 and an FR4 region with an amino acid sequence of SEQ ID NO:29 or a framework region with an amino acid sequence which has a sequence ty of at least 85, 90, 95 or 98% to the foregoing. In certain embodiments said identity is over a length of at least about 5 amino acids, preferably about 10 amino acids.
In certain further embodiments, the heavy chain variable region comprising at least one of the ork regions described above is conjoined to at least one feline derived heavy chain constant domain. In certain embodiments, the amino acid sequence of the constant domain lacks any post-translational modifications, or may be modified to remove any or all residues which may be subject to N-linked or O-linked glycosylation, such that the constant domains are aglycosylated. In certain embodiments the heavy chain comprises an FR1 region with an amino acid sequence ofSEQ ID NO:30, an FR2 region with an amino acid sequence of SEQ ID NO:31, an FR3 region with an amino acid sequence of SEQ ID NO:32 and an FR4 region with an amino acid ce of SEQ ID NO:33 or a ork region with an amino acid sequence which has a sequence identity of at least 85, 90, 95 or 98% to the foregoing. In certain embodiments said identity is over a length of at least about 5 amino acids, preferably about 10 amino acids.
In certain further embodiments, modifications may be made to the framework s described herein. That is, the inventor has identified that for some residues in each framework region, there is a choice of amino acids for a given position. lmportantly, these framework region modifications do not result in a conformational change to the associated complementarity determining regions, as this may alter the binding specificity and/or ty of the resulting antibody. In certain embodiments, the invention s to introducing 2 or more amino acid tutions into the amino acid residues of framework regions of the light chain variable region and/or heavy chain variable region.
Accordingly, in certain embodiments, the invention extends to polypeptides, such as an antibody, or antigen binding fragment thereof, which comprises a light chain le domain having an FR1 region comprising the amino acid ce of SEQ ID NO:26 which has been modified by one or more of the amino acid substitutions selected from the group consisting of D1 is E or N, I2 is V, P or T, E3 isVor M, M4 is L or I, S7 is T, S10 is F, S12 is P orA, T14 is l orA, E17 is D, S18 is P or A, V19 is A, I21 is F and S22 is F.
In certain embodiments, the light chain FR2 region having the amino acid sequence of SEQ ID NO:27 may be modified by one or more of the amino acid substitutions ed from the group consisting of Y2 is F, L3 is F or R, K5 is R, R8 is Q, L12 is R, I14 is M and Y15 is H or A.
In certain embodiments, the light chain FR3 region having the amino acid sequence of SEQ ID NO:28 may be modified by one or more of the amino acid substitutions selected from the group consisting of G1 is R, F6 is I, S7 is T, T13 is Aor S, T16 is l orA, K18 is RorT, S20 is A, G or T, R21 is G, V22 is M, Q23 is E, T24 is A, V or P, E25 is D, V29 is I, H or L and F31 is Y.
In certain embodiments, the light chain FR4 region having the amino acid sequence of SEQ ID NO:29 may be ed by one or more of the amino acid substitutions selected from the group consisting of F1 is S, Q3 is P, K6 is H, Q, E, SorT, E8 is D, L9 isV, lorM and K10 is R, DorT.
In certain embodiments, the heavy chain FR1 region having the amino acid sequence of SEQ ID NO:30 may be modified by one or more of the amino acid substitutions selected from the group consisting of Q1 is D or E, V2 is E, Q3 is L or R, L4 isV, V5 is M, E6 isQorD, A9 is G, E10 is DorN, L11 isVorR,V12 is Ror K, Q13 is K, T, E, N or R, P14 is T, G15 is E, E16 is G, Aor T, S17 is A, L18 is V, R19 is K or E, L20 is l or P, T21 is F or S, A23 is K, V or Q, A24 is T or D and G26 is A.
In certain further embodiments, the heavy chain FR2 region having the amino acid ce of SEQ ID NO:31 may be modified by one or more of the amino acid substitutions selected from the group consisting of V2 is L, F or I, R3 is C or H, A5 isS,VorT, G7 isA,EorS, K8 isQorE, L10isForP, E11 isQ,W12isCorL, M13isVorland orS.
In certain further embodiments, the heavy chain FR3 region having the amino acid sequence of SEQ ID NO:32 may be modified by one or more of the amino acid tutions selected from the group consisting of R1 is Q or K, L2 is F, T3 is I, I4 is L, MorV, T5 is S, R6 isA, T, K, GorV, T8 is N, D,AorS, 89 isA, DorT, K10 isT, E, Q, N or R, N11 is Dor K, T12 is |orA, V13 isA, LorG, F14 isY, V, A, S orW, L15 is M, Q16 is E, D, H orV, M17 is L, H18 is N, S, T, D, G or R, 819 is N, Q21 is R, K or T, 822 is T, l, A or V, E23 is A, T, D, G or 8, A26 is G or S, T27 is V, M, l or A, Y28 is H, Y29 is H or F and A31 is T, V, G, L, l or M.
In certain r embodiments, the heavy chain FR4 region having the amino acid sequence of SEQ ID NO:33 may be ed by one or more of the amino acid substitutions selected from the group consisting of W1 is R, C or L, G2 is A, Q3 is H, R, PorV, G4 is D, T5 isAorV, T6 is L, I, Q, M orS,V7 is l, T8 isA, lor R, V9 is G, S10 is P and A11 is S or Q.
In certain embodiments, the antibody is a monoclonal antibody. Typically the antibody is a felinised antibody.
In a yet further aspect, the present invention extends to an GF antibody, or an NGF antigen binding fragment thereof, the dy or antibody binding fragment comprising a light chain variable region comprising at least one of: an FR1 framework region consisting of or comprising of the amino acid sequence ofSEQ ID NO:8, an FR2 framework region consisting of or comprising of the amino acid sequence ofSEQ ID NO:9, an FR3 ork region consisting of or comprising of the amino acid sequence ofSEQ lD NO:10, and an FR4 framework region consisting of or comprising of the amino acid sequence ofSEQ lD NO:11, 2012/051003 and/or a heavy chain variable region sing at least one of: an FR1 ork region consisting of or sing of the amino acid sequence ofSEQ ID NO:12, an FR2 framework region consisting of or sing of the amino acid sequence ofSEQ ID NO:13, an FR3 framework region consisting of or comprising of the amino acid sequence ofSEQ ID NO:14, and an FR4 framework region consisting of or comprising of the amino acid sequence of SEQ ID NO:15.
Typically the light and heavy chain CDRs are derived from an antibody which has binding specificity to NGF, preferably feline NGF.
Typically, the production of the felinised anti-feline NGF antibodies of the invention does not require back mutations to be introduced into the framework s of the light or heavy chain variable domains.
In certain embodiments, the light chain variable domain comprising said at least one framework region described above is conjoined to a feline derived light chain constant domain, typically a light chain kappa constant domain, but optionally a light chain lambda constant domain. In certain embodiments, said light chain comprises an FR1 region having an amino acid sequence of SEQ ID NO:8, an FR2 region with an amino acid sequence of SEQ ID NO:9, an FR3 region with an amino acid sequence of SEQ ID NO:10 and an FR4 region with an amino acid sequence of SEQ ID NO:11 or a framework region with an amino acid ce which has a sequence identity of at least 85, 90, 95 or 98% to the foregoing. In certain embodiments said identity is over a length of at least about 5 amino acids, preferably about 10 amino acids.
In certain further embodiments, the heavy chain variable region comprising at least one of the framework regions described above is conjoined to at least one feline derived heavy chain constant domain. In n embodiments, the amino acid sequence of the constant domain lacks any post-translational modifications, or may be modified to remove any or all residues which may be subject to ed or O-linked glycosylation, such that the constant s are aglycosylated. In certain embodiments the heavy chain comprises an FR1 region with an amino acid sequence ofSEQ ID NO:12, an FR2 region with an amino acid sequence of SEQ ID NO:13, an FR3 region with an amino acid sequence of SEQ ID NO:14 and an FR4 region with an amino acid sequence of SEQ ID NO:15 or a framework region with an amino acid sequence which has a sequence identity of at least 85, 90, 95 or 98% to the foregoing. In certain embodiments said identity is over a length of at least about 5 amino acids, preferably about 10 amino acids.
In certain further ments, cations may be made to the framework regions described herein. That is, the inventor has identified that for some es in each framework , there is a choice of amino acids for a given position. Importantly, these framework region modifications do not result in a conformational change to the associated complementarity determining regions, as this may alter the binding specificity and/or affinity of the resulting antibody. In certain embodiments, the invention extends to introducing 2 or more amino acid tutions into the amino acid residues of framework regions of the light chain variable region and/or heavy chain variable region.
Accordingly, in certain r embodiments, the invention extends to polypeptides, such as an antibody, or antigen binding nt thereof, which comprises a light chain variable domain having an FR1 region comprising the amino acid sequence of SEQ ID NO:8 which has been modified by substituting the amino acid e I at position 21 (I21) with the amino acid residue A.
In certain further embodiments, the light chain FR3 region having the amino acid sequence of SEQ ID NO:10 may be modified by substituting the amino acid residue F at position 31 (F31) with the amino acid residue Y.
In certain further embodiments, the heavy chain FR1 region having the amino acid sequence of SEQ ID NO:12 may be modified by one or more of the following amino acid tutions (where the amino acids are denoted by their single letter code): G9 can be A, D10 can be E, G15 can be E, G16 can be A, R19 can be K, A23 can be V or M. Furthermore, Q1 can be D or H, V2 can be E, Q3 can be L, E6 can be Q, G9 can be R, L11 can be V, V12 can be R or S, Q13 can be K, L18 can be V, R19 can be S, L20 can be I, T21 can be F or S, A23 can be K, A24 can be T, F27 can be Y or L, S28 can be T or N, L29 can be F or V and T30 can be S, G or R.
In certain r embodiments, the heavy chain FR2 region having the amino acid sequence of SEQ ID NO:13 may be modified by one or more of the following amino acid substitutions: V2 is L, W, F or A, R3 is C, A5 is P or T, G7 is E or A, K8 is Q orT, L10 is F, E11 is Q, W12 is E orT, M13 isVor L and G14 is A, TorS.
In certain further embodiments, the heavy chain FR3 region having the amino acid sequence of SEQ ID NO:14 may be modified by one or more of the ing amino acid substitutions: F2 is L, S5 is T, N8 is T, A9 is S, N11 is D, L13 is A, K21 is R and T22 is S. Furthermore, T3 is A, I4 is L or V, R6 is A or |, N8 is S, A9 is G orT, K10 is T, R, G or Q, T12 is A, Y14 is D or S, L15 is M, Q16 is E, Lor R, M17 is L orT, N18 is S, D or T, S19 is l, N, Ror T, K21 is G orT, T22 is P orA, E23 is T, A or D, T25 is A, T27 is V or M, Y29 is C or F, C30 is R, A31 is G, l, T, S or V and R32 is K, S, T, l, V, P, N or G.
In certain r embodiments, the heavy chain FR4 region having the amino acid sequence of SEQ ID NO:15 may be modified by one or more of the following amino acid substitutions: L6 is l. Furthermore, W1 can be R, G2 can be R, Q3 can be P, V, H or R, T5 can be A, V, l or S, L6 can be Q, S10 can be T and S11 can be Q, A or P.
In certain embodiments of the above aspects of the invention, the antibody is a monoclonal antibody. Typically the antibody is a felinised antibody.
In n further embodiments of the above aspects of the ion, the felinised NGF neutralising antibody of the invention, or the binding fragment derived therefrom specifically binds to feline NGF (nerve growth factor) with a binding affinity having an equilibrium dissociation constant (KB) of 1x10'8 or less.
Furthermore, it is preferred that the felinised antibodies of the invention are not cross-reactive to any other binding epitopes present in felines (other than NGF), and further that neutralising antibodies are not generated against the antibodies of the invention when they are stered to a feline. Furthermore, it is preferred that the constant domains of the antibodies do not mediate any downstream effector functions including, but not limited to: complement fixation and activation, ADCC and Fc receptor binding and activation.
In certain r embodiments, cations to the amino acid sequence of the constant regions of the heavy chain may be made to the antibodies of the ion. Said cation may involve the addition, substitution or deletion of one or more amino acid es. Said amino acid changes are typically performed in order to modify the functional characteristics of the antibody. For e, amino acid modification may be performed to prevent downstream or functions mediated by the antibody constant domains, for example by preventing the ability of the dy to bind to Fc receptors, activate complement or induce ADCC. Furthermore, modifications may be made to the hinge region of the heavy chain constant domain in order to modify the circulatory half life of an antibody when it is administered to a feline.
