WO2003041735A2 - Composotion comprising inhibitors of the notch signalling pathway for the modulation of the immune system - Google Patents
Composotion comprising inhibitors of the notch signalling pathway for the modulation of the immune system Download PDFInfo
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- WO2003041735A2 WO2003041735A2 PCT/GB2002/005137 GB0205137W WO03041735A2 WO 2003041735 A2 WO2003041735 A2 WO 2003041735A2 GB 0205137 W GB0205137 W GB 0205137W WO 03041735 A2 WO03041735 A2 WO 03041735A2
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- notch
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- polypeptide
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/39—Medicinal preparations containing antigens or antibodies characterised by the immunostimulating additives, e.g. chemical adjuvants
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
- A61P37/02—Immunomodulators
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
- A61P37/02—Immunomodulators
- A61P37/04—Immunostimulants
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/555—Medicinal preparations containing antigens or antibodies characterised by a specific combination antigen/adjuvant
- A61K2039/55511—Organic adjuvants
- A61K2039/55516—Proteins; Peptides
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/30—Non-immunoglobulin-derived peptide or protein having an immunoglobulin constant or Fc region, or a fragment thereof, attached thereto
Definitions
- the present invention relates to the modulation of immune, function, in particular by use of a modulator of the Notch signalling pathway.
- regulatory T cells which are able to transmit antigen-specific tolerance to other T cells, a process termed infectious tolerance (WO9S/20142).
- infectious tolerance a process termed infectious tolerance
- regulatory T cells can be generated by over-expression of a member of the Delta or Serrate family of Notch ligand proteins.
- Delta or Senate induced T cells specific to one antigenic epitope are also able to transfer tolerance to T cells recognising other epitopes on the same or related antigens, a phenomenon termed "epitope spreading".
- Notch hgand expression also plays a role in cancer. Indeed, upregulated Notch ligand expression has been observed in some tumour cells. These tumour cells are capable of rendering T cells unresponsive to restimulation with a specific antigen, thus providing a possible explanation of how tumour cells prevent normal T cell responses. By downregulating Notch signalling in vivo in T cells, it may be possible to prevent tumour cells from inducing irrununotolerance in those T cells that recognise tumour-specific antigens. In rum, this would allow the T cells to mount an immune response against the tumour cells (WO00/135990).
- the present invention seeks to provide further methods of modulating the immune system by modification of the Notch signalling pathway, in particular for the treatment of infectious disease.
- a product comprising: i) an inhibitor of the Notch signalling pathway or a polynucleotide coding for such an inhibitor; and ii) a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant; as a combined preparation for simultaneous, contemporaneous, separate or sequential use for modulation of the immune system.
- the agent does not act by downregulating expression of Notch or a Notch ligand.
- a product comprising: i) an inhibitor of Notch signalling in the form of a Notch antagonist agent or a polynucleotide coding for such an agent; and ii) a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant; as a combined preparation for simultaneous, contemporaneous, separate or sequential use for modulation of the immune system.
- a product comprising: i) an inhibitor of Notch signalling in the form of an agent which inhibits Notch-Notch hgand interaction or a polynucleotide coding for such an agent; and ii) a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic dete ⁇ ninant; as a combined preparation for simultaneous, contemporaneous, separate or sequential use for modulation of the immune system.
- Such a product may take the form of a pharmaceutical composition or kit.
- Such a product may take the form of a therapeutic vaccine composition or kit for treating infectious disease (including so-called “pharmaccrnes”).
- such a product may take the form of a prophylactic vaccine composition or kit for preventing infectious disease.
- a further aspect of the invention there is provided the use of an inhibitor of the Notch signalling pathway in the manufacture of a medicament for use as an immunostimulant.
- the medicament is not for use in reversing bacteria, infection or tumour-induced immunosuppression or for the treatment of a tumour.
- immunodeficiency means an agent which is capable of restoring a depressed immune function, or enhancing normal immune function, or both.
- agent may boost a subject's immune system either generally or in respect of a specific antigen or antigenic determinant, hnmunostimulants may be used, for example, for the treatment of conditions requiring general immune stimulation including immune deficiency conditions such as Acquired Immune Deficiency Syndrome (AIDS) and Severe Combined Immunodeficiency Disease (SCJD) and in situations where antigen specific stimulation is desired, such as in vaccination.
- AIDS Acquired Immune Deficiency Syndrome
- SCJD Severe Combined Immunodeficiency Disease
- an inhibitor of the Notch signalling pathway in the manufacture of a medicament for use as an adjuvant for vaccination against a pathogen.
- pathogen means a disease causing parasite which is normally a microorganism.
- the term includes, for example, viruses, bacteria, protozoa and fungi.
- pathogen antigen means an antigen found on a pathogen or a fragment, variant or derivative of such an antigen comprising antigenic determinants (epitopes; preferably immunodom nant epitopes) or epitope regions (preferably immunodominant epitope regions) of such an antigen.
- the antigen is immunogenic (an immunogen).
- the antigen is a microbial pathogen antigen.
- inhibitor of Notch signalling and “inhibitor of the Notch signalling pathway” as used herein include any agent which is capable of reducing any one or more of the upstream or downstream events that result in, or from, (and including) activation of the Notch receptor.
- the inhibitor of Notch signalling does not act by do nregulating expression of Notch or a Notch hgand.
- a method for stimulating the immune system by administering an inhibitor of the Notch signalling pathway wherein the inhibitor does not act by downregulating expression of Notch or a Notch hgand.
- a method for stimulating the immune system to treat or prevent an infection by administering an inhibitor of the Notch signalling pathway which does not comprise reversing bacteria, infection or tumour- induced immunosuppression or treatment of a tumour According to a further aspect of the invention there is provided a method for stimulating the immune system to treat or prevent an infection by administering an inhibitor of the Notch signalling pathway wherein the inhibitor of the Notch signalling pathway does not act by downregulating expression of Notch or a Notch hgand.
- a method for treating a chronic pathogen infection by administering an inhibitor of the Notch signalling pathway.
- a method of increasing the immune response of a subject to a vaccine antigen or antigenic determinant comprising administering an effective amount of an inhibitor of the Notch signalling pathway to said subject simultaneously, separately or sequentially with said vaccine antigen or antigenic determinant or simultaneously, separately or sequentially with a polynucleotide coding for said vaccine antigen or antigenic determinant.
- the inhibitor of Notch signalling inhibits Notch signalling in immune cells, such as APCs, B-cells or T-cells
- the inhibitor of the Notch signalling pathway may be a Notch signalling repressor or an agent which increases the expression or activity of a Notch signalling repressor.
- the inhibitor of the Notch signalling pathway is an agent capable of inhibiting the activity of a Notch receptor or a Notch hgand. - 1 -
- the inhibitor of the Notch signalling pathway may be an agent capable of inhibiting the activity or downregulating the expression of a downstream component of the Notch signalling pathway.
- the inhibitor of the Notch signalling pathway may be an agent which interacts with, and preferably binds to a Notch receptor or a Notch ligand so as to interfere with endogenous Notch ligand-receptor interaction (also termed "Notch-Notch hgand interaction").
- a Notch antagonist an agent which interacts with, and preferably binds to a Notch receptor or a Notch ligand so as to interfere with endogenous Notch ligand-receptor interaction
- the inhibitor inhibits Notch ligand-receptor interaction in immune cells such as lymphocytes and APCs, preferably in lymphocytes, preferably in T-cells.
- the inhibitor of Notch signalling may be a protein or polypeptide or a polynucleotide which codes for such a protein or polypeptide.
- the inhibitor of Notch signalling may comprise or codes for the extracellular domain of Delta or a fragment, derivative or homologue thereof.
- the inhibitor of Notch signalling comprises or codes for the extracellular domain of Serrate or Jagged or a fragment, derivative or homologue thereof.
- the inhibitor of Notch signalling comprises or codes for the extracellular domain of Notch or a fragment, derivative or homologue thereof.
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain and optionally a
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain and at least one
- Notch hgand EGF-like domain ii) a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or iii) a polynucleotide coding for such a protein or polypeptide.
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain and at least two
- Notch ligand EGF-like domains ii) a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or iii) a polynucleotide coding for such a protein or polypeptide.
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch hgand DSL domain and either 0, 1 or 2, but no more than 2 Notch ligand EGF-like domains; h) a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or iii) a polynucleotide coding for such a protein or polypeptide.
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch Hgand DSL domain having at least
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch hgand DSL domain having at least
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch EGF-like domain having at least
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch hgand DSL domain having at least
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain having at least
- Hgand EGF-like domains having at least 30%, preferably at least 50% amino acid sequence similarity or identity to an EGF-like domain of human Jagged 1 or Jagged2;
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain having at least
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises a Notch ligand DSL domain having at least
- An advantage of using a protein or polypeptide having preferably no more than two Notch ligand EGF-like domains is that it provides effective inhibition of Notch signaUing with little or no competing agonist activity, thus providing a more selective inhibitory effect.
- Such proteins and polypeptides may also be easier to produce especially, for example, in bacterial expression systems.
- Notch signalling inhibition is also shown by constructs having more than 2 such EGF-like repeats.
- the inhibitor of Notch signalling comprises: i) a protein or polypeptide which comprises an EGF domain having at least 70% amino acid sequence similarity or identity to EGF11 of human Notchl, Notch2, Notch3 or
- the protein or polypeptide may be fused to a heterologous amino acid sequence, such as an HnmunoglobuHn Fc (IgFc) domain, for example a human IgGl or IgG4 Fc domain.
- a heterologous amino acid sequence such as an HnmunoglobuHn Fc (IgFc) domain, for example a human IgGl or IgG4 Fc domain.
- the protein or polypeptide may further comprise a Notch ligand N-terminal domain.
- the inhibitor of Notch signaUing may comprise an antibody, antibody fragment or antibody derivative or a polynucleotide which codes for an antibody, antibody fragment or antibody derivative.
- the antibody, antibody fragment or antibody derivative binds to a Notch receptor or a Notch Hgand so as to interfere with Notch ligand-receptor interaction.
- the inhibitor of Notch signalling may have an ICso (preferably as measured in an assay as described herein, preferably using the Dynabeads assay of Example 12) of less than about 1000 uM, preferably less than about 100 uM, preferably less than about 10 uM, preferably less than about 1000 nM, preferably less than about 100 nM, suitably from about 0.1 to about 100 nM.
- ICso preferably as measured in an assay as described herein, preferably using the Dynabeads assay of Example 12
- the modulator of the Notch signaUing pathway may comprise a fusion protein comprising domains from a Notch Hgand extracellular domain and an immunoglobulin F c segment (eg IgGl Fc or IgG4 Fc, preferably human IgGl Fc or human IgG4 Fc) or a polynucleotide coding for such a fusion protein.
- an immunoglobulin F c segment eg IgGl Fc or IgG4 Fc, preferably human IgGl Fc or human IgG4 Fc
- Methods suitable for preparation of such fusion proteins are described, for example in Example 2 of WO 98/20142.
- IgG fusion proteins may be prepared as well known in the art, for example, as described in US 5428130 (Genentech).
- the modulator of the Notch signaUing pathway may be multimerised, preferably dimerised, for example by chemical cross-linking or formation of disulphide bonds between pahs of proteins or polypeptides.
- the proteins or polypeptides comprise a heterologous amino acid sequence in the form of an immunoglobulin Fc domain, these may assemble into dimers linked by disulphide bonds formed between the Fc domains (see, for example, the schematic representations of dimeric constructs as shown in the accompanying Figures).
- the multimerised/dhnerised form may contain more DSL and EGF domains than described in respect of the individual monomers.
- the ratios of DSL to EGF domains will preferably remain the same, such that there wiU preferably, for example be a ratio of DSL to EGF-like domains of 1 :0, 1 :1 or 1 :2 for the multimerised aggregate as a whole.
- the inhibitor of Notch signalling comprises a Notch hgand protein or polypeptide which consists essentiaUy of the following components: i) a Notch Hgand DSL domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide or a polynucleotide coding for such a
- Notch ligand protein or polypeptide is notched.
- the inhibitor of Notch signaUing comprises a Notch ligand protein or polypeptide which consists essentiaUy of the foUowing components: i) a Notch ligand DSL domain;
- H optionally aU or part of a Notch Hgand N-terminal domain; and iii) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide or a polynucleotide coding for such a
- Notch ligand protein or polypeptide is notched.
- the inhibitor of Notch signaUing comprises a Notch ligand protein or polypeptide which consists essentially of the foUowing components: i) a Notch ligand DSL domain; ii) one Notch Hgand EGF domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide or a polynucleotide coding for such a
- Notch ligand protein or polypeptide is notched.
- the inhibitor of Notch signaUing comprises a Notch Hgand protein or polypeptide which consists essentiaUy of the following components: i) a Notch ligand DSL domain; H) two Notch ligand EGF domains;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide or a polynucleotide coding for such a
- Notch ligand protein or polypeptide is notched.
- a binding agent which binds to a Notch ligand so as to interfere with binding of the Hgand to a Notch receptor, or a polynucleotide which codes for such a binding agent, in the manufacture of a medicament for use as an immunostimulant.
- an antibody or antibody derivative which binds to a Notch receptor or to a Notch ligand, or a polynucleotide which codes for such an antibody or antibody derivative, in the manufacture of a medicament for use as an immunostimulant.
- a method of increasing the immune response of a subject to a vaccine antigen or antigenic determinant comprising administering an effective amount of an inhibitor of the Notch signaUing pathway to said subject simultaneously, separately or sequentiaUy with said vaccine antigen.
- a method for stimulating the immune system by administering a binding agent which binds to a Notch receptor or Notch ligand so as to interfere with Hgand-receptor interaction, or by administering a polynucleotide which codes for such a binding agent.
- the binding agent may, for example, comprise one or more extraceUular domains from Notch or its ligands.
- a method for stimulating the immune system by administering an antibody or antibody derivative which binds to a Notch receptor or to a Notch ligand, or by administering a polynucleotide which codes for such an antibody or antibody derivative.
- an adjuvant composition comprising an inhibitor of the Notch signalling pathway.
- a vaccine composition comprising an adjuvant composition as described above and an antigen.
- an antigen maybe a viral, fungal, parasitic or bacterial antigen.
- a method for modulating the immune system in a mammal comprising simultaneously, contemporaneously, separately or sequentiaUy adnxinistering: i) an effective amount of an inhibitor of the Notch signalling pathway; and
- H a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant.
- H a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant; for simultaneous, contemporaneous, separate or sequential use in modulating the immune system.
- an inhibitor of the Notch signaUing pathway for use in modulating the immune system in simultaneous, contemporaneous, separate or sequential combination with a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant.
- H a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant; in the manufacture of a medicament for modulation of the immune system.
- a further aspect of the invention there is provided the use of .an inhibitor of the Notch signalling pathway in the manufacture of a medicament for modulation of the immune system in simultaneous, contemporaneous, separate or sequential combination with a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant.
- a pharmaceutical kit comprising an inhibitor of the Notch signaUing pathway and a pathogen antigen or antigenic determinant or a polynucleotide coding for a pathogen antigen or antigenic determinant.
- a conjugate comprising first and second sequences, wherein the first sequence comprises a pathogen antigen or antigenic determinant or a polynucleotide sequence coding for a pathogen antigen or antigenic deteixninant, and the second sequence comprises a polypeptide or polynucleotide for Notch signalling modulation.
- a conjugate comprising first and second sequences, wherein the first sequence comprises a pathogen antigen or antigenic determinant or a polynucleotide sequence coding for a pathogen antigen or antigenic determinant, and the second sequence codes for an inhibitor of Notch signaUing.
- the conjugate is in the form of a vector comprising a first polynucleotide sequence coding for a modulator of the Notch signaUing pathway and a second polynucleotide sequence coding for a pathogen antigen or antigenic determinant.
- conjugate is in the form of an expression vector.
- the first polynucleotide sequence codes for a Notch ligand or a fragment, derivative, homologue, analogue or allelic variant thereof.
- the first polynucleotide sequence of the conjugate codes for a Delta or Senate/Jagged protein or a fragment, derivative, homologue, analogue or allelic variant thereof.
- the first polynucleotide sequence of the conjugate codes for a protein or polypeptide which comprises a Notch ligand DSL domain and optionally at least one Notch ligand EGF-like domain.
- the first polynucleotide sequence of the conjugate codes for a protein or polypeptide which comprises a Notch ligand DSL domain and at least two Notch Hgand EGF-like domains.
- the first polynucleotide sequence of the conjugate codes for a protein or polypeptide which comprises a Notch ligand DSL domain and lor 2 but no more than 2 Notch ligand EGF-like domains.
- the first and second sequences of the conjugate are each operably linked to one or more promoters.
- a method for increasing a TH2 immune response by admi stering a modulator of Notch signalling is provided.
- a method for increasing JL-5 expression by admirtistering an inhibitor of Notch signalling there is provided a method for generating an immune stimulatory cytokine profile with reduced JL-10 expression and increased JL- 5 expression by administering an inhibitor of Notch signalling.
- a method for generating an immune stimulatory cytokine profile with increased JL-2, IFN ⁇ , IL-5, IL-13 and TNF expression by ad ⁇ rinistering an inhibitor of Notch signalling by ad ⁇ rinistering an inhibitor of Notch signalling.
- the cytokine profile also exhibits reduced IL-10 expression.
- an inhibitor of Notch signalling is administered to a patient in vivo.
- the inhibitor of Notch signaUing may be administered to a cell ex-vivo, after which the ceU may be administered to a patient.
- the modulator of Notch signalling modifies cytokine expression in leukocytes, fibroblasts or epithehal cells.
- the modulator of Notch signalling modifies cytokine expression in dendritic ceUs, lymphocytes or macrophages, or their progenitors or tissue-specific derivatives.
- the inhibitor of Notch signaUing or the Notch signalling pathway for use in the present invention is an inhibitor of Notch-Notch ligand interaction.
- an inhibitor of Notch-Notch ligand interaction is an agent which binds to a Notch receptor or Notch Hgand so as to interfere with endogenous Notch-Notch ligand interaction whUst causing less activation of the Notch receptor than would result from endogenous Notch- Notch Hgand interaction, or preferably no significant activation.
- the inhibitor may bind to EGF-like domain 11 and/or EGF-like domain 12 of a Notch receptor or the DSL domain and/or EGF-like domain 1 and/or EGF-like domain 2 of a Notch Hgand such as Delta, Senate or Jagged.
- the inhibitor may comprise EGF-like domains 11 and 12 of a Notch receptor.
- the inhibitor may comprise a Notch ligand DSL domain and at least one EGF-like domain of a Notch Hgand such as Delta, Senate or Jagged.
- the inhibitor may comprise an extraceUular domain of a Notch receptor, for example an extraceUular domain of Notchl, Notch2, Notch3 or Notch4.
- the inhibitor may comprise an extraceUular domain of a Notch ligand such as Delta (eg a mammalian Deltal, Delta3 or Delta4), Senate or Jagged (eg a mammalian Jaggedlor Jagged2).
- the inhibitor binds to a Notch receptor, it may bind selectively to one Notch receptor such as Notchl, or may suitably have some degree of affinity for a range of Notch receptors or substantiaUy aU of them, due to their simUar structures.
- the inhibitor may bind selectively to one Notch Hgand such as Deltal, or may suitably have some degree of affinity for a range of Notch ligands or substantiaUy all of them, due to their similar structures.
- the inhibitor may comprise an antibody which binds specificaUy to a Notch receptor or receptors.
- the antibody binds to the Notch receptor in such a way as to reduce or substantiaUy prevent binding of native Notch ligands whilst the antibody is bound, or at least to reduce or substantiaUy prevent activation of the Notch receptor.
- such an antibody may bind to EGF 11 and/or 12 of the Notch receptor (eg Notchl, Notch2, Notch3 and/or Notch4).
- the antibody may be selective for one Notch receptor such as Notchl, or may suitably have some degree of affinity for a range of Notch receptors or substantially aU of them, due to their similar structures.
- the inhibitor may comprise an antibody which binds specificaUy to a Notch Hgand or ligands.
- the antibody binds to the Notch ligand Hi such a way as to reduce or substantially prevent binding of the ligand to native Notch receptors whilst the antibody is bound, or at least to reduce or substantially prevent activation of the Notch receptor.
- such an antibody may bind to the DSL domain and/or to EGF-like domains 1 and/or 2 of a Notch Hgand (eg a mammaHan Deltal, Delta3, Delta4, Jaggedlor Jagged2).
- the antibody may be selective for one Notch Hgand such as Deltal, or may suitably have some degree of affinity for a range of Notch ligands or substantially all of them, due to their similar structures. It will be appreciated that combinations of antibodies with complementary specificities may also be used.
- the inhibitor of Notch signalling may be an inhibitor of Notch IC protease.
- Notch IC protease as used herein means an enzyme or enzyme complex which acts proteolyticaUy to cleave a Notch receptor to cause the release of all or part of the intracellular (IC) domain from the Notch receptor so as to activate the Notch signaUing pathway.
- Enzymes which are understood to participate in such cleavage include the presertilins and gamma-secretase enzymes, and presenilin-dependent garnma- secretase enzymes or complexes.
- pre-dependent gamma-secretase as used herein means an enzyme having gamma secretase proteolytic activity which requires presenUin for activity or activation.
- the preseniHn may for example be required as a co-activator or as part of an enzyme complex.
- presenUin proteins which may be modulated in the present invention include Presenilin-1 (PSI) and Presenilin-2 (PS2).
- the modulator of Notch IC protease activity will preferably be selected from polypeptides and fragments thereof, linear peptides, cycHc peptides, and nucleic acids which encode therefor, synthetic and natural compounds including low molecular weight organic or inorganic compounds and antibodies.
- the modulator may for example be an agonist or an antagonist of presenUin or presenilin-dependent gamma-secretase, optionaUy in combination with an agent capable of respectively up-regulating or downregulating the Notch signaUing pathway respectively.
- An example of an antagonist of presenihn which may be used in the present invention is 26S proteasome or a nucleic acid sequence which encodes therefor.
- Synthetic inhibitors include, for example, the difluoro ketone inhibitor described in Citron et al., and Wolfe et al. having the formula:
- the inhibitor of Notch signalling is not an inhibitor of a Notch IC protease (ie is preferably not an inhibitor of presemlins and gamma-secretase enzymes, and is preferably not an inhibitor of presenilin-dependent gamma-secretase enzymes or complexes).
- a method for modifying an immune response by ad ⁇ mstering a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally lor 2 EGF repeat domains; Hi) optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- a method for increasing an immune response by administering a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- a method for modifying T ceU activity by administering a Notch Hgand protein or polypeptide consisting essentially of the following components: i) a Notch ligand DSL domain;
- optionaUy all or part of a Notch Hgand N-te ⁇ ninal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- T H helper
- T c cytotoxic
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- H optionally lor 2 EGF repeat domains; Hi) optionally all or part of a Notch Hgand N-te ⁇ ninal domain; and iv) optionaUy one or more heterologous amino acid sequences; or by administering a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or by administering a polynucleotide coding for such a Notch ligand protein or polypeptide.
- the regulatory T cells are Trl or Th3 regulatory T-ceUs.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; for use to treat disease.
- Notch ligand protein or polypeptide or polynucleotide for a use as claimed in claim 22 wherein the Notch ligand protein or polypeptide consists essentiaUy of the following components: i) a Notch ligand DSL domain;
- H optionally aU or part of a Notch ligand N-te ⁇ ninal domain
- Hi optionaUy one or more heterologous amino acid sequences; or wherein the polynucleotide codes for such a Notch ligand protein or polypeptide.
- a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain; n) optionally 1 or 2 EGF domains;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for modification of an immune response.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains; and iii) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for modification of an immune response.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for increasing an immune response.
- a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for reducing immune tolerance.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multuner of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for modification of T-ceU activity.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains; iii) optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionally one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for increasing helper (T H ) or cytotoxic I c ) T-ceU activity.
- Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; in the manufacture of a medicament for reducing activity of regulatory T cefls.
- a pharmaceutical composition comprising a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally 1 or 2 EGF domains
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; optionaUy in combination with a pharmaceuticaUy acceptable carrier.
- a pharmaceutical composition comprising a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- H optionally aU or part of a Notch ligand N-terminal domain
- optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; optionaUy in combination with a pharmaceutically acceptable carrier.
- a pharmaceutical composition comprising a Notch ligand protein or polypeptide consisting essentially of the following components: i) a Notch Hgand DSL domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; optionaUy in combination with a pharmaceuticaUy acceptable carrier.
- a pharmaceutical composition comprising a Notch ligand protein or polypeptide consisting essentially of the foUowing components: i) a Notch Hgand DSL domain;
- optionaUy all or part of a Notch Hgand N-terminal domain; and iv) optionaUy one or more heterologous amino acid sequences; or a multimer of such a protein or polypeptide (wherein each monomer may be the same or different); or a polynucleotide coding for such a Notch Hgand protein or polypeptide; optionaUy in combination with a pharmaceuticaUy acceptable carrier.
- Notch ligand protein or polypeptide which consists essentiaUy of the following components: i) a Notch ligand DSL domain;
- H optionally aU or part of a Notch ligand N-terminal domain
- Notch ligand protein or polypeptide which consists essentiaUy of the following components: i) a Notch ligand DSL domain;
- optionaUy all or part of a Notch Hgand N-te ⁇ ninal domain
- optionaUy one or more heterologous amino acid sequences
- a multimer of such a protein or polypeptide wherein each monomer may be the same or different
- a polynucleotide coding for such a Notch Hgand protein or polypeptide
- Notch ligand protein or polypeptide which consists essentiaUy of the following components: i) a Notch ligand DSL domain;
- Hi) optionaUy one or more heterologous amino acid sequences; or a polynucleotide sequence which codes for such a Notch Hgand protein or polypeptide.
- the term "which consists essentiaUy of or “consisting essentiaUy of as used herein means that the construct includes the sequences and domains identified but is substantiaUy free of other sequences or domains, and in particular is substantiaUy free of any other Notch or Notch Hgand sequences or domains.
- a vector comprising a polynucleotide coding for a Notch ligand protein or polypeptide as described above.
- the invention also provides a host ceU transformed or transfected with such a vector.
- a ceU displaying a Notch Hgand protein or polypeptide as described above on its surface and/or transfected with a polynucleotide coding for such a protein or polypeptide.
- the protein or polypeptide is not bound to a ceU.
- the protein or polypeptide may be cell-associated.
- the protein or polypeptide may be fused to a heterologous amino acid sequence corresponding to aU or part of an immunoglobulin F c segment.
- the heterologous amino acid sequence is not a TSST sequence, or preferably is not a superantigen sequence.
- the protein or polypeptide comprises at least part of a mammaHan, preferably human, Notch ligand sequence.
- the protein or polypeptide comprises Notch Hgand domains from Delta, Senate or Jagged or domains having at least 30% amino acid sequence simUarity or identity thereto.
- the protein or polypeptide comprises Notch ligand domains from Deltal , Delta 3, Delta 4, Jagged 1 or Jagged 2 or domains having at least 30% amino acid sequence similarity thereto.
- the protein or polypeptide inhibits a Notch receptor.
- the protein or polypeptide is a Notch signaUing antagonist.
- a polynucleotide coding for a protein or polypeptide as described above there is provided a vector comprising such a polynucleotide and a host ceU transformed or transfected with such a vector.
- a cell displaying a Notch Hgand protein or polypeptide as described above on its surface and/or transfected with a polynucleotide coding for such a protein or polypeptide.
- the modulator of the Notch signaUing pathway may comprise a fusion protein comprising domains from a. Notch ligand extraceUular domain and an immunoglobulin F c segment (eg IgGl Fc or IgG4 Fc) or a polynucleotide coding for such a fusion protein.
- an immunoglobulin F c segment eg IgGl Fc or IgG4 Fc
- Methods suitable for preparation of such fusion proteins are described, for example in Example 2 of WO 98/20142.
- IgG fusion proteins may be prepared as weU known in the art, for example, as described in US 5428130 (Genentech).
- a method for increasing TNF ⁇ expression by administering a protein, polypeptide or polynucleotide as described above.
- a method for reducing IL- 10 expression by administering a protein, polypeptide or polynucleotide as described above.
- the protein, polypeptide or polynucleotide modifies cytokine expression in leukocytes (such as lymphocytes or macrophages), fibrob lasts or epitheUal cells or their progenitors or tissue-specific derivatives.
- leukocytes such as lymphocytes or macrophages
- fibrob lasts or epitheUal cells or their progenitors or tissue-specific derivatives.
- a method for generating an immune stimulatory cytokine profile with reduced JJ -10 expression and increased TNF ⁇ expression by administering a protein, polypeptide or polynucleotide as described above.
- a method for generating an immune stimulatory cytokine profile with increased IL-5, JL-13 and TNF ⁇ expression by administering a protein, polypeptide or polynucleotide as described above.
- a method for generating an immune stimulatory cytokine profile with increased IL-2, IFN ⁇ , IL-5, JL-13 and TNF ⁇ expression by administering a protein, polypeptide or polynucleotide as described above.
- the cytokine profile also exhibits reduced IL-10 expression.
- a method for increasing a THl immune response by administering a protein, polypeptide or polynucleotide as described above.
- Figure 1 shows a schematic representation of Notch/Ligand interaction
- Figure 2 shows a schematic representation of the Notch signalling pathway
- Figure 3 shows a schematic representation of Notch 1-4
- Figure 4 shows a schematic representation of Notch Hgands Jagged and Delta
- Figure 5 shows ahgned amino acid sequences of DSL domains from various DrosophUa and mammahan Notch Hgands;
- Figure 6 shows amino acid sequences of human Delta-1, Delta-3 and Delta-4;
- Figure 7 shows amino acid sequences of human Jagged- 1 and Jagged-2
- Figure 8 shows an amino acid sequence of human Notch-1 .
- Figure 9 shows an amino acid sequence of human Notch-2
- Figure 10 shows a schematic representation of Notch Hgand/IgFc fusion proteins suitable for use in the present invention
- Figure 11 shows a schematic representation of a nucleic acid expression constract according to the present invention.
- Figure 12 shows the amino acid sequence and domain stmcture of the fusion protein of
- Figure 25 shows the results of Example 16 ;
- Figure 26 shows the results of Example 17 ;
- Figures 30 and 31 show the results of Example 21 ;
- Figures 32 and 33 shows the results of Example 22.
- Figure 34 shows the results of Example 23.
- the practice of the present invention will employ, unless otherwise indicated, conventional techniques of chemistry, molecular biology, microbiology, recombinant DNA and immunology, which are within the capabilities of a person of ordinary skUl in the art. Such techniques are explained in the literature. See, for example, J. Sambrook, E. F. Fritsch, and T. Maniatis, 1989, Molecular Cloning: A Laboratory Manual, Second Edition, Books 1-3, Cold Spring Harbor Laboratory Press; Ausubel, F. M. et al. (1995 and periodic supplements; Current Protocols in Molecular Biology, ch. 9, 13, and 16, John Wiley & Sons, New York, N.Y.); B. Roe, J. Crabtree, and A.
- Drosophila and vertebrate names are used interchangeably and aU homologues are included within the scope of the invention.
- Notch signalling is synonymous with the expression “the Notch signaUing pathway” and refers to any one or more of the upstream or downstream events that result in, or from, (and including) activation of the Notch receptor.
- Notch signalling we refer to any event directly upstream or downstream of Notch receptor activation or inhibition including activation or inhibition of Notch/Notch Hgand interactions, upregulation or downregulation of Notch or Notch Hgand expression or activity and activation or inhibition of Notch signaUing transduction including, for example, proteolytic cleavage of Notch and upregulation or downregulation of the Ras-Jnk signaUing pathway.
- Notch signaUing we refer to the Notch signalling pathway as a signal tranducing pathway comprising elements which interact, geneticaUy and/or molecularly, with the Notch receptor protein.
- elements which interact with the Notch protein on both a molecular and genetic basis are, by way of example only, Delta, Senate and Deltex.
- Elements which interact with the Notch protein geneticaUy are, by way of example only, Mastermind, Hairless, Su(H) and Presenilin.
- Notch signalling mcludes signalling events taking place extraceUularly or at the cell membrane. In a further aspect, it includes signaUing events taking place intracellularly, for example within the ceU cytoplasm or within the ceU nucleus.