In certain ments, the antibody, or antigen binding fragment thereof, does not mediate downstream effector functions. Typically the antibody or binding fragment has a feline heavy chain subtype H02.
In certain embodiments, the felinised antibody is prepared according to the method of preparing an antibody of the first aspect of the invention.
The present invention extends to antibody fragments which bind to feline NGF and sequester its y to bind to the p75 or TrkA receptors.
In n embodiments the antibody binding fragment may comprise a heavy chain and light chain sequence of the invention connected by a flexible linker to form a single chain antibody.
A single chain Fv (scFv) comprises a VH and VL domain. The VH and VL domains associate to form a target g site. These 2 domains are covalently linked by a e linker. An scFv molecule can have the form of VL-linker-VH, in cases where the light chain variable domain is ed at the N-terminal, or as VH-linker—VL in cases where the VH domain is required at the N-terminal.
Accordingly, in n further embodiments, the antigen binding fragment is a single chain Fv (scFv) antibody fragment. In certain further embodiments, the antibody binding fragment is selected from the group consisting of, but not limited to, a Fab antibody fragment, a Fab’ antibody fragment, a 2 antibody fragment, an Fv antibody fragment and a scFV antibody fragment, and the like.
In certain further ments, the invention provides multispecific or multivalent antibodies comprising an anti-feline NGF antibody or binding nt derived therefrom according to the invention coupled or conjoined to further antibodies with different binding specificities, for use in combination therapy. A multispecific antibody comprises at least one felinised or ic antibody or a binding fragment derived therefrom which binds specifically to a first feline NGF epitope, and at least one binding site specific to another e present on feline NGF, or to a different antigen. A multivalent antibody comprises antibodies or antibody binding fragments which have binding specificity to the same feline NGF epitope.
Accordingly, in certain embodiments, the invention extends to an antibody fusion protein comprising four or more Fv regions or Fab regions of the sed or chimeric antibodies of the t invention. A yet further embodiment extends to an dy fusion protein comprising one or more Fab region derived from an antibody of the present invention along with one or more Fab or Fv regions from antibodies specific for feline NGF. In certain further embodiments, the invention extends to a bispecific antibody, wherein an antibody or binding fragment thereof according to the present invention is linked to a secondary antibody or fragment thereof which has binding specific for a secondary target, said target not being feline NGF. Preferably said secondary target assists in preventing NGF mediated ling h the p75 or TrkA receptors. Such alent, bispecific or multispecific antibodies can be made by a variety or recombinant methods which would be well known to the person skilled in the art.
A yet further aspect of the invention provides a felinised eurotrophin neutralising antibody comprising: (i) a light chain variable domain having the amino acid sequence of SEQ ID NO:3 or SEQ ID NO:23 or a ce which has at least 85% identity thereto and/or a heavy chain variable domain having the amino acid sequence of SEQ ID NO:4 or SEQ ID NO:22 or a sequence which has at least 85% identity thereto, or (ii) a chimeric antibody having a light chain having the amino acid sequence of SEQ ID NO:1 and/or a heavy chain having the amino acid sequence of SEQ ID NO:2.
In certain embodiments, the sed antibody has a light chain having the amino acid sequence of SEQ ID NO:5 or SEQ ID NO:25 and/or a heavy chain having the amino acid sequence ofSEQ ID NO:6 or SEQ ID NO:24. In n embodiments, the neurotrophin is feline nerve growth factor (NGF).
A yet further aspect of the invention provides a method for ng, inhibiting or ameliorating pain in a feline, the method comprising the steps of: - providing a therapeutically effective amount of an anti-feline NGF antibody, or n binding fragment thereof, wherein the antibody is a felinised or chimeric antibody according to the present invention, or a binding fragment of the same, and - administering the same to a feline in need thereof.
In n ments, the felinised antibody comprises a light chain variable domain comprising the amino acid sequence of SEQ ID NO:3 or SEQ ID NO:23 or a sequence which has at least 85% identity thereto and/or a heavy chain variable domain comprising the amino acid sequence of SEQ ID NO:4 or SEQ ID NO:22 or an amino acid sequence having at least 85% sequence homology thereto. In certain further embodiments, the sed antibody comprises a light chain having the amino acid ce of SEQ ID NO:5 or SEQ ID NO 25 or a sequence having a sequence identity of at least 85% thereto and/or a heavy chain which comprises, consists of or consists essentially of an amino acid of SEQ ID NO:6 or SEQ ID NO 24 or a sequence having an amino acid identity of at least 85% and more preferably at least 98% identity thereto.
In n embodiments, the felinised antibody or antigen binding fragment thereof is any of those provided by the foregoing s of the invention.
In certain embodiments, the chimeric antibody comprises a light chain having the amino acid sequence of SEQ ID NO:1 and/or a heavy chain having the amino acid sequence of SEQ ID NO:2.
In certain embodiments, the pain is neuropathic pain. In particular, the pain may be post-operative or post-surgical pain. Post-operative pain may result following any operating procedure which in felines may include, but is not d to, orthopaedic surgery, soft tissue surgery, ovariohysterectomy procedures, castration procedures and the like. In certain further embodiments, the pain is chronic pain ated with cancer or a cancerous condition (oncologic pain). In certain further embodiments, the pain is associated with, or resulting from, arthritis, including immune mediated polyarthritis, inflammation, pruritis, rheumatoid tis or osteoarthritis.
According to a yet further aspect of the present invention there is ed a method for the treatment of arthritis in a feline subject, said method comprising the steps of: - ing a therapeutically effective amount of an anti-feline NGF antibody according to the invention or antigen g fragment thereof, and - administering the same to a feline in need thereof.
In one embodiment, the anti-feline NGF antibody is a chimeric dy, wherein the light chain has the amino acid ofSEQ ID NO:1 and/or the heavy chain has the amino acid sequence ofSEQ ID NO:2.
In certain embodiments, the antibody is a felinised antibody. In certain embodiments, the sed antibody comprises a light chain variable domain comprising the amino acid sequence of SEQ ID NO:3 or SEQ ID NO 23 or a sequence which has at least 85% identity thereto and/or a heavy chain variable domain comprising the amino acid sequence of SEQ ID NO:4 or SEQ ID NO 22 or an amino acid sequence having at least 85% sequence homology thereto.
In certain embodiments, arthritis includes the conditions selected from the group consisting of immune mediated polyarthritis, rheumatoid tis, osteoarthritis and related conditions.
Typically, the treatment of arthritis comprises rating, inhibiting, reducing, suppressing or delaying the onset of pain associated with, or attributable to the arthritic ion.
A further aspect of the present invention provides a method for the treatment of a condition caused by, associated with or resulting in increased expression of feline NGF or increased sensitivity to NGF in a feline subject, said method comprising the steps of: - providing a therapeutically effective amount of an eline NGF antibody ing to the invention or antigen binding fragment thereof, and 2012/051003 - administering the same to a feline in need thereof.
According to a yet further aspect of the present ion there is provided a method for the treatment of a tumour induced to erate by NGF in a feline and conditions associated therewith, said method comprising the steps of: - providing a therapeutically effective amount of an anti-feline NGF antibody according to the invention or antigen binding fragment thereof, and - administering the same to a feline in need thereof.
In certain embodiments, the tumour is an osteosarcoma. In certain embodiments, the tumour is induced to proliferate by autocrine or paracrine NGF.
In certain embodiments, the ing methods of the invention further comprise the step of inistering at least one further agent which may enhance and/or complement the therapeutic effect of the anti-NGF antibody of the invention. For e, the antibody or antigen binding fragment thereof may be inistered along with at least one analgesic, NSAID, opioid, corticosteroid or steroid.
Examples of suitable analgesics include, but are not limited to, butorphanol, buprenorphine, fentanyl, flunixin meglumine, merpidine, morphine, hine and derivatives thereof. Suitable NSAIDS include, but are not limited to, acetaminophen, acetylsalicylic acid, carprofen, etodolac, ofen, meloxicam, firocoxib, robenacoxib, xib and the like.
In n further embodiments, the at least one further agent may be a therapeutically active agent which may be one or more of the group selected from antibiotic, antifungal, antiprotozoal, antiviral or similar therapeutic .
Furthermore the at least one further agent may be an inhibitor of mediator(s) of inflammation such as a PGE-receptor antagonist, an immunosuppressive agent, such as cyclosporine, or an anti-inflammatory glucocorticoid. In certain further aspects the at least one further agent may be an agent which is used for the treatment of cognitive dysfunction or impairment, such as memory loss or related conditions which may become increasingly prevalent in older felines. Further still, the at least one further agent may be an anti-hypertensive or other compound used for the treatment of cardiovascular dysfunction, for e to treat ension, myocardial ischemia, congestive heart failure and the like. Further still, the at least one further agent may be selected from the group consisting of a diuretic, vasodilator, beta-adrenergic receptor antagonist, angiotensin-ll converting enzyme inhibitor, calcium channel blocker and HMG-CoA reductase inhibitor.
In certain embodiments, the antibody or n binding fragment of the invention is administered to the feline in need thereof as part of the foregoing methods at a dose ranging from about 0.01 mg/kg of body weight to about 10 mg/kg of body weight, in particular from 0.03 mg/kg of body weight to about 3 mg/kg of body weight.
In various further aspects, the present invention extends to a ition comprising an antibody or binding fragment thereof according to any foregoing aspect of the ion. In certain embodiments, the composition further comprises at least one pharmaceutically acceptable carrier.
A yet further aspect of the invention provides a pharmaceutical ition for treating pain, or a ion ing in or caused by chronic pain in a feline, comprising a pharmaceutically effective amount of an anti-feline NGF felinised antibody according to the present invention, along with at least one pharmaceutically acceptable carrier, excipient or diluent.
In certain ments, the composition further comprises at least one analgesic, NSAID, opioid, corticosteroid or d.
In various further aspects, the present invention extends to an isolated c acid which encodes the antibody or antibody binding fragments of the invention.
Accordingly, a yet further aspect of the invention provides an isolated nucleic acid that encodes an dy or antigen binding fragment according to any of the foregoing s of the invention.
In certain embodiments, the polynucleotide encodes a light chain variable domain of an anti-feline NGF felinised antibody or antibody fragment having the amino acid sequence of SEQ ID NO:3 or SEQ ID NO:23, or a complete light chain having the amino acid sequence ofSEQ ID NO:5 or SEQ ID NO;25. In n further embodiments the po|ynuc|eotide encodes a heavy chain le domain of an eline NGF felinised antibody or dy fragment having the amino acid sequence of SEQ ID NO:4 or SEQ ID NO;22 or a heavy chain having the amino acid sequence of SEQ ID NO:6, SEQ ID NO:7, SEQ ID NO:17, SEQ ID NO:18 or SEQ ID NO;24.
In certain ments, the isolated nucleic acid r encodes one or more regulatory sequences operably linked thereto.
In a further aspect there is provided an expression vector comprising a po|ynuc|eotide encoding a heavy and/or light chain variable domain or a heavy and/or light chain constant domain of the invention. In n embodiments the expression vector further comprises one or more regulatory sequences. In certain embodiments the vector is a plasmid or a retroviral vector.
A yet further aspect provides a host cell incorporating the sion vector of the foregoing aspect of the invention. A further aspect of the invention provides a host cell which produces the antibody of any of the foregoing aspects of the invention.
A yet further aspect of the invention provides a method for producing a felinised anti-feline NGF neutralising antibody, the method comprising the step of culturing the host cell of the foregoing aspect of the invention to allow the cell to express the felinised anti-feline NGF neutralising antibody.
A yet further aspect of the present invention provides a method of producing an anti-feline NGF sed antibody according to the invention comprising the steps of expressing one or more of the polynucleotides / c acids or vectors of the foregoing s of the invention which express the light and/or heavy chains of the antibodies of the invention in a suitable host cell, recovering the expressed polypeptides, which may be expressed together in a host cell, or separately in different host cells, and isolating the antibodies.
A yet further aspect of the invention provides a method for treating, ameliorating or inhibiting pain in a feline, the method sing the step of administering to the feline an effective amount of a polynucleotide according to any of the foregoing aspects of the invention.