- modulate refers to a change or alteration in the biological activity of the Notch signaUing pathway or a target signaUing pathway thereof.
- modulator preferably refers to antagonists or inhibitors of Notch signaUing, i.e. compounds which block, at least to some extent, the normal biological activity of the Notch signalling pathway. Conveniently such compounds may be refened to herein as inhibitors or antagonists.
- the modulator is an antagonist of Notch signaUing, and preferably an antagonist of the Notch receptor (eg an antagonist of the Notchl, Notch2, Notch3 and/or Notch4 receptor).
- An antagonist of the Notch receptor is preferably an agent which binds to the extraceUular domain of Notch to reduce or inhibit activation of signaUing.
- an antagonist of the Notch receptor binds to Notch in immune ceUs, such as APCs, B-ceUs or T-ceUs.
- an inhibitor of Notch signalling may bind to Notch Hgands to reduce their ability to bind to and/or activate a Notch receptor.
- an inhibitor binds to Notch ligands in immune ceUs, such as APCs, B-ceUs or T-ceUs.
- the active agent of the present invention may be an organic compound or other chemical.
- a modulator wiU be an organic compound comprising two or more hydrocarbyl groups.
- hydrocarbyl group means a group comprising at least C and H and may optionally comprise one or more other suitable substituents. Examples of such substituents may include halo-, alkoxy-, nitro-, an alkyl group, a cycHc group etc. hi addition to the possibhity of the substituents being a cyclic group, a combination of substituents may form a cyclic group. Jf the hydrocarbyl group comprises more than one C then those carbons need not necessarily be linked to each other.
- the carbons may be linked via a suitable element or group.
- the hydrocarbyl group may contain hetero atoms. Suitable hetero atoms wUl be apparent to those skUled in the art and include, for instance, sulphur, nitrogen and oxygen.
- the candidate modulator may comprise at least one cycHc group.
- the cycHc group may be a polycyclic group, such as anon-fused polycycHc group.
- the agent comprises at least the one of said cychc groups linked to another hydrocarbyl group.
- the modulator will be an amino acid sequence or a chemical derivative thereof, or a combination thereof.
- the modulator wUl be a nucleotide sequence - which may be a sense sequence or an anti- sense sequence.
- the modulator may also be an antibody.
- Modulators may be synthetic compounds or natural isolated compounds.
- a very important component of the Notch signaUing pathway is Notch receptor/Notch Hgand interaction.
- Notch signaUing may involve changes in expression, nature, amount or activity of Notch ligands or receptors or their resulting cleavage products.
- Notch signalling may involve changes Hi expression, nature, amount or activity of Notch signaUing pathway membrane proteins or G-proteins or Notch signaUing pathway enzymes such as proteases, kinases (e.g. serme/threorrine kinases), phosphatases, Hgases (e.g. ubiquitin Hgases) or glycosyltransferases.
- the signalling may involve changes in expression, nature, amount or activity of DNA binding elements such as transcription factors.
- the Notch signalling is specific signalling, meaning that the signal detected results substantiaUy or at least predominantly from the Notch signaUing pathway, and preferably from Notch Notch ligand interaction, rather than any other significant interfering or competing cause, such as for example cytokine signaUing.
- the term "Notch signaUing" as used herein excludes cytokine signaUing.
- the modulator or inhibitor of Notch signaUing is not a cytokine and is preferably not a mitogen.
- the modulator of Notch signaUing is not an agent which acts primarily by inhibiting or downregulating the expression of a Notch Hgand such as Delta and/or Senate.
- a Notch Hgand such as Delta and/or Senate.
- the primary mode of action of the modulator of Notch signaUing is to modulate (preferably inhibit) interactions between Notch and Notch ligands which are already expressed on immune ceUs.
- the modulator of Notch signaUing is not a Toll protein or BMP and is preferably not an agent which decreases or interferes with the production of Noggin, Chordin, FoUistatin, Xnr3, FGF or Fringe as described, for example in WO98/20142.
- the Notch signalling pathway is described in more detail below.
- the active agent may be a Notch Hgand, or a polynucleotide encoding a Notch ligand.
- Notch Hgands of use in the present invention include endogenous Notch Hgands which are typically capable of binding to a Notch receptor polypeptide present in the membrane of a variety of mammalian ceUs, for example hemapoietic stem cells.
- Notch Hgand as used herein means an agent capable of interacting with a Notch receptor to cause a biological effect.
- the term includes naturally occurring protein ligands such as Delta and Senate, and artificial/modified constructs having equivalent activity.
- Suitable mammalian Notch ligands identified to date include the Delta famUy, for example Delta or Delta-like 1 (Genbank Accession No. AF003522 - Homo sapiens), Delta-3 (Genbank Accession No. AFO 84576 - Rattus norvegicus) and Delta-like 3 (Mus musculus) (Genbank Accession No. NM_016941 - Homo sapiens) and US 6121045 (MUlennium), Delta-4 (Genbank Accession Nos.
- a homologue of known mammalian Notch Hgands may be identified using standard techniques.
- a “homologue” it is meant a gene product that exhibits sequence homology, either amino acid or nucleic acid sequence homology, to any one of the known Notch Hgands, for example as mentioned above.
- a homologue of a known Notch Hgand wiU be at least 20%, preferably at least 30%, identical at the amino acid level to the co ⁇ esponding known Notch ligand over a sequence of at least 10, preferably at least 20, preferably at least 50, suitably at least 100 amino acids, or over the entire length of the Notch ligand.
- Notch Hgands identified to date have a diagnostic DSL domain (D. Delta, S. Serrate, L. Lag2) comprising 20 to 22 amino acids at the amino te ⁇ ninus of the protein and up to 14 or more EGF-like repeats on the extraceUular surface. It is therefore prefened that homologues of Notch Hgands also comprise a DSL domain at the N-terminus and up to 14 or more EGF- Hke repeats on the extraceUular surface.
- DSL domain D. Delta, S. Serrate, L. Lag2
- homologues of Notch Hgands also comprise a DSL domain at the N-terminus and up to 14 or more EGF- Hke repeats on the extraceUular surface.
- suitable homologues wUl be capable of binding to a Notch receptor. Binding may be assessed by a variety of techniques known in the art including in vitro binding assays.
- Homologues of Notch ligands can be identified in a number of ways, for example by probing genomic or cDNA Hbraries with probes comprising all or part of a nucleic acid encoding a Notch Hgand under conditions of medium to high stringency (for example 0.03M sodium chloride and 0.03M sodium citrate at from about 50°C to about 60°C).
- medium to high stringency for example 0.03M sodium chloride and 0.03M sodium citrate at from about 50°C to about 60°C.
- homologues may also be obtained using degenerate PCR which wiU generaUy use primers designed to target sequences within the variants and homologues encoding conserved arn no acid sequences.
- the primers wiU contain one or more degenerate positions and wiU be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- polypeptides for Notch signalling inhibition include molecules capable of mimicking or enhancing activity or expression of any Notch signalling inhibitors.
- the molecule wiU be a polypeptide, or a polynucleotide encoding such a polypeptide, that increases the production or activity of compounds that are capable of producing a decrease in the expression or activity of Notch, Notch Hgands, or any downstream components of the Notch signalling pathway.
- Such molecules include the Toll-like receptor protein family, and growth factors such as the bone morphogenetic protein (BMP), BMP receptors and activins, derivatives, fragments, variants and homologues thereof.
- BMP bone morphogenetic protein
- BMP bone morphogenetic protein
- a protein which is for Notch signaUing inhibition or a polynucleotide encoding such a protein we mean a molecule which is capable of inhibiting Notch, the Notch signalling pathway or any one or more of the components of the Notch signalling pathway.
- the molecule may be capable of reducing or preventing Notch or Notch ligand expression.
- a molecule maybe a nucleic acid sequence capable of reducing or preventing Notch or Notch ligand expression.
- the nucleic acid sequence encodes a polypeptide selected from Toll-like receptor protein family or a growth factor such as a bone morphogenetic protein (BMP), a BMP receptor and activins.
- BMP bone morphogenetic protein
- the agent is a polypeptide, or a polynucleotide encoding such a polypeptide, that decreases or interferes with the production of compounds that are capable of producing an increase in the expression of Notch Hgand, such as Noggin, Chordin, FoUistatin, Xnr3, fibroblast growth factors and derivatives, fragments, variants and homologues thereof.
- the nucleic acid sequence may be an antisense construct derived from a sense nucleotide sequence encoding a polypeptide selected from a Notch Hgand and a polypeptide capable of upregulating Notch Hgand expression, such as Noggin, Chordin, FoUistatin, Xnr3, fibroblast growth factors and derivatives, fragments, variants and homologues thereof.
- an inhibitor of Notch signalling whlbe a molecule which is capable of inhibiting Notch-Notch Hgand interactions.
- a molecule may be considered to modulate Notch-Notch Hgand interactions if it is capable of hihibiting the interaction of Notch with its naturally occurring Hgands, preferably to an extent sufficient to provide therapeutic efficacy.
- Agents which modulate Notch-Notch ligand interaction may, for example be antibodies, antibody fragments or derivatives, peptides, small organic molecules, peptidomimetics or the like. Antibodies are prefened agents. Such antibodies may be polyclonal or monoclonal, intact or truncated, and may for example be xenogeneic, aUogeneic or syngeneic.
- antibodies capable of binding to Notch receptors or Notch Hgands may be used to inhibit normal Notch-Notch ligand interactions in accordance with the present invention.
- Notch-Notch Hgand interaction (which may be used interchangeably with the term “Notch Hgand-receptor interaction”) as used herein means the interaction between a Notch family member and a ligand capable of binding to one or more such member.
- An agent may be considered to inhibit Notch-Notch Hgand interactions if it is capable of inhibiting the interaction of Notch with its Hgands, preferably to an extent sufficient to provide therapeutic efficacy.
- oligopeptides and peptides may be prefened agents, other sources such as combinatorial Hbraries provide compounds other than ohgopeptides that have the necessary binding characteristics.
- Non-peptide agents include numerous chemical types, though typically they are organic molecules, preferably small organic compounds having a molecular weight of between about 50 and about 2,500 daltons.
- Suitable agents include functional groups necessary for stmctural interaction with proteins, particularly hydrogen bonding, and frequently include at least one group selected from, for example, an amine, carbonyl, carboxyl, hydroxyl, or sulfhydryl group, preferably at least two such functional chemical groups.
- Compounds may, for example be cycHc or heterocychc structures and/or aromatic or polyaromatic structures substituted with one or more such functional groups.
- the agents block binding of human Notch to human Delta and/or Senate by at least about 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 99%, or 100%.
- the receptor is activated.
- the receptor is preferably constitutively active when expressed.
- Inhibitors of Notch signalling also include downstream inhibitors of the Notch signalling pathway, compounds that prevent expression of Notch target genes or induce expression of genes repressed by the Notch signaUing pathway.
- Examples of such proteins include Dsh or Numb and dominant negative versions of Notch IC or Deltex.
- Proteins for Notch signalling inhibition wUl also include variants of the wild-type components of the Notch signaUing pathway which have been modified in such a way that then presence blocks rather than transduces the signalling pathway.
- An example of such a compound would be a Notch receptor which has been modified such that proteolytic cleavage of its intracellular domain is no longer possible.
- Notch signalling may also be inhibited by inhibiting Notch signaUing transduction.
- Notch signalling pathway dkects binary ceU fate decisions in the embryo. Notch was first described in Drosophila as a transmembrane protein that functions as a receptor for two different ligands, Delta and Senate. Vertebrates express multiple Notch receptors and Hgands (discussed below). At least four Notch receptors (Notch-1, Notch-2, Notch-3 and Notch-4) have been identified to date in human ceUs (see for example GenBank Accession Nos. AF308602, AF308601 and U95299 - Homo sapiens).
- Notch proteins are synthesized as single polypeptide precursors that undergo cleavage via a Furin-like convertase that yields two polypeptide chains that are further processed to form the mature receptor.
- the Notch receptor present in the plasma membrane comprises a heterodimer of two Notch proteolytic cleavage products, one comprising an N-terminal fragment consistmg of a portion of the extraceUular domain, the transmembrane domain and the intracellular domain, and the other comprising the majority of the extraceUular domain.
- the proteolytic cleavage step of Notch to activate the receptor occurs in the Golgi apparatus and is mediated by a furin-like convertase.
- EGF epidermal growth factor
- L/N 3 Cysteine Rich Repeats
- the cytoplasmic domain of Notch contains six ankyrin-Hke repeats, a polyglutarnine stretch (OP A) and a PEST sequence.
- a further domain termed RAM23 lies proximal to the ankyrin repeats and is involved in binding to a transcription factor, known as Suppressor of Hairless [Su(H)] in Drosophila and CBFl in vertebrates (Tamura K, et al. (1995) Cun. Biol. 5:1416-1423 (Tamura)).
- the Notch ligands also display multiple EGF-like repeats in their extracellular domains together with a cysteine-rich DSL (Delta-Senate Lag2) domain that is characteristic of all Notch Hgands (Artavanis-Tsakomas et al. (1995) Science 268:225-232, Artavanis-Tsakomas et al. (1999) Science 284:770-776).
- the Notch receptor is activated by binding of extraceUular ligands, such as Delta, Senate and Scabrous, to the EGF-like repeats of Notch's extraceUular domain.
- Delta requires cleavage for activation. It is cleaved by the ADAM disintegrin metalloprotease Kuzbanian at the cell surface, the cleavage event releasing a soluble and active form of Delta.
- An oncogenic variant of the human Notch-1 protein, also known as TAN-1 which has a truncated extraceUular domain, is constitutively active and has been found to be involved in T-cell lymphoblastic leukemias.
- the cdclO/ahkyrin intraceUular-domain repeats mediate physical interaction with intraceUular signal transduction proteins. Most notably, the cdclO/ahkyrin repeats interact with Suppressor of Hairless [Su(H)].
- Su(H) is the Drosophila homologue of C-promoter binding factor-l [CBF-1], a mammaHan DNA binding protein involved in the Epstein-Ban vims-induced immortalization of B-ceUs.
- Su(H) associates with the cdclO/ankyrin repeats in the cytoplasm and translocates into the nucleus upon the mteraction of the Notch receptor with its Hgand Delta on adjacent ceUs.
- Su(H) includes responsive elements found in the promoters of several genes and has been found to be a critical downstream protein in the Notch signaUing pathway. The involvement of Su(H) in transcription is thought to be modulated by Hairless.
- the intraceUular domain of Notch also has a direct nuclear function (Lieber et al. (1993) Genes Dev 7(10):1949-65 (Lieber)). Recent studies have indeed shown that Notch activation requires that the six cdclO/ankyrin repeats of the Notch intraceUular domain reach the nucleus and participate in transcriptional activation.
- the site of proteolytic cleavage on the intracellular taU of Notch has been identified between gly 1743 and vall744 (termed site 3, or S3) (Schroeter, E.H. et al. (1998) Nature 393f6683):382-6 (Schroeter)). It is thought that the proteolytic cleavage step that releases the cdclO/ankyrin repeats for nuclear entry is dependent on PresenUin activity.
- the intraceUular domain has been shown to accumulate in the nucleus where it forms a transcriptional activator complex with the CSL family protein CBFl (suppressor of hairless, Su(H) in Drosophila, Lag-2 in C. elegans) (Schroeter; Struhl, G. et al. (1998) CeU 93(4):649-60 (Struhl)).
- CSL family protein CBFl suppressor of hairless, Su(H) in Drosophila, Lag-2 in C. elegans
- the NotchlC-CBFl complexes then activate target genes, such as the bHLH proteins HES (hairy-enhancer of split like) 1 and 5 (Weimnaster G. (2000) Cun. Opin. Genet. Dev. 10:363-369 (Weinmaster)).
- This nuclear function of Notch has also been shown for the mammaHan Notch homologue (Lu, F. M. et al. (1996) Proc Nat
- Fringe modifies Notch by adding ( -linked fucose groups to the EGF-like repeats (Moloney DJ, et al. (2000) Nature 406:369-375 (Moloney), Brucker K, et al. (2000) Nature 406:411-415 (Brucker)). This modification by Fringe does not prevent ligand binding, but may influence ligand induced confo ⁇ national changes in Notch. Furthermore, recent studies suggest that the action of Fringe modifies Notch to prevent it from interacting functionally with Senate/Jagged Hgands but allow it to preferentiaUy bind Delta (Panin NM, et al.