A yet further aspect of the invention provides an antibody or antibody binding fragment according to any of the foregoing s of the invention, or a pharmaceutical composition according to the foregoing aspects of the invention, or a nucleic acid, or vector comprising the same according to any of the foregoing aspects of the invention for use in the treatment, amelioration or prevention of pain in a feline.
In n embodiments the pain is acute pain. In certain embodiments, the pain is chronic pain. Furthermore, the pain may be post-operative pain, or pain ing from any operating procedure which in felines may include, but is not limited to, orthopaedic surgery, soft tissue surgery, ovariohysterectomy procedures, castration procedures and the like. In certain further embodiments, the pain is chronic pain associated with cancer or a cancerous condition. In n further ments, the pain is associated with, or results from, arthritis or an arthritic condition which includes polyarthritis, inflammation, pruritis, rheumatoid arthritis and osteoarthritis.
A yet r aspect of the invention provides an antibody or antibody binding fragment according to any of the foregoing aspects of the invention, or a pharmaceutical composition according to the foregoing aspects of the ion, or a c acid or vector comprising the same ing to any of the foregoing aspects of the invention for use in the treatment or osteoarthritis and/or rheumatoid arthritis.
A yet further aspect of the invention provides an antibody or antibody binding fragment according to any of the foregoing aspects of the invention, or a pharmaceutical composition according to the foregoing aspects of the invention, or a nucleic acid or vector comprising the same according to any of the foregoing aspects of the invention for use in the treatment of a tumour induced to erate by NGF in a feline subject and conditions associated therewith, in particular osteosarcoma. In certain ments, the tumour is d to erate by autocrine or paracrine NGF.
A yet further aspect of the invention provides use of an antibody or antibody binding fragment according to any of the foregoing aspects of the invention, or a pharmaceutical composition according to the foregoing aspects of the invention, or a nucleic acid or vector comprising the same according to any of the foregoing aspects of the invention in the preparation of a medicament for the treatment or prevention of pain in a feline.
In certain embodiments, the pain is acute pain. In further embodiments the pain is chronic pain. Furthermore, the pain may be post-operative pain, or pain resulting from any operating ure which in felines may include, but is not limited to, orthopaedic surgery, soft tissue y, ovariohysterectomy procedures, castration procedures and the like. In certain further embodiments, the pain is c pain associated with cancer or a cancerous condition. In certain further embodiments, the pain is associated with, or results from, inflammation, pruritis, rheumatoid arthritis or osteoarthritis.
A yet further aspect of the ion provides use of an antibody or dy g fragment according to any of the foregoing aspects of the invention, or a pharmaceutical composition according to the foregoing aspects of the invention, or a nucleic acid or vector comprising the same ing to any of the foregoing aspects of the invention in the preparation of a medicament for the treatment, inhibition ration or prevention of rheumatoid arthritis or osteoarthritis in a A yet further aspect of the invention provides use of an antibody or antibody binding fragment according to any of the foregoing aspects of the invention, or a pharmaceutical composition according to the foregoing aspects of the invention, or a c acid or vector comprising the same according to any of the foregoing aspects of the invention in the preparation of a medicament for the treatment of a tumour induced to proliferate by NGF in a feline and conditions associated therewith, in particular osteosarcoma. In certain embodiments, the tumour is induced to proliferate by autocrine or ine NGF.
In a yet further aspect there is provided a cell line, or a tive or progeny cell thereof that produces anti-feline NGF neutralising monoclonal antibodies, or fragments thereof according to the invention. The antibodies may be sed or ic antibodies.
A yet further aspect of the present invention provides a kit for the treatment of pain in felines, or for the treatment of a condition associated with pain, or for the treatment, amelioration or tion of pain associated osteoarthritis, rheumatoid arthritis or polyarthritis comprising an anti-feline NGF antibody or binding fragment according to any of the foregoing aspects of the invention and instructions for use of the same.
A yet further aspect of the present invention es a diagnostic kit for the detection of an anti-feline NGF monoclonal antibody in fluids in vitro, ex vivo and in vivo, for use in ining the concentration of said antibody. The kit may comprise any of the antibodies of the invention or a binding fragment thereof. The kit may comprise instructions for use of same.
Brief Description of the Figures Figure 1A is a graph g the binding of ic feline-rat antibody to feline NGF. Figure 1B shows a graph indicating binding of the chimeric feline-rat antibody to murine NGF.
Figure 2A shows that the feline-rat chimeric antibody can be purified using protein A. Figure 28 shows a gel with banding indicating both heavy and light chains of the chimeric antibody.
Figure 3A is a graph showing the g of felinised antibody to feline NGF.
Figure 3B shows a graph indicating binding of felinised antibody to murine NGF.
Figure 4A shows that the felinised antibody can be ed using protein A. Figure 4B shows a gel with banding indicating both heavy and light chains of the felinised Figure 5 is graph g the inhibition of NGF induced proliferation of TF-1 cells by anti-feline NGF felinised antibody.
Figure 6 shows a graph showing complement deposition induced by antigen- captured felinised antibodies.
Figure 7 shows the amino acid sequence of the light chain of the chimeric feline- rat antibody of the invention, including a leader sequence and a double stop codon at the end of the ce (SEQ ID NO:20). The rat derived variable domain residues are shown in bold.
Figure 8 shows the amino acid sequence of the heavy chain of the chimeric feline- rat antibody of the invention, including a leader sequence and a double stop codon at the end of the sequence (SEQ ID NO:21). The rat derived variable domain residues are shown in bold.
WO 53122 Figure 9 shows the amino acid residues of the light chain variable domain (SEQ ID NO:3) of a felinised antibody of the invention. The residues comprising the 3 CDR residues (CDR1, CDR2 and CDR3) are underlined. Asterisks indicate differences in a e with the equivalent residue in the rat alphaD11 anti-mouse NGF antibody. The residue numbering is according to Kabat.
Figure 10 shows the amino acid residues of the heavy chain variable domain (SEQ ID NO:4) of a felinised antibody of the invention. The residues comprising the 3 CDR residues (CDR1, CDR2 and CDR3) are underlined. Asterisks indicate differences in a residue with the equivalent e in the rat alphaD11 anti-mouse NGF antibody. The residue numbering is according to Kabat.
Figure 11 shows the amino acid sequence of the light chain of the felinised antibody of the invention (SEQ ID NO:5) wherein the es in bold are the amino acid es of the variable domain and the subsequent residues are a light chain kappa constant .
Figure 12 shows the amino acid sequence of the heavy chain of a felinised antibody of the invention (SEQ ID NO:6) wherein the residues in bold are the amino acid residues of the variable domain and the subsequent residues are the residues of the constant domains.
Figure 13 shows the amino acid sequence of a heavy chain of an alternative felinised antibody of the invention (SEQ ID NO:22 — feN2-VH).
Figure 14 shows the amino acid sequence of a light chain of an alternative felinised antibody of the invention having a light chain kappa constant domain (SEQ ID NO:23 — k).
Figure 15 shows the amino acid sequence of a complete heavy chain of an alternative felinised dy of the invention (SEQ ID NO:24 — feN2-HCZ).
Figure 16 shows the amino acid sequence of a light chain of an alternative sed antibody of the invention having a light chain kappa constant domain (SEQ ID NO:25 — LC).
Figure 17 shows that anti-canine NGF monoclonal dies prepared by a method corresponding to the method of the present invention reduce inflammatory pain in dogs.
Detailed description of the ion Following extensive mentation, the inventor has taken the rat anti-mouse NGF monoclonal antibody (MAb) dD11 amino acid sequence and used this to produce non-immunogenic chimeric and felinised anti-NGF antibodies. The chimeric antibody comprises the heavy and light chain variable domains derived from the alphaD11 rat anti-mouse NGF dy conjoined to feline antibody derived heavy and light chain constant domains. Even more singly, the felinised antibody, which is not produced using standard CDR grafting techniques, is shown to exhibit high affinity binding to feline NGF. Surprisingly, both the chimeric and felinised antibodies neutralise feline NGF biological function, most ically by inhibiting the binding of feline NGF to cell based NGF receptors TrkA and p75. Furthermore, it has also been discovered, ctedly, that when administered to a feline, neutralising antibodies are not produced there against. ingly, both the felinised and chimeric antibodies of the invention are suitable for long term chronic pain relief in cats.
The process of generating the heavy and light chain variable domains for the antibodies of the invention which has been employed by the inventor results in the replacement of specific rat (donor) amino acid residues which are present within the framework regions of the light and heavy chain variable domains with residues which, based on the inventor’s analysis, will retain the conformation of the CDR regions and ore maintain binding specificity and avidity, while reducing the presence of immunogenic epitopes which may result in neutralising antibodies being generated against the dy, if it were to be administered to felines in an unaltered form. Specifically, the method of preparing antibodies of the invention (known as PETisation) comprises assessing the sequence of the framework regions of a donor (e.g. rat) antibody for suitability for administering to a feline by comparing the sequence of the framework regions of the donor antibody with the sequence of an antibody or a pool of antibodies derived from felines. Although the comparison may be between the donor sequence and a single member of the target sequence, it will be s that comparison with a pool of target sequences is preferred because this will expand the number of natural options at each Kabat position in the target species. Not only will this increase the chance of a "match" n the donor and the target, but it will also expand the options for replacement where a match does not exist. As a result, a replacement with characteristics as close as le to the donor will be able to be chosen. Where the donor sequence and the feline sequence differ at any Kabat number or corresponding position, the donor sequence is modified to substitute the amino acid residue in question with an amino acid residue which is known to be natural at that position in felines.
Where substitution of an amino acid residue present in a donor globulin framework region is required, typically this is undertaken using the ple of vative substitution wherein an amino acid residue is replaced with an amino acid residue which is l at that Kabat position in a feline and is as closely related as possible in size, charge and hydrophobicity to the amino acid being substituted in the donor sequence. The ion is to choose a replacement which would cause no, or at least only minimum, perturbation or tion to the three-dimensional structure of the donor antibody. In certain ions, there will be no clear option and each choice will have benefits and downsides. A final decision may require three-dimensional modelling or even expression of various alternative sequences. However, generally, a clear preference will be available.
As a result of this procedure, a change in the donor sequence is only made when that residue would be foreign in the target and the replacement amino acid is as closely related as possible to that which it replaces. Thus, the creation of foreign epitopes is avoided, but the overall three-dimensional structure is preserved and as a result, affinity and specificity are also preserved.
The light and heavy chain constant regions are derived from feline t) derived antibodies. The heavy chain constant domains are selected or modified such that they do not mediate ream effector functions. As it has been found, quite surprisingly, that no or minimal neutralising antibodies are produced t the antibodies produced according to the ion, the antibodies have surprisingly been found to have the associated benefit of long circulatory half life and the option for repeat dosing. Furthermore, as the substitution of the framework residues is performed in such a manner that it does not affect the three dimensional conformation of the CDR regions, there will be no ion in binding specificity.
There are four major lgG isotypes in man and mouse and while nomenclature is similar they differ in our and function including ty for bacterial products such as Protein A and Protein G, their ability to activate the ment dependent cytolysis (CDC) and their ability to induce killing of target cells through antibody dependent cellular cytotoxity (ADCC). The selection of lgG isotypes with CDC and ADCC active or "armed" constant domains is ered to be of clinical benefit when antibodies are designed to eliminate target cells bearing their cognate antigen, such as in oncology or infection control (e.g. in human medical use human lgG1 isotypes are preferred for the above purposes). By contrast, the activation of the immune system is considered undesirable in other settings such as in the relief of inflammation, pain or autoimmunity and so human lgG es with minimal CDC and ADCC activity are preferred (e.g. in such human medical use, lgG4 isotypes are often preferred). The selection of lgG isotypes with CDC and ADCC active constant domains is considered to be of benefit when dies are designed to eliminate target cells g the cognate antigen, such as in gy or infection control, e.g. in human medical use human lgG1 isotypes are preferred. By contrast, the activation of the immune system is considered undesirable in other settings such as in the relief of inflammation, pain or autoimmunity and so human lgG isotypes with minimal or "disarmed" CDC and ADCC activity are preferred, e.g. in human medical use, lgG4 isotypes would be selected. While it is not known whether feline MAb isotypes will have a similar or different spectrum of activities, the selection of armed or disarmed heavy chains is presumed to be of similar value.
Both the felinised and chimeric antibodies of the invention se feline derived heavy and light chain nt s. Furthermore, in both the sed and chimeric antibodies, the complementarity determining regions (CDRs) are d from the rat alphaD11 anti-mouse NGF dy. The (IBM antibody was first described by eo et al. (Cattaneo A, Rapposelli B, Calissano P. (1988) "Three distinct types of monoclonal antibodies after long-term immunization of rats with mouse nerve growth factor". J Neurochem 50(4):1003-1010). The alphaD11 antibody was subsequently cloned by Ruberti et al. (Ruberti, F. et al. (1993) "Cloning and Expression of an Anti-Nerve Growth Factor (NGF) Antibody for Studies Using the Neuroantibody Approach". Cellular and Molecular Neurobiology. 13(5):559-568).
In the chimeric antibodies of the invention, the heavy and light chain variable domains are the complete variable domains derived from the dD11 dy.
In the sed antibodies of the invention, the CDR regions derived from the (IBM antibody are combined with framework region sequences which, gh based on the framework regions present in the (IBM antibody, have been modified by way of substituting specific amino acid residues. This process results in the removal of epitopes which may be targeted by T cells following the administration of the antibody to a feline. Furthermore, the framework residue modifications are selected in such a way that the tertiary structure of the CDR regions is preserved, while ting neutralising antibodies being raised there against, when the dy is administered to a feline.
Each of the light and heavy chain variable regions contains four framework regions, referred to as FR1-FR4. For each of these framework regions, the inventor has identified a preferred amino e (a so called preferred residue) for each specific position, and rmore alternative amino acid residues which could also be provided at that position. Tables 1 to 8 below illustrate the 4 framework regions for each of the heavy and light chains. The tables provide the amino acid position relative to that specific framework region and further according to the Kabat numbering system used to identify the position of a particular residue along the length of the complete heavy or light chain le . The residue or residues shown as group 1 residues are the preferred residues, while the group 2 residues are alternative residues. However these would lly not be able to the residues shown in group 1 relating to that specific position. The amino acid residues are identified using the single letter system.
Table 1 — Light chain variable domain FR1 residues Light Kabat light Group 1 Group 2 chain FR1 chain amino acid amino position numbering residues acid position residues 1 1 D 2 2 l 3 3 V 4 4 M 5 T 6 6 Q 7 7 T 8 8 P 9 9 L 10 S 11 11 L 12 12 S 13 13 v 14 14 T 15 P 16 16 G 17 17 E 18 18 P 19 19 A 20 s 21 21 A I 22 22 s 23 23 c Table 2 — Light chain le domain FR2 residues Light Kabat light Group 1 Group 2 chain FR2 chain amino acid amino position numbering residues acid position residues 1 35 W 2 36 Y 3 37 L 4 38 Q 39 K 6 40 P 7 41 G 8 42 Q 9 43 S 44 P 11 45 R 12 46 R 13 47 L 14 48 l 49 Table 3 — Light chain le domain FR3 residues Light Kabat light Group 1 Group 2 chain FR3 chain amino acid amino position numbering residues acid position residues 1 57 G 2 58 V 3 59 P 4 60 D 61 R 6 62 F 7 63 S 8 64 G 9 65 S 66 G 11 67 S 12 68 G 13 69 T 14 70 D 71 F 16 72 T 17 73 L 18 74 R 19 75 l 76 S 21 77 R 22 78 V 23 79 E 24 80 A 81 D 26 82 D 27 82A V 28 82B G 29 820 V 83 Y 31 84 F Y 32 85 C Table 4 — Light chain variable domain FR4 residues Light Kabat light Group 1 Group 2 chain FR4 chain amino acid amino position numbering residues acid position residues 1 95 F 2 96 G 3 97 P 4 98 G 99 T 6 100 K 7 101 L 8 102 E 9 103 l 104 K Table 5 — Heavy chain variable domain FR1 es Heavy Kabat heavy Group 1 Group 2 chain FR1 chain amino acid amino position numbering residues acid position residues 1 1 Q D, H 2 2 V E 3 3 Q L 4 4 L 5 V 6 6 E Q 7 7 S 8 8 G 9 9 G, A R 10 D, E 11 11 L V 12 12 V R, S 13 13 Q K 14 14 P 15 G, E 16 16 G, A 17 17 S 18 18 L V 19 19 R, K S 20 L | 21 21 T F, S 22 22 C 23 23 A, V, M K 24 24 A T 25 S 26 26 G 27 27 F Y, L 28 28 S T, N 29 29 L F, V 30 T S, G, R Table 6 — Heavy chain le domain FR2 residues W0 2012/153122 Heavy Kabat heavy Group 1 Group 2 Chain FR2 chain Amino Acid Amino position numbering residues Acid position residues 1 36 W 2 37 V LWFA 3 38 R C 4 39 Q 40 A PT 6 41 P 7 42 G EA 8 43 K QT 9 44 G 45 L F 11 46 E Q 12 47 W ET 13 48 M VL 14 49 G ATS Table 7 — Heavy chain le domain FR3 residues Heavy Kabat heavy Group 1 Group 2 chain FR3 chain amino acid amino position numbering residues acid position residues 1 66 R 2 67 LF 3 68 T A 4 69 | LV 70 ST 6 71 R N 7 72 D 8 73 TN S 9 74 AS GT 75 K TRGQ 1 1 76 ND 12 77 T A 13 78 LA 14 79 Y DS 80 L M 16 81 Q ELR 17 82 M LT 18 82A N SDT 19 82B S INRT 820 L 21 83 KR GT 22 84 ST PA 23 85 E TAD 24 86 D 87 T A 26 88 A 27 89 T VM 28 90 Y 29 91 Y CF 92 C R 31 93 A GITSV 32 94 R N Table 8 — Heavy chain variable domain FR4 residues Heavy Kabat heavy Group 1 Group 2 Chain FR4 chain Amino Acid Amino position numbering residues Acid position residues 1 103 W R 2 104 G R 3 105 Q PVHR 4 106 G 107 T AVIS 6 108 Ll Q 7 109 V 8 110 T 9 111 V 1 12 S T 1 1 1 13 S QAP The felinised antibody of the invention therefore differs from the chimeric onal antibody of the invention which comprises a complete variable domain derived from a first species (rat alphaD11 ouse NGF dy) and constant domains derived from a second species (feline derived dies), or from a CDR-grafted felinised antibody, where the mentarity determining regions (CDRs) of the heavy and light chain variable regions comprise amino acid residues derived from a donor antibody and introduced into ork regions (FR) and constant regions (CR) d from a target antibody or from feline ne sequences.
It is preferred that the felinised antibody substantially retains the binding properties of the parent (donor) antibody from which the CDRs are derived. That means that the felinised antibody will exhibit the same or substantially the same antigen- binding affinity and avidity as the donor antibody from which the CDRs are derived, in this instance, the rat derived alphaD11 anti-mouse NGF antibody.
Ideally, the affinity of the felinised antibody will not be less than 10% of the donor antibody affinity for the target epitope, more preferably not less than about 30%, and most preferably the affinity will not be less than 50% of the parent antibody.
Methods for assaying n-binding affinity are well known in the art and include half-maximal binding assays, competition assays, and Scatchard is.
As defined hereinbefore, the present invention extends to binding members or antigen binding fragments derived from the chimeric or felinised antibodies of the invention. Such antigen g fragments refer to one or more fragments of an antibody that retain the ability to ically bind to feline NGF. It has been shown that the antigen binding function of an antibody can be performed by fragments of a full length antibody. In certain embodiments, the binding members or antigen binding fragments may be isolated binding members. A binding member or antigen g fragment of the invention may comprise a fragment of the antibodies of the present invention, e.g. a fragment of a fully felinised antibody molecule, such as the heavy or light chain only, or, for example, the variable domain of the heavy and/or light chain. In certain embodiments, a binding member may typically comprise, consist, or consist essentially of an antibody VH and/or VL domain. VH domains of binding s are also provided as part of the invention. Within each of the VH and VL domains are 3 complementarity ining regions ("CDRs"), along with 4 associated framework regions ("FRs").
A VH domain lly comprises 3 HCDRs (heavy chain mentarity ining regions), and a VL domain typically comprises 3 LCDRs (light chain complementarity regions). Accordingly, a binding member may comprise a VH domain comprising, in sequence, VH CDR1 (or HCDR1), CDR2 (HCDR2) and CDR3 (HCDR3) regions along with a plurality of associated ork regions. A binding member may additionally or alternatively comprise a VL domain comprising VL CDR1, CDR2 and CDR3 domains along with ated framework regions. The VH or VL domains typically comprise four framework regions, FR1, FR2, FR3 and FR4, interposed with the 3 complementarity determining regions in the following arrangement: FR1 — CDR1 - FR2 - CDR2 - FR3 - CDR3 - FR4.
Figure 9 shows the amino acid sequence of a light chain variable domain of an anti-NGF antibody according to the invention. The CDR1, CDR2 and CDR3 s are underlined. Further, Figure 10 shows the amino acid sequence of a heavy chain le domain of an anti-NGF antibody according to the ion.
The CDR1, CDR2 and CDR3 regions are underlined.
In Figures 9 and 10, the residues of the light chain variable domain (Figure 9) and heavy chain variable domain (Figure 10) are conventionally numbered according to the numbering system devised by Kabat et al. (Kabat,E.A., Wu,T.T., Perry,H., Gottesman,K. and Foeller,C. (1991) Sequences of Proteins of logical st, Fifth Edition. NIH Publication No. 91-3242). The Kabat numbering system is generally used when referring to a residue in the variable domain (approximately residues 1-104 of the light chain and residues 1-113 of the heavy chain). This numbering system is used in the t specification, where stated.
The Kabat amino acid residue designations do not always correspond directly with the linear sequential numbering of the amino acid residues of the heavy and light chain variable regions of the t invention provided in the sequence listed in the corresponding SEQ ID NO for that sequence. In particular, the actual linear amino acid sequence may contain fewer or additional amino acids than in the strict Kabat numbering corresponding to a shortening of, or an insertion into, a structural component, whether a framework region or complementarity determining region (CDR), of the basic le domain structure of the heavy or light chain. The t Kabat numbering of residues may be determined for any given antibody by alignment of residues in the sequence of the antibody with a standard sequence to which the Kabat numbering has been applied.
Figure 10 shows a heavy chain variable domain amino acid sequence of a felinised anti-feline NGF antibody of the invention. This is also shown in SEQ ID NO:4. However, in Figure 10, the ing used (Kabat) takes account of amino acid residues 80, 80A, 80B, and 80C, whereas in SEQ ID NO:4, the numbering continues sequentially, that is residues 80, 81, 82 and 83. The same is true for Kabat residues 100, 100A, 100B, 100C, 100D, 100E and 100F in Figure 10.
As described hereinbefore, an antibody binding nt may be selected from the group sing, but not limited to, a Fab fragment, a Fab’ fragment and a scFv (single chain variable fragment), or from a peptidomimetic, a diabody, or a related multivalent derivative.
In certain embodiments the antibody g fragment is a Fab or F(ab’)2 fragment, which consists of the VL, VH, CL and CH1 domains of an antibody. In certain embodiments, the VL domain has an amino acid sequence of SEQ ID NO:3, and the VH domain has an amino acid ce of SEQ ID NO:4. In certain embodiments, the CL and CH1 domains are based on the amino acid sequence of a CL and CH1 domain of a feline immunoglobulin.
Techniques used for the recombinant production of Fab, Fab’ and F(ab’)2 fragments are well known to the person skilled in the art and include those disclosed in International PCT Patent Publication WO 92/22324, and in Sawai et al., "Direct Production of the Fab Fragment Derived From the Sperm Immobilizing Antibody Using Polymerase Chain Reaction and cDNA Expression Vectors", 1995, AJRI 34:26-34. Examples of techniques which can be used to produce scFv (single chain Fv fragments) are sed in Huston et al., in Engineering of Single-Chain Fv Analogs and Fusion Proteins", Methods in Enzymology, vol. 203:46-88 (1991), the contents of which are orated by reference.