- Notch IC proteolytic cleavage of the intraceUular domain of Notch
- CBFl CSL farnUy protein
- NotchlC-CBFl complexes then activate target genes, such as the bHLH proteins HES (hairy-enhancer of split like) 1 and 5.
- Notch can also signal in a CBFl -independent manner that involves the cytoplasmic zinc finger containing protein Deltex. Unlike CBFl , Deltex does not move to the nucleus foUowing Notch activation but instead can interact with Grb2 and modulate the Ras-JNK signalling pathway.
- Target genes of the Notch signaUing pathway include Deltex, genes of the Hes fannly (Hes-1 in particular), Enhancer of SpHt [E(spl)] complex genes, IL-10, CD-23, CD-4 and DU-1.
- Deltex an intraceUular docking protein, replaces Su(H) as it leaves its site of interaction with the intraceUular taU of Notch.
- Deltex is a cytoplasmic protein containing a zinc-finger (Artavanis-Tsakomas et al. (1995) Science 268:225-232; Artavanis-Tsakomas et al. (1999) Science 284:770-776; Osborne B, Miele L. (1999) Immunity 11:653-663 (Osborne)). It interacts with the ankyrin repeats of the Notch intracellular domain.
- Deltex promotes Notch pathway activation by mteracting with Grb2 and modulating the Ras-JNK signalling pathway (Matsuno et al. (1995) Development 121(8):2633-44; Matsuno K, et al. (1998) Nat. Genet. 19:74-78). Deltex also acts as a docking protein which prevents Su(H) from binding to the intraceUular tail of Notch (Matsuno). Thus, Su(H) is released into the nucleus where it acts as a transcriptional modulator. Recent evidence also suggests that, in a vertebrate B-ceU system, Deltex, rather than the Su(H) homologue CBFl, is responsible for inhibiting E47 function (Ordentlich et al.
- Hes-1 (Hairy-enhancer of Split-1) (Takebayashi K. et al. (1994) J Biol Chem 269(7 :150-6 (Takebayashi)) is a transcriptional factor with a basic heHx-loop-helix stmcture. It binds to an important functional site in the CD4 silencer leading to repression of CD4 gene expression. Thus, Hes-1 is strongly involved in the determination of T-ceU fate.
- Other genes from the Hes family include Hes-5 (mammalian Enhancer of Spht homologue), the expression of which is also upregulated by Notch activation, and Hes-3. Expression of Hes- 1 is upregulated as a result of Notch activation.
- the sequence of Mus museums Hes-1 can be found in GenBank Accession No. D16464.
- E(spl) gene complex [E(spl)-C] (Leimeister C. et al. (1999) Mech Dev 85 (1-2): 173 -7 (Leimeister)) comprises seven genes of which only E(spl) and Groucho show visible phenotypes when mutant. E(s ⁇ l) was named after its ability to enhance SpHt mutations, Split being another name for Notch. Indeed, E(spl)-C genes repress Delta through regulation of achaete-scute complex gene expression. Expression of E(spl) is upregulated as a result of Notch activation.
- Interleukin-10 was first characterised in the mouse as a factor produced by Th2 ceUs which was able to suppress cytokine production by Thl cells. It was then shown that IL-10 was produced by many other ceU types including macrophages, keratinocytes, B ceUs, ThO and Thl ceUs. It shows extensive homology with theEpstein-Banbcrfl gene which is now designated vkal IL-10. Although a few immunostimulatory effects have been reported, it is mainly considered as an immunosuppressive cytokine. Inhibition of T ceU responses by IL-10 is mainly mediated through a reduction of accessory functions of antigen presenting ceUs.
- IL-10 has notably been reported to suppress the production of numerous pro-inflammatory cytokrnes by macrophages and to inhibit co-stimulatory molecules and MHC class TI expression. IL-10 also exerts anti-rnflammatory effects on other myeloid cells such as neutrophUs and eosinophUs. On B cells, JL-10 influences isotype switching and proliferation. More recently, JL-10 was reported to play a role in the induction of regulatory T ceUs and as a possible mediator of their suppressive effect. Although it is not clear whether it is a direct downstream target of the Notch signaUing pathway, its expression has been found to be strongly up-regulated coincident with Notch activation. The mRNA sequence of JL-10 may be found in GenBank ref. No. GI1041812.
- CD-23 is the human leukocyte differentiation antigen CD23 (FCE2) which is a key molecule for B-ceU activation and growth. It is the low-affinity receptor for IgE. Furthermore, the truncated molecule can be secreted, then functioning as a potent mitogenic growth factor.
- FCE2 human leukocyte differentiation antigen CD23
- the sequence for CD-23 may be found in GenBank ref. No. GI1783344.
- CTLA4 cytotoxic T-lymphocyte activated protein 4
- CTLA4 is an accessory molecule found on the surface of T-cells which is thought to play a role in the regulation of airway inflammatory ceU recmitment and T-helper ceU differentiation after allergen inhalation.
- the promoter region of the gene encoding CTLA4 has CBFl response elements and its expression is upregulated as a result of Notch activation.
- the sequence of CTLA4 can be found in GenBank Accession No. L15006.
- Dlx-1 (distaUess-1) (McGuinness T. Et al (1996) Genomics 35(3):473-85 (McGuiness)) expression is downregulated as a result of Notch activation. Sequences for Dix genes may be found in GenBank Accession Nos. U51000-3.
- CD-4 expression is downregulated as a result of Notch activation.
- a sequence for the CD-4 antigen may be found in GenBank Accession No. XM006966.
- Other genes involved in the Notch signaling pathway, such as Numb, Mastermind and Dsh, and aU genes the expression of which is modulated by Notch activation, are included in the scope of this invention.
- Notch receptor family participates in ceU-cell signalling events that influence T cell fate decisions.
- NotchIC locahses to the nucleus and functions as an activated receptor.
- MammaHan NotchIC interacts with the transcriptional repressor CBFl . It has been proposed that the NotchIC cdclO/ankyrin repeats are essential for this interaction.
- Hsieh et al Hsieh et al (Hsieh et al. (1996) Molecular & CeU Biology 16(3):952-959) suggests rather that the N-terminal 114 amino acid region of mouse NotchIC contains the CBFl interactive domain.
- NotchIC acts by targeting DNA-bound CBFl within the nucleus and aboHshing CBFl -mediated repression through masking of the repression domain.
- Epstein Ban virus (EBN) immortalizing protein EB ⁇ A” also utilises CBFl tethering and masking of repression to upregulate expression of CBFl -repressed B-ceU genes.
- EBN Epstein Ban virus
- Strobl et al Strobl et al. (2000) J Nkol 74f4: 1727-35
- EB ⁇ A2 may hence be regarded as a functional equivalent of an activated Notch receptor.
- Other EBN proteins which fall in this category include BARF0 (Kusano and Raab-Truab (2001) J Nkol 75(1) :384-395 (Kusano and Raab-Traub)) and LMP2A.
- any one or more of appropriate targets - such as an amino acid sequence and/or nucleotide sequence - may be used for identifying a compound capable of modulating the Notch signalling pathway and/or a targeting molecule in any of a variety of drug screening techniques.
- the target employed in such a test may be free in solution, affixed to a solid support, borne on a ceU surface, or located intracellularly.
- smaU peptide candidate modulators or targeting molecules are synthesized on a sohd substrate, such as plastic pins or some other surface.
- the peptide test compounds are reacted with a suitable target or fragment thereof and washed. Bound entities are then detected - such as by appropriately adapting methods well known hi the art.
- a purified target can also be coated dkectly onto plates for use in drug screening techniques. Plates of use for high throughput screening (HTS) will be multi-well plates, preferably having 96, 384 or over 384 wells/plate. CeUs can also be spread as "lawns".
- non-neutraHsing antibodies can be used to capture the peptide and irnmobnise it on a solid support.
- High throughput screening as described above for synthetic compounds, can also be used for identifying organic candidate modulators and targeting molecules.
- This mvention also contemplates the use of competitive drug screening assays in which neutralising antibodies capable of binding a target specificaUy compete with a test compound for binding to a target.
- amino acid sequence is synonymous with the term “polypeptide” and/or the term “protein”. In some instances, the term “amino acid sequence” is synonymous with the term “peptide”. In some instances, the term “amino acid sequence” is synonymous with the term “protein”.
- Protein usually refers to a short amino acid sequence that is 10 to 40 amino acids long, preferably 10 to 35 amino acids.
- amino acid sequence may be prepared and isolated from a suitable source, or it may be made synthetically or it may be prepared by use of recombinant DNA techniques.
- nucleotide sequence is synonymous with the term ' 'polynucleotide' ' .
- the nucleotide sequence may be DNA or RNA of genomic or synthetic or of recombinant origin. They may also be cloned by standard techniques. The nucleotide sequence may be double-stranded or single-stranded whether representing the sense or antisense strand or combinations thereof.
- RNA sequences wiU generaUy be produced using recombinant means, for example using a PCR (polymerase chain reaction) cloning techniques.
- This wiU involve making a pak of primers (e.g. of about 15 to 30 nucleotides) flanking a region of the targeting sequence which it is desked to clone, bringing the primers into contact with mRNA or cDNA obtained from an animal or human ceU, performing a polymerase chain reaction (PCR) under conditions which bring about amplification of the desired region, isolating the ampHfied fragment (e.g. by purifying the reaction mixture on an agarose gel) and recovering the amplified DNA.
- PCR polymerase chain reaction
- primers may be designed to contain suitable restriction enzyme recognition sites so that the ampHfied DNA can be cloned into a suitable cloning vector.
- primers wiU be produced by synthetic means, involving a step wise manufacture of the desked nucleic acid sequence one nucleotide at a time. Techniques for accompHshing this using automated techniques are readUy avaUable in the art.
- Polynucleotide refers to a polymeric form of nucleotides of at least 10 bases in length and up to 10,000 bases or more, either ribonucleotides or deoxyribonucleotides or a modified form of either type of nucleotide.
- the term includes single and double stranded forms of DNA and also derivatised versions such as protein nucleic acid (PNA).
- PNA protein nucleic acid
- the nucleic acid may be RNA or DNA and is preferably DNA. Where it is RNA, manipulations may be performed via cDNA intermediates. GeneraUy, a nucleic acid sequence encoding the first region wUl be prepared and suitable restriction sites provided at the 5' and/or 3' ends. Conveniently the sequence is manipulated in a standard laboratory vector, such as a plasmid vector based on ⁇ BR322 or ⁇ UC19 (see below). Reference may be made to Molecular Cloning by Sambrook et al. (Cold Spring Harbor, 1989) or similar standard reference books for exact detaUs of the appropriate techniques.
- Sources of nucleic acid may be ascertained by reference to published literature or databanks such as GenBank.
- Nucleic acid encoding the desked first or second sequences may be obtained from academic or commercial sources where such sources are willing to provide the material or by synthesising or cloning the appropriate sequence where only the sequence data are avaUable. Generally this may be done by reference to literature sources which describe the cloning of the gene in question.
- nucleic acids can be characterised as those nucleotide sequences which hybridise to the nucleic acid sequences known in the art.
- the nucleotide sequence is DNA.
- the nucleotide sequence is prepared by use of recombinant DNA techniques (e.g. recombinant DNA).
- the nucleotide sequence is cDNA.
- the nucleotide sequence may be the same as the naturally occurring form.
- nucleic acids can be characterised as those nucleotide sequences which hybridise to the nucleic acid sequences known in the art.
- nucleotide sequences can encode the same protein used in the present invention as a result of the degeneracy of the genetic code.
- skilled persons may, using routine techniques, make nucleotide substitutions that do not affect the protein encoded by the nucleotide sequence of the present invention to reflect the codon usage of any particular host organism in which the target protein or protein for Notch signaUing modulation of the present invention is to be expressed.
- the present invention also encompasses the use of variants, derivatives, analogues, homologues and fragments thereof.
- a variant of any given sequence is a sequence in which the specific sequence of residues (whether amino acid or nucleic acid residues) has been modified in such a manner that the polypeptide or polynucleotide in question retains at least one of its endogenous functions.
- a variant sequence can be modified by addition, deletion, substitution modification replacement and/or variation of at least one residue present in the naturally-occurring protein.
- derivative as used herein, in relation to proteins or polypeptides of the present invention includes any substitution of, variation of, modification of, replacement of, deletion of and/or addition of one (or more) amino acid residues from or to the sequence providing that the resultant protein or polypeptide retains at least one of its endogenous functions.
- analogue in relation to polypeptides or polynucleotides includes any mimetic, that is, a chemical compound that possesses at least one of the endogenous functions of the polypeptides or polynucleotides which it mimics.
- proteins and “polypeptides” useful in the present invention
- the specific amino acid residues may be modified in such a manner that the protein in question retains at least one of its endogenous functions, such modified proteins are refened to as "variants”.
- a variant protein can be modified by addition, deletion and/or substitution of at least one amino acid present in the namrally-occurring protein.
- amino acid substitutions may be made, for example from 1, 2 or 3 to 10 or 20 substitutions provided that the modified sequence retains the required target activity or ability to modulate Notch signalling.
- Amino acid substitutions may include the use of non-naturaUy occurring analogues.
- Proteins of use in the present invention may also have deletions, insertions or substitutions of amino acid residues which produce a silent change and result in a functionally equivalent protein.
- Dehberate amino acid substitutions may be made on the basis of similarity in polarity, charge, solubihty, hydrophobicity, hydrophihcity, and/or the amphipathic nature of the residues as long as the target or modulation function is retained.
- negatively charged amino acids include aspartic acid and glutamic acid; positively charged amino acids include lysine and arginrne; and amino acids with uncharged polar head groups having similar hydrop icity values include leucine, isoleucine, valine, glycine, danine, asparagine, glutamine, serine, threonine, phenylalanine, and tyro sine.
- protein includes single-chain polypeptide molecules as well as multiple-polypeptide complexes where individual constituent polypeptides are linked by covalent or non-covalent means.
- polypeptide and peptide refer to a polymer in which the monomers are amino acids and are joined together through peptide or disulfide bonds.
- s ⁇ bunit and domain may also refer to polypeptides and peptides having biological function.
- a peptide useful in the invention wUl at least have a target or signalling modulation capabUity.
- “Fragments” are also variants and the term typicaUy refers to a selected region of the protein that is of interest in a binding assay and for which a binding partner is known or determinable.
- “Fragment” thus refers to an amino acid sequence that is a portion of a fuU-length polypeptide, for example between about 8 and about 1500 amino acids in length, preferably between about 8 and about 745 amino acids in length, preferably about 8 to about 300, more preferably about 8 to about 200 amino acids, and even more preferably about 10 to about 50 or 100 amino acids in length.
- “Peptide” refers to a short amino acid sequence that is 10 to 40 amino acids long, preferably 10 to 35 amino acids.
- Such variants may be prepared using standard recombinant DNA techniques such as site- dkected mutagenesis. Where insertions are to be made, synthetic DNA encoding the insertion together with 5' and 3' flanking regions co ⁇ esponding to the natarally-occurring sequence either side of the insertion site.
- the flanking regions wiU contain convenient restriction sites co ⁇ esponding to sites in the natarally-occurring sequence so that the sequence may be cut with the appropriate enzyme(s) and the synthetic DNA ligated into the cut.
- the DNA is then expressed in accordance with the invention to make the encoded protein.
- Variants of the nucleotide sequence may also be made.
- Such variants wUl preferably comprise codon optimised sequences.
- Codon optimisation is known in the art as a method of enhancing RNA stability and therefore gene expression.
- the redundancy of the genetic code means that several different codons may encode the same amino-acid. For example, leucine, arginine and serine are each encoded by six different codons. Different organisms show preferences in thek use of the different codons. Viruses such as HTV, for instance, use a large number of rare codons.
- the active agent is a nucleotide sequences it may suitably be codon optimised for expression in mammahan ceUs.
- the sequence is codon optimised.
- the sequence is codon optimised in its entkety.
- homologous sequence wiU be taken to include an amino acid sequence which may be at least 75, 85 or 90% identical, preferably at least 95 or 98% identical.
- homology should typically he considered with respect to those regions of the sequence (such as amino acids at positions 51 , 56 and 57) known to be essential for an activity.
- homology can also be considered in terms of similarity (i.e. amino acid residues having similar chemical properties/functions), in the context of the present invention it is prefened to express homology in terms of sequence identity.
- Homology comparisons can be conducted by eye, or more usuaUy, with the aid of readUy avaUable sequence comparison programs. These commerciaUy available computer programs can calculate % homology between two or more sequences.
- Percent homology maybe calculated over contiguous sequences, i.e. one sequence is aHgned with the other sequence and each amino acid in one sequence is dkectly compared with the corresponding amino acid in the other sequence, one residue at a time. This is called an "ungapped" ahgnment. Typically, such ungapped aUgnments are performed only over a relatively short number of residues.
- blastp - compares an amino acid query sequence against a protein sequence database.
- blastx compares the six-frame conceptual translation products of a nucleotide query sequence (both strands) against a protein sequence database.
- tblastn compares a protein query sequence against a nucleotide sequence database dynamically translated in aU six reading frames (both strands).
- tblastx compares the six-frame translations of a nucleotide query sequence against the six-frame translations of a nucleotide sequence database.
- BLAST uses the following search parameters:
- HISTOGRAM - Display a histogram of scores for each search; default is yes. (See parameter H in the BLAST Manual).
- DESCRIPTIONS Restricts the number of short descriptions of matching sequences reported to the number specified; default limit is 100 descriptions. (See parameter N in the manual page).
- EXPECT The statistical significance threshold for reporting matches against database sequences; the default value is 10, such that 10 matches are expected to be found merely by chance, according to the stochastic model of Karlin and Altschul (1990). If the statistical significance ascribed to a match is greater than the EXPECT threshold, the match wiU not be reported. Lower EXPECT thresholds are more stringent, leading to fewer chance matches being reported. Fractional values are acceptable. (See parameter E in the BLAST Manual).
- CUTOFF - Cutoff score for reporting high-scoring segment pairs.
- the default value is calculated from the EXPECT value (see above).
- HSPs are reported for a database sequence only if the statistical significance ascribed to them is at least as high as would be ascribed to a lone HSP having a score equal to the CUTOFF value. Higher CUTOFF values are more stringent, leading to fewer chance matches being reported. (See parameter S in the BLAST Manual).
- TypicaUy significance thresholds can be more intuitively managed using EXPECT.
- ALIGNMENTS Restricts database sequences to the number specified for which high- scoring segment paks (HSPs) are reported; the default limit is 50. If more database sequences than this happen to satisfy the statistical significance threshold for reporting (see EXPECT and CUTOFF below), only the matches ascribed the greatest statistical significance are reported. (See parameter B in the BLAST Manual).
- MATRIX - Specify an alternate scoring matrix for BLASTP, BLASTX, TBLASTN and TBLASTX.
- the default matrix is BLOSUM62 (Henikoff & Henikoff, 1992).
- the valid alternative choices include: PAM40, PAM120, PAM250 and IDENTITY.
- No alternate scoring matrices are available for BLASTN; specifying the MATRIX dkective in BLASTN requests returns an e ⁇ or response.
- FILTER - Mask off segments of the query sequence that have low compositional complexity, as determined by the SEG program of Wootton & Federhen (1993) Computers and Chemistry 17:149-163, or segments consisting of short-periodicity internal repeats, as determined by the XNU program of Claverie & States (1993) Computers and Chemistry 17:191-201, or, for BLASTN, by the DUST program of Tatusov and Lipman (see http://www .ncbi.nhn.nih.gov).
- FUtering can eliminate statisticaUy significant but biologically uninteresting reports from the blast output (e.g., hits against common acidic-, basic- or prolme-rich regions), leaving the more biologically interesting regions of the query sequence available for specific matching against database sequences.
- Low complexity sequence found by a filter program is substituted using the letter "N” in nucleotide sequence (e.g., "NNNNNNNNNNNNNNN”) and the letter "X” in protein sequences (e.g., "XXXXXXXXX”). Filtering is only applied to the query sequence (or its translation products), not to database sequences. Default filtering is DUST for BLASTN, SEG for other programs.
- NCBI-gi causes NCBI gi identifiers to be shown in the output, in addition to the accession and/or locus name.
- sequence comparisons are conducted using the simple BLAST search algorithm provided at http://www.ncbi.nlm.nm.gov BLAST.
- no gap penalties are used when determining sequence identity.
- a scaled similarity score matrix is generaUy used that assigns scores to each pakwise comparison based on chemical similarity or evolutionary distance.
- An example of such a matrix commonly used is the BLOSUM62 matrix - the default matrix for the BLAST suite of programs.
- GCG Wisconsin programs generally use either the public default values or a custom symbol comparison table if supplied (see user manual for further details). It is prefened to use the pub He default values for the GCG package, or in the case of other software, the default matrix, such as BLOSUM62.
- % homology preferably % sequence identity.
- the software typicaUy does this as part of the sequence comparison and generates a numerical result.
- Nucleotide sequences which are homologous to or variants of sequences of use in the present invention can be obtained in a number of ways, for example by probing DNA Hbraries made from a range of sources.
- other vkal/bacterial, or ceUular homologues particularly ceUular homologues found in mammahan ceUs e.g. rat, mouse, bovine and primate ceUs
- such homologues and fragments thereof in general wiU be capable of selectively hybridising to the sequences shown in the sequence Hsting herein.
- Such sequences may be obtained by probing cDNA Hbraries made from or genomic DNA Hbraries from other animal species, and probing such Hbraries with probes comprising aU or part of the reference nucleotide sequence under conditions of medium to high stringency. Similar considerations apply to obtaining species homologues and aUeHc variants of the amino acid and/or nucleotide sequences useful in the present invention.
- Variants and strain/species homologues may also be obtained using degenerate PCR which wiU use primers designed to target sequences within the variants and homologues encoding conserved amino acid sequences within the sequences of use in the present invention.
- conserved sequences can be predicted, for example, by aligning the amino acid sequences from several variants/homologues. Sequence ahgnments can be performed using computer software known in the art. For example the GCG Wisconsin PUeUp program is widely used.
- the primers used in degenerate PCR wiU contain one or more degenerate positions and wUl be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- Variants and strain/species homologues may also be obtained using degenerate PCR which wiU use primers designed to target sequences within the variants and homologues encoding conserved amino acid sequences within the sequences of use in the present invention.
- conserved sequences can be predicted, for example, by aligning the amino acid sequences from several variants/homologues. Sequence ahgnments can be performed using computer software known in the art. For example the GCG Wisconsin PfleUp program is widely used.
- the primers used in degenerate PCR wiU contain one or more degenerate positions and wiU be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- PCR technology as described e.g. in section 14 of Sambrook et al., 1989, requires the use of oligonucleotide probes that wUl hybridise to nucleic acid. Strategies for selection of oligonucleotides are described below.
- a probe is e.g. a single-stranded DNA or RNA that has a sequence of nucleotides that includes between 10 and 50, preferably between 15 and 30 and most preferably at least about 20 contiguous bases that are the same as (or the complement of) an equivalent or greater number of contiguous b ases.
- the nucleic acid sequences selected as probes should be of sufficient length and sufficiently unambiguous so that false positive results are minimised.
- the nucleotide sequences are usuaUy based on conserved or highly homologous nucleotide sequences or regions of polypeptides.
- the nucleic acids used as probes may be degenerate at one or more positions.
- Prefened regions from which to construct probes include 5' and/or 3' coding sequences, sequences predicted to encode ligand binding sites, and the like.
- nucleic acid probes of the invention are labelled with suitable label means for ready detection upon hybridisation.
- a suitable label means is a radiolabel.
- the prefened method of labelling a DNA fragment is by incorporating ⁇ 32 P dATP with the Klenow fragment of DNA polymerase in a random priming reaction, as is well known in the art.
- Oligonucleotides are usually end-labelled with ⁇ 3 P-labelled ATP and polynucleotide kinase.
- other methods e.g. non-radioactive
- may also be used to label the fragment or oHgonucleotide including e.g. enzyme labelling, fluorescent labelling with suitable fluorophores and biotinylation.
- prefened are such sequences, probes which hybridise under high-stringency conditions.
- nucleotide sequences may be obtained by site directed mutagenesis of characterised sequences. This may be useful where for example sUent codon changes are requked to sequences to optimise codon preferences for a particular host ceU in which the nucleotide sequences are being expressed. Other sequence changes may be desired in order to introduce restriction enzyme recognition sites, or to alter the activity of the polynucleotide or encoded polypeptide.
- variant in relation to the nucleotide sequence used in the present invention includes any substitution of, variation of, modification of, replacement of, deletion of or addition of one (or more) nucleic acid from or to the sequence providing the resultant nucleotide sequence codes for a target protein or protein for T cell signaUing modulation.
- sequence homology preferably there is at least 75%, more preferably at least 85%, more preferably at least 90% homology to the reference sequences. More preferably there is at least 95%, more preferably at least 98%, homology.
- Nucleotide homology comparisons may be conducted as described above.
- a preferred sequence comparison program is the GCG Wisconsin Bestfit program described above.
- the default scoring matrix has a match value of 10 for each identical nucleotide and -9 for each mismatch.
- the default gap creation penalty is -50 and the default gap extension penalty is - 3 for each nucleotide.
- the present invention also encompasses nucleotide sequences that are capable of hybridising selectively to the reference sequences, or any variant, fragment or derivative thereof, or to the complement of any of the above.
- Nucleotide sequences are preferably at least 15 nucleotides in length, more preferably at least 20, 30, 40 or 50 nucleotides in length.
- hybridization shall include “the process by which a strand of nucleic acid joins with a complementary strand through base pairing” as weU as the process of amplification as carried out in polymerase chain reaction (PCR) technologies.
- Nucleotide sequences useful in the invention capable of selectively hybridising to the nucleotide sequences presented herein, or to thek complement, wiU be generally at least 75%, preferably at least 85 or 90% and more preferably at least 95% or 98% homologous to the co ⁇ esponding nucleotide sequences presented herein over a region of at least 20, preferably at least 25 or 30, for instance at least 40, 60 or 100 or more contiguous nucleotides.
- Prefened nucleotide sequences of the invention wiU comprise regions homologous to the nucleotide sequence, preferably at least 80 or 90% and more preferably at least 95% homologous to the nucleotide sequence.
- the term "selectively hybridizable" means that the nucleotide sequence used as a probe is used under conditions where a target nucleotide sequence of the invention is found to hybridize to the probe at a level significantly above background.
- the background hybridization may occur because of other nucleotide sequences present, for example, in the cDNA or genomic DNA library being screened.
- background impHes a level of signal generated by interaction between the probe and a non-specific DNA member of the Hbrary which is less than 10 fold, preferably less than 100 fold as intense as the specific interaction observed with the target DNA.
- the intensity of interaction may be measured, for example, by l iolabeUing the probe, e.g. with 32 P.
- Hybridization conditions are based on the melting temperature (Tm) of the nucleic acid binding complex, as taught in Berger and Kim el (1987, Guide to Molecular Cloning Techniques, Methods in Enzymology, Vol 152, Academic Press, San Diego CA), and confer a defined "stringency” as explained below.
- Maximum stringency typicaUy occurs at about Tm-5°C (5°C below the Tm of the probe); high stringency at about 5°C to 10°C below Tm; intermediate stringency at about 10°C to 20°C below Tm; and low stringency at about 20°C to 25°C below Tm.
- a maximum stringency hybridization can be used to identify or detect identical nucleotide sequences while an intermediate (or low) stringency hybridization can be used to identify or detect similar or related polynucleotide sequences.
- both strands of the duplex either individuaUy or in combination, are encompassed by the present invention.
- the nucleotide sequence is single-stranded, it is to be understood that the complementary sequence of that nucleotide sequence is also included within the scope of the present invention.
- Stringency of hybridisation refers to conditions under which polynucleic acids hybrids are stable. Such conditions are evident to those of ordinary skiU in the field. As known to those of skUl in the art, the stability of hybrids is reflected in the melting temperature (Tm) of the hybrid which decreases approximately 1 to 1.5°C with every 1% decrease in sequence homology. In general, the stability of a hybrid is a function of sodium ion concentration and temperature. Typically, the hybridisation reaction is performed under conditions of higher stringency, followed by washes of varying stringency.
- high stringency preferably refers to conditions that permit hybridisation of only those nucleic acid sequences that form stable hybrids in 1 M Na+ at 65-68 °C.
- High stringency conditions can be provided, for example, by hybridisation in an aqueous solution containing 6x SSC, 5x Denhardt's, 1 % SDS (sodium dodecyl sulphate), 0.1 Na+ pyrophosphate and 0.1 mg/ml denatured salmon sperm DNA as non specific competitor.
- high stringency washing may be done in several steps, with a final wash (about 30 min) at the hybridisation temperature in 0.2 - O.lx SSC, 0.1 % SDS.
- Nucleotide sequences which are not 100% homologous to the sequences of the present invention but faU within the scope of the invention can be obtained in a number of ways. Other variants of the sequences described herein may be obtained for example by probing DNA Hbraries made from a range of sources. In addition, other vkal/bacterial, or ceUular homologues particularly ceUular homologues found in mam ahan ceUs (e.g. rat, mouse, bovine and primate cells), maybe obtained and such homologues and fragments thereof in general wiU be capable of selectively hybridising to the sequences shown in the sequence Hsting herein.
- mam ahan ceUs e.g. rat, mouse, bovine and primate cells
- Such sequences may be obtained by probing cDNA Hbraries made from or genomic DNA Hbraries from other animal species, and probing such Hbraries with probes comprising aU or part of the reference nucleotide sequence under conditions of medium to high stringency.
- SirnUar considerations apply to obtaining species homologues and aUehc variants of the amino acid and/or nucleotide sequences useful in the present invention.
- Variants and strain/species homologues may also be obtained using degenerate PCR which wiU use primers designed to target sequences within the variants and homologues encoding conserved amino acid sequences within the sequences of the present invention.
- conserved sequences can be predicted, for example, by ahgning the amino acid sequences from several variants homologues. Sequence ahgnments can be performed using computer software known in the art. For example the GCG Wisconsin PUeUp program is widely used.
- the primers used in degenerate PCR wUl contain one or more degenerate positions and wiU be used at stringency conditions lower than those used for cloning sequences with single sequence primers against known sequences.
- nucleotide sequences may be obtained by site directed mutagenesis of characterised sequences. This may be useful where for example sUent codon changes are requked to sequences to optimise codon preferences for a particular host ceU in which the nucleotide sequences are being expressed. Other sequence changes may be desired in order to introduce restriction enzyme recognition sites, or to alter the activity of the target protein or protein for T cell signalling modulation encoded by the nucleotide sequences.
- nucleotide sequences such as a DNA polynucleotides useful in the invention may be produced recombinantly, syntheticaUy, or by any means avaUable to those of skUl in the art. They may also be cloned by standard techniques.
- primers wUl be produced by synthetic means, involving a step wise manufacture of the desked nucleic acid sequence one nucleotide at a time. Techniques for accompHshing this using automated techniques are readUy avaUable in the art.
- telomere sequences wUl generaUy be produced using recombinant means, for example using a PCR (polymerase chain reaction) cloning techniques.
- This wiU involve making a pak of primers (e.g. of about 15 to 30 nucleotides) flanking a region of the targeting sequence which it is desked to clone, bringing the primers into contact with mRNA or cDNA obtained from an animal or human ceU, performing a polymerase chain reaction (PCR) under conditions which bring about amplification of the desked region, isolating the ampHfied fragment (e.g. by purifying the reaction mixture on an agarose gel) and recovering the amplified DNA.
- the primers may be designed to contain suitable restriction enzyme recognition sites so that the ampHfied DNA can be cloned into a suitable cloning vector
- the present invention also relates to vectors which comprise a polynucleotide useful in the present invention, host cells which are genetically engineered with vectors of the invention and the production of polypeptides useful in the present invention by such techniques.
- host cells can be geneticaUy engineered to incorporate expression systems or polynucleotides of the invention.
- Introduction of a polynucleotide into the host cell can be effected by methods described in many standard laboratory manuals, such as Davis et al and Sambrook et al, such as calcium phosphate transfection, DEAE-dextran mediated transfection, transfection, microinjection, cationic lipid- mediated transfection, electioporation, transduction, scrape loading, baUistic introduction and infection. It wiU be appreciated that such methods can be employed in vitro or in vivo as drag delivery systems.