In certain ments, antibody nts can be derived from full length antibodies by proteolytic digestion according to the method of Morimoto (Morimoto et al., "Single-step purification of F(ab')2 fragments of mouse monoclonal dies (immunoglobulins G1) by hydrophobic interaction high mance liquid chromatography using TSngl Phenyl-5PW" Journal of Biochemical and Biophysical Methods 24:107-117 ). Antibody fragments can also be produced directly by host cells (Carter et al., "High level Escherichia coli expression and production of a bivalent humanized antibody fragment" Bio/Technology 10:163-167 (1992)).
In addition to providing chimeric and felinised monoclonal antibodies which have binding specificity to feline NGF and which antagonise feline NGF function, the present invention further extends to g members other than antibodies, comprising a pair of binding domains based on the amino acid sequence of a VL (light chain variable) region as defined in SEQ ID NO:3 and an amino acid sequence of a VH (heavy chain variable) region as defined in SEQ ID NO:4. In particular, the invention extends to single binding domains which are based on either the VL or VH region of the felinised antibodies of the antibodies of the invenflon.
Accordingly, in certain further embodiments of the present invention, there is provided a binding member comprising, ting of or consisting essentially of a single g domain d from the felinised antibody of the invention. In n embodiments, the single binding domain is derived from the amino acid sequence of the VH (heavy chain variable domain) as defined in SEQ ID NO:4.
Such a binding domain may be used as a ing agent to feline NGF.
In certain embodiments, r engineering techniques can be used to modify the antibodies of the present invention, for example by including modifications of the Fc region which can alter serum half life, ment on, Fc receptor binding and/or n dependent cellular cytotoxicity. Further, in certain embodiments, antibodies or antibody nts can be produced which have altered glycosylation patterns. In certain embodiments, an antibody of the invention is altered to increase or decrease the extent to which the antibody is glycosylated.
Glycosylation of polypeptides is typically either N-linked or O-linked. N-linked refers to the attachment of a carbohydrate moiety to the side chain of an asparagine residue. The tripeptide sequences asparagine-X-serine and asparagine-X -threonine, where X is any amino acid except proline, are the recognition sequences for tic attachment of the carbohydrate moiety to the asparagine side chain. Thus, the presence of either of these tripeptide sequences in a polypeptide creates a potential glycosylation site. O-linked glycosylation refers to the attachment of one of the sugars N- aceylgalactosamine, galactose, or 2012/051003 xylose to a hydroxyamino acid, most commonly serine or threonine, although 5- hydroxyproline or 5-hydroxylysine may also be used. The inventor has provided the amino acid sequence of an aglycosylated feline heavy chain constant region, this being defined in SEQ ID NO:7.
In certain further embodiments, the chimeric and felinised anti-feline NGF antibodies of the invention can be PEGylated by ng the antibody with a plyethylene glycol (PEG) derivative. In certain embodiments, the felinised or chimeric antibody is defucosylated and therefore lacks fucose residues.
In certain embodiments, modifications in the biological properties of an antibody may be accomplished by ing substitutions that affect (a) the structure of the polypeptide backbone in the area of the substitution, for example, as a sheet or helical conformation, (b) the charge or hydrophobicity of the molecule at the target site, or (c) the bulk of the side chain. Amino acids may be d according to similarities in the properties of their side chains (A. L. Lehninger, in Biochemistry, 2nd Ed., 73-75, Worth Publishers, New York (1975)): (1) non-polar residues: Ala (A), Val (V), Leu (L), lie (I), Pro (P), Phe (F), Trp (W), Met (M); (2) uncharged polar residues: Gly (G), Ser (S), Thr (T), Cys (C), Tyr (Y), Asn (N), Gin (Q); (3) acidic residues: Asp (D), Glu (E); (4) basic: Lys (K), Arg (R), His(H). Alternatively, naturally occurring residues may be divided into groups based on common side- chain properties: (1) hydrophobic residues: Norleucine, Met, Ala, Val, Leu, lie; (2) neutral hydrophilic residues: Cys, Ser, Thr, Asn, Gin; (3) acidic: Asp, Glu; (4) basic residues: His, Lys, Arg; (5) residues that influence chain orientation: Gly, Pro; (6) aromatic residues: Trp, Tyr, Phe. Non-conservative substitutions will entail exchanging a member of one of these classes for a residue derived from another class. Such substituted es may be uced into the conservative tution sites or, into the remaining (e.g. non-conserved) sites.
In various further aspects, the present invention extends to an immunoconjugate comprising an anti-feline NGF antibody of the ion, or an antigen binding portion thereof linked to a r le. In certain embodiments, such an 2012/051003 antibody-partner molecule conjugate is ated by means of a chemical linker, such as a peptidyl linker, a ine linker or a hide linker. In certain embodiments, the coupling partner is an or molecule, label, drug, or carrier molecule. Suitable techniques for coupling the antibodies of the invention to both peptidyl and non-peptidyl coupling partners will be well known to persons skilled in the art. Examples of suitable labels include detectable labels, such as a radiolabel, or an enzymatic label, such as horse radish peroxidase, or chemical moieties, such as biotin. Alternatively, the label may be a onal label, for example, ricin, or pro-drugs which are capable of converting prodrugs into active drugs at the site of antibody binding.
In various further aspects, the present ion extends to polynucleotides, and in particular ed polynucleotides, which encode the chimeric and sed antibodies of the invention or to the antibody fragments and binding members of the present invention. As defined herein, a "polynucleotide" includes any polyribonucleotide or polydeoxyribonucleotide, which may be unmodified RNA or DNA, or modified RNA or DNA, including without limitation, single and double ed RNA, and RNA which is a mixture of single and double stranded regions.
A polynucleotide of the invention, e.g. a polynucleotide which encodes a polypeptide or polypeptides of the invention includes allelic variants thereof and/or their complements including a polynucleotide that hybridises to such nucleotide sequences under conditions of moderate or high stringency.
The present invention further extends to antibody mimetics, such as domain antibodies, nanobodies, unibodies, versabodies, and ins which are based on the chimeric and felinised anti-feline NGF antibodies of the present invention.
A wide variety of antibody mimetic technologies are known to the person skilled in the art. For example, so called, domain antibodies (Domantis, UK) are small onal binding units of dies which correspond to the variable regions of either the light or heavy chains of human antibodies. Directions for the production of such domain antibodies can be found in US Patent No. 6,291,158, US Patent No. 6,582,915 and US Patent No. 6,593,081. Nanobodies are antibody-derived therapeutic proteins which contain unique structural and functional properties of naturally occurring heavy chain antibodies found in camelids. Unibodies are a further antibody fragment technology, based upon the l of the hinge region of lgG4 antibodies. The deletion of the hinge region results in a molecule which is imately half the size of a ional lgG4 dy and which has a univalent binding region. Unibodies ve the property of lgG4 antibodies of being inert and therefore not inducing immune responses. r binding molecules include affibody molecules (US Patent 5,831,012), DARPins (designed ankyrin repeat proteins) (International PCT Patent Application Publication WO 02/20565) and anticalins (US Patent No. 7,250,297 and WO 99/16873). Verabodies are a r antibody c technology. Versabodies (Amunix, US Patent Application Publication No. EGGWMWZT’Z) are small proteins, referred to as microproteins, of 3-5kDa with greater than 15% cysteine residues, which form a high disulphide bond density scaffold which replaces the hydrophobic core which protein typically exhibit Avimers are another type of antibody mimetic. Avimers originate from the recombination of families of human serum ns. They are single protein chains composed of modular binding domains, each of which is designed to bind to a particular target site. The avimers can bind simultaneously to sites on a single protein target and/or sites on multiple protein targets. Known as multi-point attachment or avidity, this binding mechanism mimics the way cells and molecules interact in the body, supports the generation of antagonists and agonists, and results in drugs with le functions and potent activity. Avimers ies can be produced according to orated herein by reference.
Avimers ies are also available commercially from Avidia Inc, Mountain View, California, USA.
Antibody production The antibodies and binding members of the invention may be produced wholly or partly by chemical synthesis. For e, the antibodies and binding members of the invention can be prepared by techniques which are well known to the person skilled in the art, such as standard liquid peptide synthesis, or by solid- phase peptide synthesis methods. atively, the antibodies and binding members may be prepared in solution using liquid phase peptide synthesis techniques, or r by a combination of solid-phase, liquid phase and solution chemistry.
The present invention further extends to the production of the antibodies or binding members of the invention by expression of a nucleic acid which encodes at least one amino acid which comprises an antibody of the invention in a suitable sion system, such that a desired peptide or polypeptide can be encoded.
For example, a nucleic acid encoding the amino acid light chain and a second c acid encoding an amino acid heavy chain can be sed to provide an antibody of the present invention.
Accordingly, in certain further aspects of the invention, there is provided nucleic acids encoding amino acid sequences which form the dies or binding members of the present invention.
Typically, nucleic acids encoding the amino acid sequences which form antibodies or binding members of the present invention can be provided in an isolated or purified form, or provided in a form which is substantially free of material which can be naturally associated with it, with the exception of one or more regulatory sequences. Nucleic acid which expresses an antibody or binding member of the invention may be wholly or lly synthetic and may include, but is not limited to DNA, cDNA and RNA.
Nucleic acid sequences ng the antibodies or g members of the invention can be readily prepared by the skilled person using ques which are well known to those skilled in the art, such as those described in Sambrook et al.
"Molecular Cloning", A laboratory manual, cold Spring Harbor Laboratory Press, Volumes 1-3, 2001 (ISBN-0879695773), and Ausubel et al. Short Protocols in Molecular Biology. John Wiley and Sons, 4th Edition, 1999 (ISBN — 0471250929).
Said techniques include (i) the use of the polymerase chain reaction (PCR) to amplify s of nucleic acid, (ii) al synthesis, or (iii) ation of cDNA sequences. DNA encoding antibodies or binding members of the invention may be generated and used in any suitable way known to those skilled in the art, including taking encoding DNA, identifying suitable restriction enzyme recognition sites either side of the n to be sed, and cutting out said portion from the DNA. The excised portion may then be operably linked to a le promoter and expressed in a suitable expression , such as a commercially available expression system. Alternatively, the relevant portions of DNA can be amplified by using suitable PCR primers. Modifications to the DNA sequences can be made by using site directed mutagenesis.
Nucleic acid sequences encoding the dies or binding members of the invention may be provided as constructs in the form of a plasmid, vector, transcription or expression te which comprises at least one nucleic acid as described above. The construct may be comprised within a recombinant host cell which comprises one or more constructs as above. sion may conveniently be achieved by culturing, under appropriate conditions, recombinant host cells containing suitable nucleic acid sequences. Following expression, the antibody or antibody fragments may be isolated and/or purified using any suitable technique, then used as appropriate. s for cloning and sion of a polypeptide in a variety of different host cells are well known. Suitable host cells include bacteria, mammalian cells, yeast, insect and baculovirus systems. Mammalian cell lines available in the art for expression of a heterologous polypeptide include Chinese hamster ovary (CHO) cells, HeLa cells, baby hamster kidney cells and N80 mouse myeloma cells. A common, preferred bacterial host is E. coli. The expression of dies and antibody fragments in prokaryotic cells such as E. coli is well established in the art.
Expression in eukaryotic cells in culture is also ble to those skilled in the art as an option for production of a binding member.
General techniques for the production of antibodies are well known to the person skilled in the field, with such methods being discussed in, for example, Kohler and in (1975) Nature 256: 495-497; US Patent No. 4,376,110; Harlow and Lane, Antibodies: a Laboratory Manual, (1988) Cold Spring Harbor. Techniques for the preparation of recombinant antibody molecules are described in the above references and also in, for example, an Patent Number 0,368,684.
In certain embodiments of the invention, inant nucleic acids comprising an insert coding for a heavy chain variable domain and/or for a light chain variable domain of dies or binding members are employed. By definition, such nucleic acids se encode single stranded nucleic acids, double stranded c acids consisting of said coding c acids and of complementary nucleic acids thereto, or these complementary (single stranded) nucleic acids themselves.
Furthermore, nucleic acids encoding a heavy chain variable domain and/or a light chain variable domain of antibodies can be enzymatically or chemically synthesised nucleic acids having the tic sequence coding for a naturally- occurring heavy chain variable domain and/or for the light chain variable domain, or a mutant thereof.