- Representative examples of appropriate hosts include bacterial ceUs, such as streptococci, staphylococci, E.
- coli streptomyces and Bacillus subtilis cells
- fungal ceUs such as yeast ceUs and Aspergillus cells
- insect cells such as Drosophila S2 and Spodoptera Sf9 ceUs
- animal cells such as CHO, COS, NSO, HeLa, C127, 3T3, BHK, 293 and Bowes melanoma cells
- plant cells such as CHO, COS, NSO, HeLa, C127, 3T3, BHK, 293 and Bowes melanoma cells.
- vectors include, among others, chromosomal, episomal and virus-derived vectors, e.g., vectors derived from bacterial plasmids, frombacteriophage, from transposons, from yeast episomes, from insertion elements, from yeast chromosomal elements, from viruses such as baculo viruses, papova viruses, such as SV40, vaccinia viruses, adenovkuses, fowl pox viruses, pseudorabies viruses and retro viruses, and vectors derived from combinations thereof, such as those derived from plasmid and bacteriophage genetic elements, such as cosmids and phagemids.
- vectors include, among others, chromosomal, episomal and virus-derived vectors, e.g., vectors derived from bacterial plasmids, frombacteriophage, from transposons, from yeast episomes, from insertion elements, from yeast chromosomal elements, from viruses such as baculo viruses, papova viruses, such as
- the expression system constructs may contain control regions that regulate as well as engender expression.
- any system or vector suitable to maintain, propagate or express polynucleotides and/or to express a polypeptide in a host may be used for expression in this regard.
- the appropriate DNA sequence maybe inserted into the expression system by any of a variety of well-known and routine techniques, such as, for example, those set forth in Sambrook et al.
- secretion signals may be incorporated into the expressed polypeptide. These signals may be endogenous to the polypeptide or they may be heterologous signals.
- Proteins or polypeptides may be in the form of the "matare” protein or may be a part of a larger protein such as a fusion protein or precursor.
- an additional amino acid sequence which contains secretory or leader sequences or pro-sequences (such as a HIS ohgomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc) to aid in purification.
- secretory or leader sequences or pro-sequences such as a HIS ohgomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc
- such an additional sequence may sometimes be deskable to provide added stabiHty during recombinant production. In such cases the additional sequence may be cleaved (eg chemicaUy or enzymatically) to yield the final product.
- the additional sequence may also confer a deskable pharmacological profile (as in the case of IgFc fusion proteins) in which case it may be prefened that the additional sequence is not removed so that it is present in the final product as administered.
- Proteins or polypeptides may be in the form of the "matare” protein or may be a part of a larger protein such as a fusion protein or precursor.
- an additional amino acid sequence which contains secretory or leader sequences or pro-sequences (such as a HIS ohgomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc) to aid in purification.
- secretory or leader sequences or pro-sequences such as a HIS ohgomer, immunoglobulin Fc, glutathione S- transferase, FLAG etc
- such an additional sequence may sometimes be deskable to provide added stabiHty during recombinant production. In such cases the additional sequence may be cleaved (eg chemicaUy or enzymatically) to yield the final product.
- the additional sequence may also confer a deskable pharmacological profile (as in the case of IgFc fusion proteins) in which case it may be prefe ⁇ ed that the additional sequence is not removed so that it is present in the final product as administered.
- mammalian and microbial host ceUs comprising such vectors or other polynucleotides encoding the fusion proteins, and thek production and use.
- Active agents for use in the invention can be recovered and purified from recombinant ceU cultures by well-known methods including ammonium sulfate or ethanol precipitation, acid extraction, anion or cation exchange chromatography, phosphoceUulose chromatography, hydrophobic interaction chromatography, affinity chromatography, hydroxylapatite chromatography and lectin chromatography. Most preferably, high performance liquid chromatography is employed for purification.
- WeU known techniques for refolding protein may be employed to regenerate active conformation when the polypeptide is denatured during isolation and/or purification.
- Substances that may be used to modulate Notch signalling by inhibiting Notch ligand expression include nucleic acid sequences encoding polypeptides that affect the expression of genes encoding Notch ligands. For instance, for Delta expression, binding of extracellular BMPs (bone morphogenetic proteins, Wilson and Hemmati-Biivanlou; Hemmati-Biivanlou and Melton) to thek receptors leads to down-regulated Delta transcription due to the inhibition of the expression of transcription factors of the achaete/scute complex. This complex is beheved to be dkectly involved in the regulation of Delta expression.
- BMPs bone morphogenetic proteins, Wilson and Hemmati-Biivanlou; Hemmati-Biivanlou and Melton
- any polypeptide that upregulates BMP expression and/or stimulates the binding of BMPs to thek receptors may be capable of producing a decrease in the expression of Notch Hgands such as Delta and/or Senate.
- Notch Hgands such as Delta and/or Senate. Examples may include nucleic acids encoding BMPs themselves.
- any substance that inhibits expression of transcription factors of the achaete/scute complex may also downregulate Notch Hgand expression.
- BMPs belong to the transforming growth factor beta (TGF-beta) superfamUy, which includes, in addition to the TGF-betas, activms/inn ⁇ bins (e.g., alpha- inhibin), muUerian inhibiting substance, and gHal cell line-derived neurotrophic factor.
- TGF-beta transforming growth factor beta
- polypeptides that inhibit the expression of Delta and/or Senate include the Toll-like receptor (Medzhitov) or any other receptors linked to the innate immune system (for example CD14, complement receptors, scavenger receptors or defensin proteins), and other polypeptides that decrease or interfere with the production of Noggin (Valenzuela), Chordin (Sasai), FoUistatin (Iemura), Xnr3, and derivatives and variants thereof.
- Noggin and Chordin bind to BMPs thereby preventing activation of thek signaUing cascade which leads to decreased Delta transcription. Consequently, reducing Noggin and Chordin levels may lead to decreased Notch ligand, in particular Delta, expression.
- the Toll transmembrane receptor plays a central role in the signaUing pathways that control amongst other things the innate nonspecific immune response.
- This Toll-mediated immune response reflects an ancestral conserved signaUing system that has homologous components in a wide range of organisms.
- Human ToU homologues have been identified amongst the ToU-Hke receptor (TLR) genes and ToU/mterleukin-l receptor-like (TIL) genes and contain the characteristic ToU motifs: an extraceUular leucrne-rich repeat domain and a cytoplasmic mterle ⁇ kin-1 receptor-like region.
- TLR ToU-Hke receptor
- TIL ToU/mterleukin-l receptor-like
- the ToU-Hke receptor genes now include TLR4, TTL3, TTL4, and 4 other identified TLR genes.
- Notch ligand expression examples include those encoding immune costimulatory molecules (for example CD80, CD86, ICOS, SLAM) and other accessory molecules that are associated with immune potentiation (for example CD2, LFA-1).
- immune costimulatory molecules for example CD80, CD86, ICOS, SLAM
- accessory molecules that are associated with immune potentiation
- Suitable substances that may be used to downregulate Notch Hgand expression include nucleic acids that inhibit the effect of transforming growth factors such as members of the fibroblast growth factor (FGF) family.
- the FGF may be a mammalian basic FGF, acidic FGF or another member of the FGF famUy such as an FGF-1, FGF-2, FGF-3, FGF-4, FGF-5, FGF-6, FGF-7.
- the FGF is not acidic FGF (FGF-1; Zhao et al, 1995).
- the FGF is a member of the FGF family which acts by stimulating the upregulation of expression of a Senate polypeptide on APCs. It has been shown that members of the FGF family can upregulate Senate-1 gene expression in APCs. Inhibition of Notch signaUing by use of anti-sense constructs
- Suitable nucleic acid sequences may include anti-sense constructs, for example nucleic acid sequences encoding antisense Notch ligand constructs or antisense sequences conesponding to other components of the Notch signalling pathway as discussed above.
- the antisense nucleic acid may be an ohgonucleoti.de such as a synthetic single-stranded DNA.
- the antisense is an antisense RNA produced in the patient's own ceUs as a result of introduction of a genetic vector.
- the vector is responsible for production of antisense RNA of the desked specificity on introduction of the vector into a host cell.
- Antisense nucleic acids can be oligonucleotides that are double-stranded or single- stranded, RNA or DNA or a modification or derivative thereof, which can be directly administered to a cell, or which can be produced intracellularly by transcription of exogenous, introduced sequences.
- inhibitory antisense or double stranded oligonucleotides can additionaUy comprise at least one modified base moiety which is selected- from the group including but not limited to 5-fluorouracil, 5-bromouracil, 5- chlorouracil, 5-iodouracil, hypoxanthine, xanthine, 4-acetylcytosine, 5-(carboxyhydroxylmethyl) uracil, 5-carboxymethylaminomethyl-2-thiou ⁇ idine, 5-carboxymethylaminomethyluraci- 1, dihydrouracil, beta-D-galactosylqueosine, inosine, N6-isopentenyladenine, 1-methylguanine, 1-methylinosine, 2,2-dimethylguanine, 2- metnyladenine, 2-methylguanine, 3-methylcytosine, 5-methylcytosine, N6-adenine, 7- methylguanine, 5-methylaminomethylura
- the antisense oligonucleotide may if desked comprise at least one modified phosphate backbone such as, for example, a phosphorothioate, a phosphorodithioate, a phosphoramidothioate, a phosphoramidate, a phosphordiamidate, a methylphosphonate, an alkyl phosphotriester, or a formacetal or analog thereof.
- a modified polymeric backbone such as a modified polypeptide backbone may be used (eg protein nucleic acid: PNA).
- the antisense oligonucleotide may be an alpha-anomeric oligonucleotide.
- An alpha-anomeric oligonucleotide forms specific double-stranded hybrids with complementary RNA in which, contrary to the usual beta-units, the strands nm parallel to each other (Gautier et al., 1987, Nucl. Acids Res. 15:6625-6641).
- the oligonucleotide may for example be a 2'-0-methyiribonucleotide (Inoue et al., 1987, Nucl. Acids Res.
- RNA-DNA analogue a chimeric RNA-DNA analogue
- OHgonucleotides maybe synthesized by standard methods known in the art, e.g. by use of an automated DNA synthesizer (such as are commerciaUy avaUable from Biosearch, Applied Biosystems, etc.).
- phosphorothioate oligonucleotides canbe synthesized by the method of Stein et al. (1988, Nucl. Acids Res.
- methylphosphonate oligonucleotides can be prepared by use of controlled pore glass polymer supports (Sarin et al., 1988, Proc. Natl. Acad. Sci. U.S.A. 85:7448-7451), etc.
- the nucleic acid sequence for use in the present invention is capable of inhibiting Senate and Delta, preferably Senate 1 and Senate 2 as weU as Delta 1, Delta 3 and Delta 4 expression in APCs such as dendritic ceUs.
- the nucleic acid sequence may be capable of inhibiting Senate expression but not Delta expression, or Delta but not Senate expression in APCs or T cells.
- the nucleic acid sequence for use in the present invention is capable of inhibiting Delta expression in T ceUs such as CD4 + helper T cells or other ceUs of the immune system that express Delta (for example in response to stimulation of cell surface receptors).
- the nucleic acid sequence may be capable of inhibiting Delta expression but not Senate expression in T cells.
- the nucleic acid sequence is capable of inhibiting Notch Hgand expression in both T ceUs and APC, for example Senate expression in APCs and Delta expression in T ceUs.
- Prefened suitable substances that may be used to downregulate Notch Hgand expression include growth factors and cytokines. More preferably soluble protein growth factors may be used to inhibit Notch or Notch Hgand expression. For instance, Notch Hgand expression may be reduced or inhibited by the addition of BMPs or activins (a member of the TGF- ⁇ superfamily). In addition, T cells, APCs or tumour cells could be cultured in the presence of inflammatory type cytokines including IL-12, IFN- ⁇ , 1L-18, TNF-oc, either alone or in combination with BMPs.
- Molecules for inhibition of Notch signalling will also include polypeptides, or polynucleotides which encode therefore, capable of modkying Notch-protein expression or presentation on the cell membrane or signalling pathways.
- Molecules that reduce or interfere with its presentation as a fully functional ceU membrane protein may include MMP inhibitors such as hydroxymate-based inhibitors.
- Notch Hgand derivatives would preferably have the DSL domain at the N- ternunus and between 1 to 8, suitably from 2 to 5, EGF-like repeats on the extracellular surface.
- a peptide co ⁇ esponding to the Delta/Se ⁇ ate/LAG-2 domain of hJaggedl and supematants from COS cells expressing a soluble form of the extraceUular portion of hJaggedl was found to mimic the effect of Jaggedl in inhibiting Notchl (Li).
- a Notch Hgand derivative maybe a fusion protein, for example, a fusion protein comprising a segment of a Notch Hgand extraceUular domain and an immunoglobulin F 0 segment such as IgGF c or IgMF 0
- the modulator may comprise all or part of the extraceUular domain of a Notch receptor (eg Notchl, Notch2, Notch3, Notch4 or homologues thereof), which can bind to Notch Hgands and so reduce interactions with endogenous Notch receptors.
- a modulator may comprise at least the 11th and 12th domains of Notch (EGF11 and EGF12), as these are believed to be important for Notch ligand interaction.
- a rat Notch-1/Fc fusion protein is available from R& D Systems Inc (Minneapolis, USA and Abingdon, Oxon, UK: Catalog No 1057-TK). This comprises the 12 amino te ⁇ ninal EGF domains of rat Notch-1 (amino acid residues Met 1 to Glu 488) fused to the Fc region of human IgG (Pro 100 to Lys 330) via a polypeptide linker (TEGRMD).
- Notch signalling pathway antagonists include antibodies which inhibit interactions between components of the Notch signalling pathway, e.g. antibodies to Notch or Notch Hgands.
- antibody includes intact molecules as well as fragments thereof, such as Fab, Fab', F(ab') 2 , Fv and scFv which are capable of binding the epitopic determinant. These antibody fragments retain some ability to selectively bind with its antigen or receptor and include, for example:
- Fab fragment which contains a monovalent antigen-binding fragment of an antibody molecule can be produced by digestion of whole antibody with the enzyme papain to yield an intact Hght chain and a portion of one heavy chain;
- Fab' the fragment of an antibody molecule can be obtained by treating whole antibody with pepsin, followed by reduction, to yield an intact light chain and a portion of the heavy chain; two Fab' fragments are obtained per antibody molecule;
- (iii) (Fab') 2 the fragment of the antibody that can be obtained by treating whole antibody with pepsin without subsequent reduction;
- F(ab') 2 is a dimer of two Fab' fragments held together by two disulfide bonds;
- Fv defined as a genetically engineered fragment containing the variable genetically fused single chain molecule
- Antibodies maybe monoclonal or polyclonal but are preferably monoclonal.
- the binding affinity (equUibrium association constant (Ka)) may be at least about 10 6 M “1 , at least about 10 7 M “ ⁇ at least about 10 s M “1, or at least about 10 9 M “1 .
- the antibody, derivative or fragment binds to one or more DSL, EGF or N- terminal domains of a Notch ligand or to one or more EGF or Lin/Notch (L/N) domains of Notch (for example to EGF repeats 11 and 12 of Notch).
- the agent may be an antibody, derivative or fragment which binds to Notch.
- the agent may be an antibody, derivative or fragment which binds to Delta. Tn a further embodiment the agent may be an antibody, derivative or fragment which binds to Senate or Jagged.
- Suitable antibodies for use as blocking agents are obtained by immunizing a host animal with peptides comprising aU or a portion of Notch or a Notch Hgand such as Delta or Senate/Jagged.
- the peptide used may comprise the complete protein or a fragment or derivatives thereof.
- Prefened irnmunogens comprise all or a part of the extracellular domain of human Notch, Delta or Senate/Jagged, where these residues contain any post-translation modifications, such as glycosylation, found in the native proteins, unmunogens comprising the extraceUular domain may be produced by a number of techniques which are weU known in the ait such as expression of cloned genes using conventional recombinant methods and/or isolation from T cells or ceU populations expressing high levels of Notch or Notch Hgands.
- Monoclonal antibodies may be produced by means well known in the art. GeneraUy, the spleen and/or lymph nodes of an immunized host animal provide a source of plasma ceUs. The plasma cells are immortahzed by fusion with myeloma cells to produce hybridoma cells. Culture supernatant from individual hybridomas is screened using standard techniques to identify those producing antibodies with the desked specificity. The antibody may be purified from the hybridoma ceU supematants or ascites fluid by conventional techniques, such as affinity chromatography using Notch, Notch ligands or fragments thereof bound to an insoluble support, protein A sepharose, or the like.
- WO 0020576 discloses generation of antibodies against the human Notch-1 EGF-like repeats 11 and 12.
- WO 0020576 discloses a monoclonal antibody secreted by a hybridoma designated A6 having the ATCC Accession No.
- HB 12654 a monoclonal antibody secreted by a hybridoma designated CU having the ATCC Accession No. HB 12656 and a monoclonal antibody secreted by a hybridoma designated F3 having the ATCC Accession No. HB 12655.
- antibodies for use to treat human patients wUl be chimeric or humanised antibodies.
- Antibody "humanisation” techniques are well known in the art. These techniques typically involve the use of recombinant DNA technology to manipulate DNA sequences encoding the polypeptide chains of the antibody molecule.
- WO 86/01533 discloses a process for preparing an antibody molecule having the variable domains from a mouse MAb and the constant domains from a human immunoglobulin.
- CDRs complementarity determining regions
- a mouse MAb is grafted onto the framework regions of the variable domains of a human immunoglobulin by site dkected mutagenesis using long oligonucleotides.
- Such CDR-grafted humanised antibodies are much less likely to give rise to an anti-antibody response than humanised chimeric antibodies in view of the much lower proportion of non-human amino acid sequence which they contain.
- the first criterion is to use as the human acceptor the framework from a particular human immunoglobulin that is unusuaUy homologous to the non-human donor immunoglobulin to be humanised, or to use a consensus framework from many human antibodies.
- the second criterion is to use the donor amino acid rather than the acceptor if the human acceptor residue is unusual and the donor residue is typical for human sequences at a specific residue of the framework.
- the thkd criterion is to use the donor framework amino acid residue rather than the acceptor at positions immediately adjacent to the CDRs.
- the fourth criterion is to use the donor amino acid residue at framework positions at which the amino acid is predicted to have a side chain atom within about 3 A of the CDRs in a three-dimensional immunoglobuHn model and to be capable of interacting with the antigen or with the CDRs of the humanised immunoglobuHn. It is proposed that criteria two, three or four may be applied in addition or alternatively to criterion one, and may be appHed singly or in any combination.
- isotype wiU be guided by the desked effector functions, such as complement fixation, or activity in antibody-dependent cellular cytotoxicity.
- Suitable isotypes include IgG 1, IgG3 and IgG4.
- IgG 1 IgG3
- IgG4 IgG4
- either of the human light chain constant regions, kappa or lambda may be used.
- ChemicaUy coupled sequences can be prepared (where requked) from individual proteins sequences and coupled using known chemicaUy coupling techniques.
- the conjugate can be assembled using conventional solution- or sohd-phase peptide synthesis methods, affording a fully protected precursor with only the te ⁇ ninal amino group in deprotected reactive form.
- This function can then be reacted dkectly with a protein for T ceU signaUing modulation or a suitable reactive derivative thereof.
- this amino group may be converted into a different functional group suitable for reaction with a cargo moiety or a linker.
- a protein for T cell signaUing modulation or a derivative thereof may be attached through e.g. amide, ester, or disulphide bond formation.
- Cross-linking reagents which can be utilized are discussed, for example, in Neans, G.E. and Feeney, R.E., Chemical Modification of Proteins, Holden-Day, 1974, pp. 39-43.
- Dkect linkage may occur through any convenient functional group on the protein for T ceU signaUing modulation such as a hydroxy, carboxy or amino group. Indirect linkage which is preferable, will occur through a linking moiety.
- Suitable linking moieties include bi- and multifunctional alkyl, aryl, aralkyl or peptidic moieties, alkyl, aryl or aralkyl aldehydes acids esters and anyhdrides, sulphydryl or carboxyl groups, such as maleimido benzoic acid derivatives, maleimido proprionic acid derivatives and succinknido derivatives or may be derived from cyanuric bromide or chloride, carbonyldiknidazole, succinimidyl esters or sulphonic haHdes and the like.
- the functional groups on the linker moiety used to form covalent bonds between linker and protein for T cell signalling modulation on the one hand, as well as linker and target protein on the other hand, may be two or more of, e.g., amino, hydrazino, hydroxyl, thiol, maleimido, carbonyl, and carboxyl groups, etc.
- the linker moiety may include a short sequence of from 1 to 4 amino acid residues that optionaUy includes a cysteine residue through which the linker moiety bonds to the target protein. Notch ligand domains
- natarally occurring Notch ligands typically comprise a number of distinctive domains.
- Some predicted/potential domain locations for various natarally occurring human Notch ligands are shown below:
- a typical DSL domain may include most or all of the following consensus amino acid sequence:
- DSL domain may include most or all of the following consensus amino acid sequence:
- ARO is an aromatic amino acid residue, such as tyrosine, phenylalanine, tryptophan or histidine;
- NOP is a non-polar amino acid residue such as glycine, alanine, proline, leucine, isoleucine or valine;
- BAS is a basic amino acid residue such as arginine or lysine.
- ACM is an acid or amide amino acid residue such as aspartic acid, glutamic acid, asparagine or glutamine.
- DSL domain may include most or all of the following consensus amino acid sequence:
- Xaa may be any amino acid and Asx is either aspartic acid or asparagine).
- the DSL domain used may be derived from any suitable species, including for example Drosophila, Xenopus, rat, mouse or human.
- the DSL domain is derived from a vertebrate, preferably a mammahan, preferably a human Notch Hgand sequence.
- DSL domain includes sequence variants, fragments, derivatives and mimetics having activity co ⁇ esponding to nataraUy occurring domains.
- a DSL domain for use in the present invention may have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Jagged 1.
- a DSL domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Jagged 2.
- a DSL domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% a ino acid sequence identity to the DSL domain of human Delta 1.
- a DSL domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Delta 3.
- a DSL domain for use in the present mvention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to the DSL domain of human Delta 4.
- EGF-like motif has been found in a variety of proteins, as weU as EGF and Notch and Notch Hgands, including those involved in the blood clotting cascade (Furie and Furie, 1988, Cell 53: 505-518).
- this motif has been found in extraceUular proteins such as the blood clotting factors IX and X (Rees et al, 1988, EMBO J. 7:2053- 2061; Furie and Furie, 1988, CeU 53: 505-518), in other Drosophila genes (Knust et al., 1987 EMBO J.
- ceU- surface receptor proteins such as thrombomoduHn (Suzuki et al., 1987, EMBO J. 6:1891- 1897) and LDL receptor (Sudhof et al., 1985, Science 228:815-822).
- a protein binding site has been mapped to the EGF repeat domain in thrombomoduHn and urokinase (Kurosawa et al., 1988, J. Biol. Chem 263:5993-5996; AppeUa et al., 1987, J. Biol. Chem.262:4437-4440).
- EGF domain may include six cysteine residues which have been shown (in EGF) to be involved in disulfide bonds.
- the main structure is proposed, but not necessarily requked, to be a two-stranded beta-sheet followed by a loop to a C-terminal short two-stranded sheet.
- Subdomains between the conserved cysteines strongly vary in length as shown in the foUowing schematic representation of a typical EGF-like domain:
- the region between the 5th and 6th cysteines contains two conserved glycines of which at least one is normally present inmost EGF-like domains.
- the EGF-like domain used may be derived from any suitable species, including for example DrosophUa, Xenopus, rat, mouse or human.
- the EGF-like domain is derived from a vertebrate, preferably a mammalian, preferably a human Notch ligand sequence.
- an EGF-like domain for use in the present invention may have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Jagged 1.
- an EGF-like domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Jagged 2.
- an EGF-like domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Delta 1.
- an EGF-like domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Delta 3.
- an EGF-like domain for use in the present invention may, for example, have at least 30%, preferably at least 50%, preferably at least 60%, preferably at least 70%, preferably at least 80%, preferably at least 90%, preferably at least 95% amino acid sequence identity to an EGF-like domain of human Delta 4.
- any particular amino acid sequence is at least X% identical to another sequence can be determined conventionaUy using known computer programs.
- the best overaU match between a query sequence and a subject sequence also refened to as a global sequence alignment, can be dete ⁇ nined using a program such as the FASTDB computer program based on the algorithm of Brutlag et al. (Comp. App. Biosci. (1990) 6:237-245).
- the query and subject sequences are either both nucleotide sequences or both amino acid sequences.
- the result of the global sequence ahgnment is given as percent identity.
- Notch ligand N-te ⁇ ninal domain means the part of a Notch ligand sequence from the N-te ⁇ ninus to the start of the DSL domain. It wUl be appreciated that this term includes sequence variants, fragments, derivatives and mimetics having activity co ⁇ esponding to natarally occurring domains.
- heterologous amino acid sequence or “heterologous nucleotide sequence” as used herein means a sequence which is not found in the native sequence (eg in the case of a Notch ligand sequence is not found in the native Notch ligand sequence) or its coding sequence.
- any such heterologous amino acid sequence is not a TSST sequence, and preferably it is not a superantigen sequence.
- Whether a substance can be used for activating Notch may be determined using suitable screening assays, for example, as described in our co-pending International Patent Application claiming priority from GB 0118153.6, and the examples herein.
- Whether a substance can be used for modulating Notch signalling may be determined using suitable screening assays (see for example, the Examples herein)
- Notch signalling can be monitored either through protein assays or through nucleic acid assays. Activation of the Notch receptor leads to the proteolytic cleavage of its cytoplasmic domain and the translocation thereof into the cell nucleus.
- the "detectable signal" refened to herein may be any detectable manifestation attributable to the presence of the cleaved intraceUular domain of Notch. Thus, increased Notch signalling can be assessed at the protein level by measuring intracellular concentrations of the cleaved Notch domain.
- Activation of the Notch receptor also catalyses a series of downstream reactions leading to changes in the levels of expression of certain weU defined genes.
- the assay is a protein assay.
- the assay is a nucleic acid assay.
- nucleic acid assay The advantage of using a nucleic acid assay is that they are sensitive and that smaU samples can be analysed.
- the intraceUular concentration of a particular mRNA reflects the level of expression of the corresponding gene at that time.
- levels of mRNA of downstream target genes of the Notch signaUing pathway can be measured in an indirect assay of the T-cells of the immune system.
- an increase in levels of Deltex, Hes-1 and/or JL-10 mRNA may, for instance, indicate induced anergy while an increase in levels of DU-1 or IFN- ⁇ mRNA, or in the levels of mRNA encoding cytokines such as JL-2, JL-5 and IL-13, may indicate improved responsiveness.
- nucleic acid assays are known. Any convention technique which is known or which is subsequently disclosed may be employed. Examples of suitable nucleic acid assay are mentioned below and include amplification, PCR, RT-PCR, RNase protection, blotting, spectrometry, reporter gene assays, gene chip a ⁇ ays and other hybridization methods.
- gene presence, amplification and/or expression may be measured in a sample dkectly, for example, by conventional Southern blotting, Northern blotting to quantitate the transcription of mRNA, dot blotting (DNA or RNA analysis), or in situ hybridisation, using an appropriately labelled probe.
- PCR was originally developed as a means of amplifying DNA from an impure sample. The technique is based on a temperatare cycle which repeatedly heats and cools the reaction solution allowing primers to anneal to target sequences and extension of those primers for the formation of duphcate daughter strands.
- RT-PCR uses an RNA template for generation of a first strand cDNA with a reverse transcriptase.
- the cDNA is then ampHfied according to standard PCR protocol. Repeated cycles of synthesis and denataration result in an exponential increase in the number of copies of the target DNA produced. However, as reaction components become Hmiting, the rate of ampHfication decreases until a plateau is reached and there is Httle or no net increase in PCR product. The higher the starting copy number of the nucleic acid target, the sooner this "end-point" is reached.
- Primers can be designed using standard procedures in the art, for example the TaqmanTM technique.
- Real-time PCR uses probes labeled with a fluorescent tag and differs from end-point PCR for quantitative assays in that it is used to detect PCR products as they accumulate rather than for the measurement of product accumulation after a fixed number of cycles.
- the reactions are characterized by the point in time during cycling when ampHfication of a target sequence is first detected through a significant increase in fluorescence.
- An advantage of real-time PCR is its accuracy in determining the amounts if target sequences in a sample. Suitable protocols are described, for example, in Meuer S. et al (2000).
- the ribonuclease protection (RNase protection) assay is an extremely sensitive technique for the quantitation of specific RNAs in solution .
- the ribonuclease protection assay can be performed on total cellular RNA or ⁇ oly(A)-selected mRNA as a target.
- the sensitivity of the ribonuclease protection assay derives from the use of a complementary in vitro transcript probe which is radiolabeled to high specific activity.
- the probe and target RNA are hybridized in solution, after which the mixture is diluted and treated with ribonuclease (RNase) to degrade all remaining single-stranded RNA.
- RNase ribonuclease
- the hybridized portion of the probe wiU be protected from digestion and can be visualized via electrophoresis of the mixture on a denaturing polyacrylamide gel followed by autoradiography. Since the protected fragments are analyzed by high resolution polyacrylamide gel electrophoresis, the ribonuclease protection assay can be employed to accurately map mRNA featares. If the probe is hybridized at a molar excess with respect to the target RNA, then the resulting signal wiU be dkectly proportional to the amount of complementary RNA in the sample.
- Gene expression may also be detected using a reporter system.
- a reporter system may comprise a readily identifiable marker under the control of an expression system, e.g. of the gene being monitored.
- Fluorescent markers which can be detected and sorted by FACS, are prefe ⁇ ed. Especially prefened are GFP and luciferase.
- Another type of prefe ⁇ ed reporter is cell surface markers, i.e. proteins expressed on the cell surface and therefore easUy identifiable.
- reporter constructs useful for detecting Notch signalling by expression of a reporter gene may be constructed according to the general teaching of Sambrook et al (1989).
- constructs according to the invention comprise a promoter by the gene of interest, and a coding sequence encoding the desked reporter constructs, for example of GFP or luciferase.
- Vectors encoding GFP and luciferase are known in the art and avaUable commercially.
- ceUs may be sorted by flow cytometry or FACS.
- flow cytometry FACS
- FACS Fluorescence Activated Cell Sorting
- FACS Fluorescence Activated CeU Sorting
- PMT PhotomultipHer tubes
- FACS can be used to measure gene expression in cells transfected with recombinant DNA encoding polypeptides. This can be achieved dkectly, by labelling of the protein product, or indkectly by using a reporter gene in the construct.
- reporter genes are ⁇ -galactosidase and Green Fluorescent Protein (GFP).
- ⁇ -galactosidase activity can be detected by FACS using fluorogenic substrates such as fluorescein digalactoside (FDG).
- FDG fluorescein digalactoside
- FDG fluorescein digalactoside
- CeUs expressing GFP constructs wUl fluoresce without the addition of a substrate. Mutants of GFP are available which have different excitation frequencies, but which emit fluorescence in the same channel. In a two-laser FACS machine, it is possible to distinguish cells which are excited by the different lasers and therefore assay two transfections at the same time.
- the invention comprises the use of nucleic acid probes complementary to mRNA.
- Such probes can be used to identify cells expressing mRNA for polypeptides individuaUy, such that they may subsequently be sorted either manually, or using FACS sorting.
- Nucleic acid probes complementary to mRNA may be prepared according to the teaching set forth above, using the general procedures as described by Sambrook et al (1989).
- the invention comprises the use of an antisense nucleic acid molecule, complementary to a mRNA, conjugated to a fluorophore which may be used in FACS ceU sorting.
- the advantage of using a protein assay is that Notch activation can be dkectly measured.
- Assay techniques that can be used to determine levels of a polypeptide are well known to those skiUed in the art. Such assay methods include radioknmunoassays, competitive- binding assays, Western Blot analysis, antibody sandwich assays, antibody detection, FACS and ELISA assays.
- the modulator of Notch signalling may also be an immune ceU which has been treated to modulate expression or interaction of Notch, a Notch ligand or the Notch signalling pathway.