The antibodies of the invention may be produced by recombinant means, not only directly, but also as a fusion polypeptide with a heterologous polypeptide, which is preferably a signal sequence or other ptide having a specific cleavage site at the N-terminus of the mature protein or polypeptide. The heterologous signal sequence selected preferably is one that is recognized and processed (i.e. cleaved by a signal peptidase) by the host cell. For prokaryotic host cells that do not recognize and process a native antibody signal sequence, the signal sequence is substituted by a prokaryotic signal sequence selected, for example, from the group of the ne phosphatase, llinase, lpp, or heat-stable enterotoxin ll leaders.
The term ted", when used in reference to the felinised antibodies of the ion, or to binding members derived therefrom, or polypeptides which encode the same, refers to the state in which said antibodies, binding members or nucleic acids ucleotides) are provided in an ed and/or purified form, that is they have been separated, isolated or purified from their natural environment, and are provided in a substantially pure or homogeneous form, or, in the case of nucleic acid, free or ntially free of nucleic acid or genes of origin other than the sequence encoding a polypeptide with the ed function. Accordingly, such isolated antibodies, binding members and isolated nucleic acids will be free or substantially free of material with which they are naturally associated, such as other polypeptides or nucleic acids with which they are found in their natural environment, or the environment in which they are prepared (e.g. cell culture) when such preparation is by recombinant DNA technology practised in vitro or in vivo.
Antibodies, binding members and nucleic acids may be formulated with diluents or adjuvants and still, for practical purposes, be considered as being provided in an isolated form. For example the dies and binding members can be mixed with gelatin or other carriers if used to coat microtitre plates for use in immunoassays, or will be mixed with pharmaceutically acceptable carriers or diluents when used in sis or therapy. The antibodies or binding members may be glycosylated, either naturally or by systems of heterologous eukaryotic cells (e.g. CHO or NSO cells, or they may be (for example if produced by sion in a prokaryotic cell) unglycosylated.
Heterogeneous preparations comprising anti-feline NGF felinised antibody molecules also form part of the invention. For example, such ations may be mixtures of antibodies with full-length heavy chains and heavy chains lacking the C-terminal lysine, with various degrees of glycosylation and/or with derivatized amino acids, such as cyclization of an N-terminal glutamic acid to form a pyroglutamic acid residue.
Pharmaceutical compositions lly the pharmaceutical compositions of the invention are formulated in a liquid formulation, a lyophilized formulation, a lyophilized formulation that is reconstituted as a liquid, or as an aerosol formulation. In n embodiments, the antibody in the formulation is at a concentration of: about 0.5 mg/ml to about 250 mg/ml, about 0.5 mg/ml to about 45 mg/ml, about 0.5 mg/ml to about 100 mg/ml, about 100 mg/ml to about 200 mg/ml, or about 50 mg/ml to about 250 mg/ml.
In certain embodiments, the formulation further comprises a . Typically the pH of the formulation is from about pH 5.5 to about pH 6.5. In certain embodiments, the buffer may comprise from about 4 mM to about 60 mM histidine buffer, about 5 mM to about 25 mM succinate buffer, or about 5 mM to 25 mM acetate buffer. In certain embodiments, the buffer comprises sodium chloride at a concentration of from about 10mM to 300mM, typically at around 125mM concentration and sodium citrate at a concentration of from about 5mM to 50mM, typically 25mM. In certain embodiments the formulation can r comprise a surfactant at a concentration ofjust above 0% to about 0.2%. In certain embodiments the surfactant is ed from the group consisting of, but not limited to: polysorbate-20, polysorbate-40, polysorbate-60, polysorbate-65, polysorbate-80, polysorbate-85, and combinations thereof. In a preferred embodiment, the surfactant is polysorbate-20 and may further comprise sodium chloride at a concentration of about 125mM and sodium citrate at a concentration of about 25mM.
Administration The antibodies or binding s of the present invention may be administered alone but will ably be administered as a pharmaceutical composition which will generally se a suitable pharmaceutically acceptable excipient, t or carrier selected depending on the intended route of administration. Examples of suitable pharmaceutical carriers include; water, glycerol, ethanol and the like.
The monoclonal antibody or binding member of the present invention may be administered to a feline patient in need of treatment via any suitable route.
Typically, the ition can be administered parenterally by injection or on. Examples of preferred routes for parenteral administration include, but are not limited to; intravenous, intracardial, intraarterial, intraperitoneal, intramuscular, intracavity, subcutaneous, transmucosal, inhalation or transdermal.
Routes of administration may further include topical and enteral, for e, mucosal ding pulmonary), oral, nasal, .
In embodiments where the composition is delivered as an injectable composition, for example in intravenous, intradermal or subcutaneous application, the active ingredient can be in the form of a parenterally acceptable aqueous solution which is pyrogen-free and has suitable pH, isotonicity and stability. Those of relevant skill in the art are well able to prepare suitable solutions using, for example, isotonic vehicles such as sodium chloride ion, Ringer’s injection or, Lactated Ringer’s injection. Preservatives, stabilisers, buffers, idants and/or other additives may be included, as required.
The composition may also be administered via microspheres, liposomes, other microparticulate delivery systems or ned release formulations placed in certain tissues including blood.
Examples of the techniques and protocols mentioned above and other techniques and protocols which may be used in accordance with the invention can be found in Remington’s Pharmaceutical Sciences, 18th edition, o, A.R., Lippincott Williams & Wilkins; 20th edition ISBN 004-3 and Pharmaceutical Dosage Forms and Drug Delivery Systems; Ansel, H.C. et al. 7th Edition ISBN 0 72-7, the entire disclosures of which is herein incorporated by reference.
The antibodies and itions of the invention are typically administered to a subject in a peutically ive amount", this being an amount ient to show benefit to the subject to whom the composition is administered. The actual dose administered, and rate and time-course of administration, will depend on, and can be determined with due reference to, the nature and severity of the condition which is being treated, as well as factors such as the age, sex and weight of the subject being d, as well as the route of administration. Further due consideration should be given to the properties of the composition, for e, its binding activity and in-vivo plasma life, the concentration of the antibody or binding member in the formulation, as well as the route, site and rate of delivery.
Dosage regimens can include a single administration of the antibody or composition of the invention, or multiple administrative doses of the antibody or composition. The dy or antibody containing compositions can further be administered sequentially or separately with other therapeutics and medicaments which are used for the treatment of the condition for which the dy or g member of the present ion is being administered to treat.
Examples of dosage ns which can be administered to a subject can be selected from the group comprising, but not limited to; 1ug/kg/day through to 20mg/kg/day, 1ug/kg/day through to 10mg/kg/day, 10ug/kg/day through to 1mg/kg/day. In certain embodiments, the dosage will be such that a plasma concentration of from 1ug/ml to ml of the antibody is obtained. However, the actual dose of the composition administered, and rate and time-course of administration, will depend on the nature and severity of the condition being treated. Prescription of treatment, e.g. decisions on dosage etc, is tely within the responsibility and at the discretion of veterinary practitioners and other veterinary doctors, and typically takes account of the disorder to be treated, the condition of the individual patient, the site of ry, the method of administration and other factors known to practitioners.
Definitions Unless otherwise defined, all technical and scientific terms used herein have the meaning commonly understood by a person who is skilled in the art in the field of the present invention.
Throughout the specification, unless the context demands ise, the terms "comprise" or "include", or variations such as "comprises" or "comprising", "includes" or "including" will be understood to imply the inclusion of a stated integer or group of integers, but not the exclusion of any other integer or group of integers.
As used herein, terms such as "a", "an" and "the" e singular and plural referents unless the context clearly demands otherwise. Thus, for example, reference to "an active agent" or "a pharmacologically active agent" es a single active agent as well as two or more different active agents in combination, while references to "a r" includes es of two or more carriers as well as a single carrier, and the like.
As herein defined, the term "pain" means an sant sensory and emotional experience associated with actual or ial tissue damage, or described in terms of such damage.
In relation to operative or post-operative pain, the US Animal Welfare Act l Welfare Act 2002. AWA regulations, CFR, Title 9 (Animals and Animal Products), Chapter 1 (Animal and Plant Health Inspection Service, Department of Agriculture). Subchapter A (Animal Welfare), Parts 1—4) defines a l procedure as any procedure that would reasonably be expected to cause more than slight or momentary pain or distress in a human being to which that procedure was applied, that is, pain in excess of that caused by injections or other minor procedures. Therefore, if a feline undergoes a painful surgical procedure, the animal should receive postoperative analgesics.
In further instance, a feline may be experiencing significant or chronic pain as a result of an associated medical condition such as tis, for e rheumatoid arthritis, inflammation, rthritis or a cancerous or malignant condition.
The term "nociception" refers to the perception of noxious stimuli. As herein defined ‘neuropathic pain' (also known as 'neuralgia') is a pain that comes from problems with signals from the nerves. It may arise as a consequence of a lesion or disease affecting the sensory system. There are causes of neuropathic pain and it may be associated with abnormal sensations called dysesthesia, which occur spontaneously. Alternatively, it may be associated with allodynia which results when the pain comes on, or gets worse, with a touch or us that would not normally cause pain. For example, a slight touch on the face may trigger pain if you have trigeminal neuralgia, or the pressure of the bedclothes may r pain if you have diabetic neuropathy. Neuropathic pain may also result from allodynia, where the pain comes on, or gets worse, with a touch or stimulus that would not normally cause pain. For example, a slight touch to the face may trigger pain if a subject has trigeminal neuralgia. Neuropathic pain relating to hyperalgesia means that severe pain results from a stimulus or touch that would normally cause only slight discomfort, while paresthesia means that ortable or painful feelings occur even when there is nothing in contact with the area causing the pain, for example pins and needles. Other forms of neuropathic pain e pruritis or itch, which can be associated with allergic or inflammatory responses in the skin and inflammatory pain resulting from tissue damage and repair processes.
As defined herein, the term "NGF lising antibody" or similar describes an antibody that is capable of neutralising the biological activation and signalling of NGF. The lising antibody, which may also be referred to as an antagonistic antibody, or a ng antibody, specifically and preferably selectively, binds to NGF and inhibits one or more biological activities of NGF. For example, the neutralising antibody may inhibit the binding ofa NGF to its target ligand, such as the cell membrane bound TrkA or p75 receptors.
The term "complementarity determining region (CDR) as used herein, refers to amino acid sequences which together define the binding affinity and specificity of the natural Fv region of a native immunoglobulin binding site as delineated by Kabat et al. ,E.A., Wu,T.T., Perry,H., Gottesman,K. and Foeller,C. (1991) Sequences of Proteins of Immunological Interest, Fifth Edition. NIH Publication No. 91-3242). The term "framework region (FR) as used herein, refers to amino acid sequences interposed between CDRs. These portions of the antibody serve to hold the CDRs in appropriate orientation (allows for CDRs to bind antigen).
The term "constant region (CR) " as used herein, refers to the portion of the antibody molecule which s effector functions. In the present invention, constant regions typically mean feline constant regions, that is that the constant regions of the subject sed antibodies are derived from feline immunoglobulins.
The heavy chain constant region can be selected from any feline heavy chain constant domain isotype.
The term "chimeric antibody" as used herein refers to an antibody containing sequences derived from two ent antibodies, which typically are of different species. Typically chimeric antibodies comprise variable domains derived from a donor ies which bind specifically to a target epitope and constant s derived from antibodies ed from the target species to whom the antibody is to be administered. The chimeric antibodies of the t invention comprise heavy and light chain le domains derived from a rat antibody and light and heavy chain constant domains d from feline antibodies.
The term "immunogenicity" as used herein refers to a measure of the ability of a targeting protein or therapeutic moiety to elicit an immune response (humoral or cellular) when administered to a ent. The present invention is concerned with the immunogenicity of the subject felinised antibodies. Preferably the antibodies of the present invention have no genicity, that is that no neutralising dies will be raised against them when administered to a feline, and further, 2012/051003 no effector functions are mediated by the Fc regions of the antibody.
The term ity" or "sequence identity" as used herein, means that at any particular amino acid residue position in an aligned sequence, the amino acid residue is identical between the aligned sequences. The term arity" or "sequence similarity" as used , indicates that, at any particular on in the d sequences, the amino acid residue is of a similar type between the sequences. For example, leucine may be substituted for an isoleucine or valine residue. This may be referred to as conservative substitution. Preferably when the amino acid sequences of the invention are modified by way of conservative substitution of any of the amino acid residues contained therein, these changes have no effect on the binding specificity or functional activity of the resulting antibody when compared to the unmodified antibody.
Sequence identity with respect to a (native) polypeptide of the invention and its functional derivative relates to the percentage of amino acid residues in the candidate ce which are identical with the residues of the ponding native polypeptide, after aligning the sequences and introducing gaps, if necessary, to achieve the maximum percentage homology, and not considering any conservative substitutions as part of the sequence identity. Neither N- or C- terminal ions, nor insertions shall be construed as reducing sequence identity or homology. Methods and computer programs for performing an ent of two or more amino acid sequences and determining their sequence identity or gy are well known to the person skilled in the art. For example, the percentage of identity or similarity of 2 amino acid sequences can be readily calculated using algorithms e.g. BLAST (Altschul et al. 1990), FASTA (Pearson & Lipman 1988), or the Smith-Waterman algorithm (Smith & Waterman 1981).
As used , reference to an amino acid residue having the "highest homology" to a second amino acid residue refers to the amino acid e which has the most characteristics or properties in common with the second amino acid residue.
In determining whether an amino acid residue has the highest homology to a second amino acid residue, an assessment may lly be made of factors such as, but not d to, charge, polarity, hydrophobicity, side arm mass and side arm dimension.
The term "corresponding position" as used herein to refer to an amino acid residue that is present in a second sequence at a position corresponding to a specified amino acid residue in a first ce is intended to refer to the position in the second sequence which is the same position as the position in the first sequence when the two sequences are aligned to allow for maximum sequence identity between the two sequences. Amino acid residues at corresponding positions have the same Kabat numbering.
The term "consists essentially of’ or "consisting essentially of’ as used herein means that a polypeptide may have onal features or elements beyond those described provided that such additional features or elements do not materially affect the ability of the antibody or antibody fragment to have g specificity to feline NGF. That is, the antibody or antibody fragments comprising the polypeptides may have onal features or elements that do not interfere with the ability of the antibody or dy fragments to bind to feline NGF and antagonise feline NGF functional activity. Such modifications may be introduced into the amino acid ce in order to reduce the immunogenicity of the antibody. For example, a polypeptide consisting essentially of a specified sequence may contain one, two, three, four, five or more additional, deleted or tuted amino acids, at either end or at both ends of the sequence provided that these amino acids do not interfere with, inhibit, block or interrupt the role of the antibody or fragment in binding to feline NGF and sequestering its biological function. Similarly, a ptide molecule which contributes to the feline NGF antagonistic antibodies of the invention may be chemically ed with one or more functional groups provided that such functional groups do not interfere with the ability of the antibody or antibody fragment to bind to feline NGF and antagonise its function.
As used herein, the term "effective amount" or "therapeutically ive " means the amount of an agent, binding compound, small molecule or fusion protein of the invention which is required to suppress feline NGF g to the p75 and/or TrkA receptors.
The terms "polypeptide", "peptide", or "protein" are used interchangeably herein to designate a linear series of amino acid es connected one to the other by peptide bonds between the alpha-amino and carboxy groups of nt residues.
The amino acid residues are usually in the natural "L" isomeric form. However, es in the "D" ic form can be substituted for any L-amino acid residue, as long as the desired onal property is retained by the polypeptide.
As herein defined an "antibody" encompasses antigen-binding ns which specifically bind to a target antigen of interest, in this case feline nerve growth factor, having one or more polypeptides that can be recombinantly prepared or which are genetically encodable by immunoglobulin genes, or fragments of immunoglobulin genes. The term "antibody" encompasses monoclonal and chimeric antibodies, in particular equinised antibodies, and further encompasses polyclonal antibodies or antibodies of any class or subtype. An "antibody" r extends to hybrid antibodies, bispecific antibodies, heteroantibodies and to functional fragments thereof which retain antigen binding.
The phrase "specifically binds to" refers to the binding of an antibody to a specific protein or target which is present amongst a heterogeneous population of ns.
Hence, when present in specific immunoassay conditions, the antibodies bind to a particular protein, in this case feline NGF, and do not bind in a significant amount to other proteins present in the sample.
As defined herein, a "feline" may also be referred to as a cat. Felines can be categorised as belonging to the subspecies with the binomial name Felis catus, which includes Felis catus domestica and Felis silvestris catus. Felines include any domesticated cat and include domestic breeds and housecat varieties, these also being referred to as pets or companion animals.
The present invention will now be described with reference to the following examples which are provided for the purpose of illustration and are not intended to be ued as being limiting on the present invention.
EXAMPLES Example 1 — Production of chimeric antibody and characterisation of the same Light chain (SEQ ID NO:1 (feN-chi-LC1) and heavy chain (SEQ ID NO:2 (feN-chi- HC2) sequences were co-expressed from pcDNA3.1 vectors in CHO cells and the supernatant tested uted or at 1:10) for binding to feline and murine NGF by ELISA using a secondary anti-feline lgG polyclonal antibody-HRP conjugate.
Mock .1 vector only ected CHO cell supernatant was used as a control (Mock).
The results are shown in Figure 1 (1A — binding to feline NGF, 1B — binding to murine NGF). The results show that a clear signal was detected for binding of the chimeric anti-NGF monoclonal antibody (Mab) to both feline and mouse NGFs The supernatant was purified using a Protein A affinity column and the eluted peak identified by UV absorption and analysed by SDS-PAGE. The results are shown in Figure 2. Figure 2A shows that the chimeric antibody can be purified on Protein A. Figure 28 shows the chimeric feline MAb was identified by the presence of both heavy and light chains in the stained gel.
Example 2 — Production of felinised antibodies Whole dy ces were ed by combining felinised variable domain sequences with C-terminal feline constant heavy or nt light chain sequences.
The combined amino acid ces were converted to expressible form in mammalian cells by the l selection of codons and full chemical gene synthesis and cloning into a mammalian cell sion vector pcDNA3.1+.
The ant cDNAs were transfected into CHO cells and the supernatants analysed as detailed in the following examples.
Example 3 — Determination of binding of felinised antibodies to NGF Combinations of felinised heavy (SEQ ID NO:6) and light chain (SEQ ID NO:5) cDNAs were transfected into CHO cells, the supernatants harvested and d in ELISA format with either feline or murine NGF. Following incubation and wash steps, the bound felinised antibody was detected by vity with a goat-anti feline lgG specific polyclonal antibody linked to horseradish peroxidase (HRP) and developed using TMB. The optical density of the resulting t was measured at 450nm and compared with that from mock empty vector transfected supernatant (denoted as "Mock" in Figure 1).
The results are shown in Figure 3. Figure 3A shows that the felinised antibody binds to feline NGF. Figure BB shows that the felinised antibody binds to murine NGF with the same affinity as binding to feline NGF.
Example 4 — Analysis of purified felinised antibodies using SDS—PAGE Transfected CHO cell supernatants of felinised anti-NGF MAb from Example 3 was purified using a Protein A affinity column and the eluted peak identified by UV tion and analysed by SDS—PAGE. (LHS) Purification profile of MAb from CHO cells co-transfected feN-HCZ and feN-kLCi expression constructs by n A affinity chromatography. (RHS) Coomassie blue stained SDS—PAGE of peak fraction. Some minor degradation of the light chain was observed.
The results are shown in Figure 4. Figure 4A shows that the felinised antibody can be ed by Protein A. Figure 4B shows a gel with bands representing the heavy and light chains of the felinised antibody (feN-chi-HC2 (lgG2 heavy chain) and feN-chi-kLC (light chain)).
Example 5 - Inhibition of NGF induced proliferation of TF-1 cells by sed dies Serial dilutions of CHO cell transfectant supernatants from Example 4 (‘antagonist’) were incubated with TF-1 cells in the presence of 0.3 ng/mL NGF.
The resultant proliferation was ed by thymidine incorporation.
The results, shown in Figure 5, demonstrate clear inhibition of NGF d proliferation by the supernatant of CHO cells transfected with the felinised anti- NGF MAb.
Example 6 - Complement deposition induced by antigen-captured felinised antibodies CHO cell transfectant supernatants from Example 4 were incubated with plates coated with 0.1 ng/mL NGF to e the dies. The plates were washed and then incubated with human serum and bound complement C1q was measured by binding of anti-human C1q polyclonal dy HRP and ped as above.
Complement Binding Method: Plates were coated with 100 ul/well of 5 ug/ml mouse NGF and blocked with 5% BSA/PBS. Coated wells were incubated for 1 hour at room temperature with cell culture atants, containing recombinant felinised anti-NGF lgG, diluted in PBS/1% BSA (100 ul/well). The plates were washed and incubated for 1 hour at room temperature with 100 ul/well of human serum diluted 1/100 in veronal buffered saline containing 0.5 mM MgClg, 2 mM CaC|2, 0.05% Tween-20, 0.1% gelatin and 0.5% BSA. After washing, plates were incubated with 100 pl of a 1/800 dilution of sheep anti-C1q-HRP (Serotec) in PBS/1% BSA. After washing, plates were developed by the addition of 100ul TMB substrate (Thermo Scientific).
Development was stopped by the addition of 100 pl of 2N H2804 and absorbance read at 450 nm.
The results are shown in Figure 6. The results surprisingly show that felinised antibodies having the feN-chi-HCZ (lgGZ) heavy chain are inactive at complement on. Accordingly, it is demonstrated herein, quite surprisingly, that where an antibody of the invention has a feline derived heavy chain of the H02 subtype, the binding of the antibody to feline NGF does not result in ment activation or other downstream effector functions, such as ADCC. Hence, said antibodies, in antagonising the biological functional activity of feline NGF by preventing binding of feline NGF to the membrane bound TrkA or p75 receptors, t the associated downstream ellular ling cascade. Furthermore, as NGF expression frequently occurs in the proximity of nerves and the like, the ability of the NGF nising or neutralising dies of the invention, which have the feline derived H02 (lgGZ) heavy chain to sequester feline NGF biological activity without recruiting a wider immune response is highly desirable, yet unexpected.
Example 7 - Additional variant forms of anti-feline NGF monoclonal antibodies Tables 1 through 8 illustrate that fully feline versions of GF antibodies can be generated by PETisation by comparison to a limited set of feline immunoglobulin sequences (especially feline light chains, in which case a single light chain was used for comparison). By direct sequencing and database mining, additional feline immunoglobulin kappa light and heavy chain cDNAs were derived and used for ison to the (IBM dy sequences. Tables 9-16 show that the addition of these comparator sequences increases the number of homologous matches between rat qD11 and feline lgG and so reduces the number of changes necessary to t qD11 variable framework sequences to felinised variants.
Tables 9-16 include the sequence variants from Tables 1-8 as "set 1" sequences and additional sequences from de novo cDNA sequencing and database mining as "set 2" feline sequences. The preferred felinised anti-NGF framework ces from Tables 1-8 are annotated as "feN" and the preferred felinised anti- NGF framework sequences by comparison with "set 2" feline sequences are annotated as "feN2". Alternative feline anti-NGF immunoglobulin heavy (feN2-VH) and kappa light chain Vk) protein sequences are shown in Figures 13, 14, and 16 (SEQ ID NO:22-25).
Table 9. Light chain variable domain FR1 residues Vkappa Kabat Feline Feline Vk Rat aD11 feN-kLC feN2-kLC FR1 number Vk FR1 Residue FR1 Set 2 number Set 1 1 1 D DEN D D D 2 2 l VlPT l l l 3 3 V VEM Q V E 4 4 M MLl M M M 5 T T T T T 6 6 Q Q Q Q Q 7 7 T TS S T S 8 8 P P P P P 9 9 L L A L L 10 S SF S S S 11 11 L L L L L 12 12 S SPA S S S 13 13 V V A V V 14 14 T TlA S T T 15 P P L P P 16 16 G G G G G 17 17 E ED E E E 18 18 P PSA T P S 19 19 A AV V A V 20 S S T S S 21 21 A IF I l l 22 22 S SF E S S 23 23 C C C C C Table 10. Light chain variable domain FR2 residues VKFR2 Kabat Feline Feline Vk Rat feN-kLC feN2-kLC Residue number Vk FR2 aD11 number FR2 Set 2 Set 1 1 36 W W W W W 2 37 Y YF Y Y Y 3 38 L LFR Q L L 4 39 Q Q Q Q Q 40 K KR K K K 6 41 P P P P P 7 42 G G G G G 8 43 Q QR K Q R 9 44 S S S S S 45 P P P P P 11 46 R R Q R R 12 47 R RL L R L 13 48 L L L L L 14 49 l IM l l l 50 Y YHA Y Y Y Table 11. Light chain le domain FR3 residues VKFR3 Kabat Feline Feline Vk Rat feN-kLC feN2-kLC Residue number Vk FR3 aD11 number FR3 Set 2 Set 1 1 66 G GR G G G 2 67 V V V V V 3 68 P P P P P 4 69 D D S D D 70 R R R R R 6 71 F Fl F F F 7 72 S ST S S S 8 73 G G G G G 9 74 S S S S S 75 G G G G G 11 76 S S S S S 12 77 G G G G G 13 78 T TAS T T T 14 79 D D Q D D 80 F F Y F F 16 81 T TIA S T T 17 82 L L L L L 18 82A R RTK K R K 19 82B l l l l l 820 S SAGT N S S 21 83 R RG S R R 22 84 V VM L V V 23 85 E EQ Q E Q 24 86 A AVPT S A T 87 D DE E D E 26 88 D D D D D 27 89 V V V V V 28 90 G G A G G 29 91 V VIHL S V V 92 Y Y Y Y Y 31 93 F YF F F F 32 94 C C C C C Table 12. Light chain le domain FR4 residues VKFR4 Kabat Feline Feline Vk Rat feN-kLC feN2-kLC Residue number Vk FR4 aD11 number FR4 Set 2 Set 1 1 103 F FS F F F 2 104 G G G G G 3 105 P QP G P Q 4 106 G G G G G 107 T T T T T 6 108 K KHQEST K K K 7 109 L L L L L 8 110 E ED E E E 9 111 l IVML L l L 112 K KRDT K K K Table 13. Heavy chain variable domain FR1 es VHFR1 Kabat Feline VH Feline Rat aD11 feN-VH feN2- Residue number FR1 VH FR1 VH VH number Set 1 Set 2 1 1 QDH QDE Q Q Q 2 2 VE VE V V V 3 3 QL LQR Q Q Q 4 4 L LV L L L 5 V VM K V V 6 6 EQ QED E E E 7 7 S S S S S 8 8 G G G G G 9 9 GAR AG P G A 10 DE EDN G D E 11 11 LV LVR L L L 12 12 VRS VRK V V V 13 13 QK KTQENR Q Q Q 14 14 P PT P P P 15 GE GE S G G 16 16 GA GATE Q G E 17 17 S SA T S S 18 18 LV LV L L L 19 19 RKS RKE S R R 20 Li |LP L L L 21 21 TFS FTS T T T 22 22 C C C C C 23 23 AVMK KVAQ T A A 24 24 AT ATD V A A 25 S S S S S 26 26 G GA G G G Table 14. Heavy chain variable domain FR2 es VHFR2 Kabat Feline VH Feline VH Rat aD11 feN-VH feN2- Residue number FR2 FR2 VH VH number Set 1 Set 2 1 36 W W W W W 2 37 VLWFA VLFl V V V 3 38 RC RCH R R R 4 39 Q Q Q Q Q 40 APT ASVT A A A 6 41 P P T P P 7 42 GEA GAES G G G 8 43 KQT QKE R K K 9 44 G G G G G 45 LF LFP L L L 11 46 EQ EQ E E E 12 47 WET WCL W W W 13 48 MVL VMl M M M 14 49 GATS GAS G G G Table 15. Heavy chain variable domain FR3 residues VHFR3 Kabat Feline VH Feline VH Rat aD11 feN-VH feN2- e number FR3 FR3 VH VH number Set 1 Set 2 1 66 R RQK R R R 2 67 LF LF L F L 3 68 TA Tl T T T 4 69 lLV LIMV l l l 70 ST ST T S T 6 71 RN RATKGV R R R 7 72 D D D D D 8 73 TNS TNDAS T N T 9 74 ASGT SADT S A S 75 KTRGQ TKEQNR K K K 11 76 ND NDK S N N 12 77 TA TIA Q T T 13 78 LA ALVG V L V 14 79 YDS YFASVW F Y F 80 LM LM L L L 16 81 QELR EQDHV K Q Q 17 82 MLT LM M M M 18 82A NSDT NSTDGRH H N H 19 82B SlNRT SN S S S 820 L L L L L 21 83 KRGT RKQT Q K Q 22 84 STPA STlAV S T S 23 85 ETAD EATDGS E E E 24 86 D D D D D 87 TA T T T T 26 88 A AGS A A A 27 89 TVM TVMIA T T T 28 90 Y YH Y Y Y 29 91 YCF YHF Y Y Y 92 CR C C C C 31 93 AGITSV ATVGLIM A A A 32 94 RKSTIVPNG R R R R Table 16. Heavy chain variable domain FR4 residues VHFR4 Kabat Feline Feline Rat aD11 feN- feN2- Residue number VH FR4 VH FR4 VH VH VH number Set 1 Set 2 1 103 WR WRCL W W W 2 104 GR CA G G G 3 105 QPVHR QHRPV Q Q Q 4 106 C CD G G G 107 TAVlS ATV T T T 6 108 LIQ LIQMST T L T 7 109 V VI V V V 8 110 T TAlR T T T 9 111 V VG V V V 112 ST SP S S S 11 113 SQP SQA A S A Example 8 - Anti-feline NGF onal antibodies — safety and a Anti-feline NGF monoclonal antibodies of the invention are expressed in CHO cells and purified by a combination of Protein A chromatography and/or size exclusion chromatography and are buffer exchanged into phosphate buffered . The antibodies are injected intravenously into cats at 0.01 - 10 mg/kg body weight and assessed for signs of toxicity by visual inspection by a veterinarian, change in body weight, body temperature and plasma biochemistry. No changes are expected to be observed in these or any plasma biochemistry analytes.
Example 9 - Plasma pharmacokinetics of anti-feline NGF monoclonal antibodies in vivo - serum half-life and immunogenicity The anti-feline NGF onal antibodies of the ion are expressed in CHO cells and purified by a combination of Protein A chromatography and/or size exclusion chromatography and buffer exchanged into phosphate ed saline.
The antibodies are injected intravenously into cats in the range 0.01 - 10 mg/kg body weight and plasma samples are taken at various times over the next 2 weeks. Diluted plasma samples are assessed for anti-feline NGF dy concentration by ELISA using NGF as the target and anti-feline polyclonal antibody-horseradish peroxidase secondary t. The plasma trations measured are consistent with two-phase kinetics, with a tissue distribution (alpha) phase and an elimination phase (beta) phase of l days.
The absence of a sharp decline in plasma concentration of eline NGF antibody concentration between 100 and 300 hours is expected. This would demonstrate that there is neither pre-existing neutralising antibodies to recombinant anti-NGF monoclonal antibodies in cat blood nor are any such neutralising antibodies generated following on.
Example 10 — eline NGF monoclonal antibodies reduce inflammatory pain in Feline model of inflammation: Cats are injected (= day -1) with a pro-inflammatory agent (e.g. kaolin) into the footpad of one leg in order to generate a self-resolving inflammation beginning approximately 24 hours later and which causes the cats to become temporarily lame. In this model, once the initial inflammation response to kaolin recedes, the cats become steadily less lame over the period of approximately 1-2 weeks and then recover.
Groups of cats are injected intravenously with either anti-feline NGF monoclonal antibodies of this patent at 0.01 — 10 mg/kg body weight or phosphate buffered saline as vehicle l (= day 0). The cats are assessed for lameness over 4- 14 days by a visual scoring method (e.g. score 0, no lameness (full weight bearing); score 1, slight lameness (not full weight bearing but walking well); score 2, moderate lameness (slightly weight bearing and not walking well), score 3, severe ss (not weight g)). Observers are d to which cats e which injection.
Lameness scores are expected to be reduced in the cats receiving eline NGF monoclonal antibodies by day 2—4 post-injection compared with vehicle control, indicating that the anti-feline NGF monoclonal antibodies will have an effect in reducing the pain in the cats over that seen with vehicle alone.
Example 11 — Comparison example showing the effect of anti-canine NGF monoclonal antibodies in reducing inflammatory pain in vivo Antibody therapy: The method of preparing antibodies of the present invention was d to produce a caninised antibody suitable for use in canines. A caninised dD11 VL domain was combined with a canine kappa light chain constant domain and a caninised dD11 VH domain was combined with a canine heavy chain isotype.
Anti-canine NGF monoclonal dies derived from expression vectors expressing the heavy and light chains were expressed in CHO cells and purified by a combination of ion exchange chromatography, hydrophobic interaction tography and size exclusion chromatography and buffer exchanged into phosphate buffered saline.
Canine model of inflammation: All experiments were d out with prior approval of the Institutional Ethics Committee (CRL, lreland). Beagle dogs were injected (= day -1)with kaolin into the footpad of one hind leg in order to generate a self-resolving mation beginning approximately 24 hours later and which causes the dogs to become temporarily lame. In this model, once the initial inflammation response to kaolin recedes, the dogs become ly less lame over the period of approximately 1-2 weeks and then make a full recovery.
Groups of 3 dogs were injected intravenously with either anti-canine NGF monoclonal antibodies at 200 ug/kg body weight or phosphate buffered saline as vehicle control (= day 0). The dogs were assessed for lameness over 7 days by a visual scoring method (score 0, no lameness (full weight bearing); Score 1, slight lameness (not full weight bearing but walking well); score 2, te lameness (slightly weight bearing and not walking well), score 3, severe lameness (not weight bearing)). Observers were blinded to which dogs received which injection.
The results are shown in Figure 17. Lameness scores were d in the dogs ing anti-NGF onal antibodies by day 3 post-injection compared with vehicle control, indicating that the anti-NGF monoclonal antibodies had an effect in reducing the pain in the dogs over that seen with vehicle alone. The delayed activity is consistent with the plasma cokinetics of anine NGF monoclonal antibodies which demonstrated a slow tissue distribution (alpha) phase of approximately 30 hours and the relatively poor vascularisation of the footpad area. The results shown in Figure 17 show that the anti-canine NGF antibodies ed by a method corresponding to the method of the present invention reduce inflammatory pain in dogs with a consequent reduction in lameness.
All documents referred to in this specification are herein orated by reference.
Various modifications and variations to the described ments of the inventions will be apparent to those skilled in the art without departing from the scope of the invention. Although the invention has been bed in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes of carrying out the invention which are obvious to those skilled in the art are intended to be covered by the t ion.
Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as ises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.
The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information d from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.
Claims (2)
1. A method of preparing an antibody suitable for use in a feline comprising: comparing (i) sequences of framework s of a donor antibody from a species other than a feline, wherein the donor antibody has binding specificity for a target antigen present in felines with (ii) sequences of framework regions of one or more feline antibodies, and modifying the framework regions of the donor antibody to tute amino acid residues that are ent at a ponding position in the one or more feline antibodies with amino acid residues t at the corresponding position in the one or more feline antibodies to produce a modified antibody, n the modified antibody does not contain any amino acid in any position within the framework regions which would be foreign at that position in the one or more feline antibodies; and wherein the modified antibody is capable of ically binding to feline neuronal growth factor (NGF) and inhibiting the ability of feline NGF to bind to the p75 or TrkA feline NGF receptor.
2. An antibody or an antigen binding fragment thereof which is capable of specifically binding to feline neuronal growth factor (NGF) and inhibiting the ability of feline NGF to bind to the p75 or TrkA feline NGF or, wherein the antibody or antigen binding fragment comprises a light chain variable region comprising the amino acid sequence of SEQ ID NO:3 or an amino acid sequence which has a sequence ty of at least 85% thereto and a heavy chain variable region comprising the amino acid sequence of SEQ ID NO:4 or a sequence which has an amino acid identity of at least 85% o; wherein the antibody or antigen binding fragment thereof does not contain any amino acid in any position within the framework regions which would be foreign at the position in one or more feline antibodies.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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US201161483488P | 2011-05-06 | 2011-05-06 | |
US61/483,488 | 2011-05-06 | ||
US201161531439P | 2011-09-06 | 2011-09-06 | |
US61/531,439 | 2011-09-06 | ||
PCT/GB2012/051003 WO2012153122A1 (en) | 2011-05-06 | 2012-05-08 | Anti-nerve growth factor antibodies and methods of preparing and using the same |
Publications (2)
Publication Number | Publication Date |
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NZ617447A NZ617447A (en) | 2015-01-30 |
NZ617447B2 true NZ617447B2 (en) | 2015-05-01 |
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