- ceUs may readily be prepared, for example, as described in WO 00/36089 in the name of Lorantis Ltd, the text of which is herein incorporated by reference.
- active agents are administered in combination with a pharmaceuticaUy acceptable diluent, carrier, or excipient (ie as a pharmaceutical composition).
- a pharmaceutical composition may be for human or animal usage in human and veterinary medicine.
- Acceptable carriers or diluents for therapeutic use are weU known in the pharmaceutical art, and are described, for example, in Remington's Pharmaceutical Sciences, Mack Pubhshing Co. (A. R. Gennaro edit. 1985).
- the choice of pharmaceutical carrier, excipient or dUuent can be selected with regard to the intended route of administration and standard pharmaceutical practice.
- the pharmaceutical compositions may comprise as - or in addition to - the carrier, excipient or diluent any suitable binder(s), lubricant(s), suspending agent(s), coating agent(s), solubilising agent(s).
- Preservatives, stabUizers, dyes and even flavoring agents may also be provided in the pharmaceutical composition as appropriate.
- preservatives examples include sodium benzoate, sorbic acid and esters of p-hydroxybenzoic acid.
- Antioxidants and suspending agents maybe also used.
- active agents may be administered orally in the form of tablets containing excipients such as starch or lactose, or in capsules or ovules either alone or in admixture with excipients, or in the form of elixks, solutions or suspensions containing flavouring or colouring agents.
- active agents may be administered by inhalation, intranasaUy or in the form of aerosol, or in the form of a suppository or pessary, or they may be applied topicaUy in the form of a lotion, solution, cream, ointment or dusting powder.
- transdermal administration is by use of a skin patch.
- they can be incorporated into a cream consisting of an aqueous emulsion of polyethylene glycols or Hquid paraffin. They can also be incorporated, at a concentration of between 1 and 10% by weight, into an ointment consisting of a white wax or white soft paraffin base together with such stabuisers and preservatives as may be requked.
- Active agents such as polynucleotides and proteins/polypeptides may also be administered by vkal or non-vkal techniques.
- Vkal dehvery mechanisms include but are not limited to adenovkal vectors, adeno-associated vkal (AAV) vectors, herpes vkal vectors, retrovkal vectors, lentivkal vectors, and baculovkal vectors.
- Non-vkal delivery mechanisms include lipid mediated transfection, liposomes, immunoHpo somes, Hpoiectin, cationic facial amphiphiles (CFAs) and combinations thereof.
- the routes for such deHvery mechanisms include but are not limited to mucosal, nasal, oral, parenteral, gastrointestinal, topical, or sublingual routes.
- Active agents may be adminstered by conventional DNA deHvery techniques, such as DNA vaccination etc., or injected or otherwise delivered with needleless systems, such as ballistic delivery on particles coated with the DNA for delivery to the epidermis or other sites
- the physician wUl determine the actual dosage which will be most suitable for an individual patient and it wiU vary with the age, weight and response of the particular patient.
- the above dosages are exemplary of the average case. There can, of course, be 101
- treatment or therapy as used herein should be taken to encompass diagnostic and prophylatic appHcations.
- the treatment of the present invention includes both human and veterinary applications.
- Active agents may also be administered by any suitable means including, but not Hmited to, traditional syringes, needleless injection devices, or "microprojectUe bombardment gene guns".
- active agents such as polynucleotides may be introduced by various means into ceUs that are removed from an individual. Such means include, for example, ex vivo transfection, electioporation, nucleoporation, rnicroinjection and microprojectUe bombardment. After an agent has been taken up by the cells, they may be reimplanted into an individual. It is also contemplated that otherwise non-knmunogenic ceUs that have gene constructs incorporated therein can be implanted into an individual even if the vaccinated ceUs were originally taken from another individual.
- the active agent may be administered to an individual using a needleless injection device.
- an active agent may be administered to an individual intradermally, subcutaneously and/or intramuscularly using a needleless injection device , or similarly dehvered to mucosal tissues of, for example, the respkatory, gastrointestinal or urinogenital tracts.
- Needleless injection devices are well known and widely available. Needleless injection devices are - 102 -
- a needleless injection device may be used to propel a liquid that contains DNA molecules toward the surface of the individual's skin.
- the liquid is propeUed at a sufficient velocity such that upon impact with the skin the liquid penetrates the surface of the skin and permeates the skin and/or muscle tissue beneath.
- the genetic material is simultaneously or selectively administered intradermally, subcutaneously and intramuscularly.
- a needleless injection device may be used to deliver genetic material to tissue of other organs in order to introduce a nucleic acid molecule to ceUs of that organ.
- the pharmaceutical preparations according to the present invention are provided sterile and pyrogen free.
- a physician wUl determine the actaal dosage which wiU be most suitable for an individual subject and it wiU vary with the age, weight and response of the particular patient.
- the dosages below are exemplary of the average case. There can, of course, be individual instances where higher or lower dosage ranges are merited.
- the therapeutic agents used in the present invention may be administered dkectly to patients in vivo.
- the agents may be administered to immune ceUs such as T cells and/or APCs in an ex vivo manner.
- leukocytes such as T cells or APCs may be obtained from a patient or donor in known manner, treated/incubated ex vivo in the manner of the present invention, and then administered to a patient.
- a therapeuticaUy effective daUy dose of the conjugate of the active agent according to the invention may for example range from 0.01 to 50 mg/kg body weight of the subject to be treated, preferably 0.1 to 20 mg/kg.
- compositions are in unit dosage form.
- the present invention includes both human and veterinary appHcations.
- the modulator of the Notch signalling pathway and the pathogen antigen, antigenic dete ⁇ ninant or the polynucleotide coding for the pathogen antigen or antigenic determinant are administered at substantially the same time, and preferably together in the same formulation.
- the modulator of the Notch signaUing pathway and the pathogen antigen, antigenic determinant or the polynucleotide coding for the pathogen antigen or antigenic determinant are administered closely in time, e.g., the the pathogen antigen, antigenic determinant or the polynucleotide coding for the pathogen antigen or antigenic determinant is administered within from about one minute to within about one day before or after the modulator of the Notch signalling pathway is administered. Any contemporaneous time is useful.
- the modulator of the Notch signalling pathway and the pathogen antigen, antigenic detenriinant or the polynucleotide coding for the pathogen antigen or antigenic determinant wUl be administered within about one minute to within about eight hours, and preferably within less than about one to about four hours.
- the modulator of the Notch signaUing pathway and the pathogen antigen, antigenic determinant, or the polynucleotide coding for the pathogen antigen or antigenic determinant are preferably administered at the same site on the animal.
- the term "same site" includes the exact location, but can be - 104 -
- the term "separately" as used herein means that the modulator of the Notch signalling pathway and the pathogen antigen, antigenic determinant or the polynucleotide coding for the pathogen antigen or antigenic determinant are administered at an interval, for example at an interval of about a day to several weeks or months.
- the active agents may be administered in either order.
- the modulator of the Notch signalling pathway may be administered more frequently than the pathogen antigen, antigenic deteiminant or the polynucleotide coding for the pathogen antigen or antigenic determinant or vice versa.
- the term “sequentially” as used herein means that the modulator of the Notch signalling pathway and the pathogen antigen, antigenic determinant or the polynucleotide coding for the pathogen antigen or antigenic determinant are administered in sequence, for example at an interval or intervals of minutes, hours, days or weeks. If appropriate the active agents may be administered in a regular repeating cycle.
- Vaccine compositions and preparations made in accordance with the present invention may be used to protect or treat a mammal susceptible to, or suffering from disease, by means of administering said vaccine via a mucosal route, such as the oral/bucal/intestinal/vaginal/rectal or nasal route.
- a mucosal route such as the oral/bucal/intestinal/vaginal/rectal or nasal route.
- Such administration may be in a droplet, spray, or dry powdered form.
- Nebulised or aerosohsed vaccine formulations may also be used where appropriate.
- Enteric formulations such as gastro resistant capsules and granules for oral administration, suppositories for rectal or vaginal administration may also be used.
- the present invention may also be used to enhance the immunogenicity of antigens appHed to 105 -
- the skin for example by intradermal, transdermal or transcutaneous deHvery.
- the adjuvants of the present invention may be parentaUy delivered, for example by intramuscular or subcutaneous administration.
- a variety of administration devices may be used.
- a spray device such as the commercially avaUable Accuspray (Becton Dickinson) may be used.
- Prefened spray devices for intranasal use are devices for which the performance of the device is not dependent upon the pressure appHed by the user. These devices are known as pressure threshold devices. Liquid is released from the nozzle only when a threshold pressure is attained. These devices make it easier to achieve a spray with a regular droplet size. Pressure threshold devices suitable for use with the present invention are known in the art and are described for example in WO 91/13281 and EP 311 863 B. Such devices are commercially avaUable from Pfeiffer GmbH.
- the adjuvant formulations of the present invention may also comprise abUe acid or derivative of cholic acid.
- the derivative of cholic acid is a salt thereof, for example a sodium salt thereof.
- bile acids examples include cholic acid itself, deoxychohc acid, chenodeoxy colic acid, Hthocholic acid, taurodeoxycholate ursodeoxychohc acid, hyodeoxycholic acid and derivatives like glyco-, tauro-, amidopro ⁇ yl-1- propanesulfonic- and amido ⁇ ropyl-2 -hydroxy- 1 -pro anesulfonic- derivatives of the above bile acids, orN, N-bis (3DGluconoamidopropyl) deoxycholamide.
- the adjuvant formulation of the present invention may be in the form of an aqueous solution or a suspension of non- vesicular forms.
- Such formulations are convenient to manufacture, and also to sterilise (for example by terminal filtration through a 450 or 220 nm pore membrane).
- the route of administration to said host is via the skin, intramuscular or via a mucosal surface such as the nasal mucosa.
- the admixture may for example be administered as a spray.
- the methods to enhance an immune response may be either a priming or boosting dose of the vaccine.
- adjuvant includes an agent having the abUity to enhance the immune response of a vertebrate subject's immune system to an antigen or antigenic dete ⁇ ninant.
- Immune response includes any response to an antigen or antigenic dete ⁇ ninant by the immune system of a subject.
- Immune responses include for example humoral immune responses (e. g. production of antigen-specific antibodies) and cell- mediated immune responses (e. g. lymphocyte prohferation).
- ceU-mediated immune response includes the immunological defence provided by lymphocytes, such as the defence provided by T cell lymphocytes when they come into close proximity with thek victim cells.
- Lymphocyte prohferation When “lymphocyte prohferation” is measured, the abUity of lymphocytes to prohferate in response to specific antigen may be measured. Lymphocyte prohferation includes B ceU, T-helper cell or CTL ceU proliferation.
- compositions of the present invention may be used to formulate vaccines containing antigens derived from a wide variety of sources.
- antigens may include human, b cterial, or vkal nucleic acid, pathogen derived antigen or antigenic preparations, host-derived antigens, including GhRH and IgE peptides, recombinantly produced protem or peptides, and chimeric fusion proteins.
- the vaccine formulations of the present invention contain an antigen or 107 -
- the antigen or antigens may, for example, be pep tides/proteins, polysaccharides and lipids and may be derived from pathogens such as viruses, bacteria and parasites/fungi as follows:
- Vkal antigens or antigenic determinants may be derived, for example, from:
- Cytomegalo virus especiaUy Human, such as gB or derivatives thereof); Epstein Ban virus (such as gp350); flaviviruses (e. g. Yellow Fever Virus, Dengue Vkus, Tick-bome encephalitis virus, Japanese Encephalitis Vkus); hepatitis vkus such as hepatitis B virus (for example Hepatitis B Surface antigen such as the PreSl, PreS2 and S antigens described in EP-A-414 374; EP-A-0304 578, and EP-A-198474), hepatitis A virus, hepatitis C virus and hepatitis E virus; HIN-1, (such as tat, nef, gpl20 or gpl60); human herpes viruses, such as gD or derivatives thereof or Immediate Early protein such as ICP27 from HSN1 or HSN2; human papffloma viruses (for example HPN6,
- Bacterial antigens or antigenic determinants may be derived, for example, from: 108 -
- BacUlus spp. including B. anthracis (eg botalinum toxin); Bordetella spp, including B. pertussis (for example pertactin, pertussis toxin, filamenteous hemagglutinin, adenylate cyclase, fimbriae); BoneHa spp., including B. burgdorferi (eg OspA, OspC, DbpA, DbpB), B. garinu (eg OspA, OspC, DbpA, DbpB), B. afzehi (eg OspA, OspC, DbpA, DbpB), B.
- B. anthracis eg botalinum toxin
- Bordetella spp including B. pertussis (for example pertactin, pertussis toxin, filamenteous hemagglutinin, adenylate cyclase
- HaemophUus spp. including H. influenzae type B (eg PRP), non-typable H. influenzae, for example OMP26, high molecular weight adhesins, P5, P6, protein D and lipoprotein D, and fimbrin and i nbrin derived peptides (see for example US 5,843,464); Helicobacter spp, including H. pylori (for example urease, catalase, vacuolating toxin); Pseudomonas spp, including P. aeruginosa; Legionella spp, including L.
- H. influenzae type B eg PRP
- non-typable H. influenzae for example OMP26
- high molecular weight adhesins for example OMP26
- high molecular weight adhesins P5, P6, protein D and lipoprotein D
- fimbrin and i nbrin derived peptides see for example US 5,843,464
- pneumophUa pneumophUa ; Leptospka spp., including L. inte ⁇ ogans; Listeria spp., including L. monocytogenes; MoraxeUa spp, including M cata ⁇ hahs, also known as Branhamella catanhalis (for example high and low molecular weight adhesins and invasins); Morexella Cata ⁇ hahs (including outer membrane vesicles thereof, and OMP106 (see for example W097/41731)); Mycobacterium spp., including M. tuberculosis (for example ESAT6, Antigen 85 A, -B or -C), M. bovis, M. leprae, M. avium, M.
- ESAT6 Antigen 85 A, -B or -C for example ESAT6, Antigen 85 A, -B or -C
- M. bovis M. leprae
- M. avium M.
- Neisseria spp including N. gononhea and N. meningitidis (for example capsular polysaccharides and conjugates thereof, transferrin- binding proteins, lactoferrin binding proteins, PilC, adhesins); Neisseria mengitidis B (including outer membrane vesicles thereof, and NspA ( see for example WO 96/29412); 109
- Salmonella spp including S. typhi, S. paratyphi, S. choleraesuis, S. enteritidis; Shigella spp, including S. sonnei, S. dysenteriae, S. flexnerii; Staphylococcus spp., including S. aureus, S. epidermidis; Streptococcus spp, including S.
- pneumonie eg capsular polysaccharides and conjugates thereof, PsaA, PspA, streptolysin, choline-binding proteins
- PsaA capsular polysaccharides and conjugates thereof, PsaA, PspA, streptolysin, choline-binding proteins
- Pneumolysin Biochem Biophys Acta, 1989,67,1007; Rubins et al., Microbial Pathogenesis, 25,337-342
- mutant detoxified derivatives thereof see for example WO 90/06951 ; WO 99/03884
- Treponema spp. including T. pallidum (eg the outer membrane proteins), T. denticola, T. hyodysenteriae
- Vibrio spp including V. cholera (for example cholera toxin)
- Yersinia spp including Y. enterocolitica (for example a Yop protein), Y. pestis,
- Parasitic/fungal antigens or antigenic determinants may be derived, for example, from:
- Babesia spp. including B. microti; Candida spp., including C. albicans; Cryptococcus spp., including C. neoformans; Entamoeba spp., including E. histolytica; Giardia spp., including ;G. lambha; Leshmania spp., including L. major; Plasmodium.
- Approved/Hcensed vaccines include, for example anthrax vaccines such as Biothrax (BioPort Corp); tuberculosis (BCG) vaccines such as TICE BCG (Organon Teknika Corp) and My cob ax (Aventis Pasteur, Ltd); diphtheria & tetanus toxoid and aceUular pertussis (DTP) vaccines such as Tripedia (Aventis Pasteur, Inc), fnfanrix (GlaxoSmithKline), and DAPTACEL (Aventis Pasteur, Ltd); Haemophilus b conjugate vaccines (eg diphtheria CRM197 protein conjugates such as HibTITER from Lederle Lab 110 -
- Hepatitis A vaccines such as Havrix (Glaxo SmithKHne) and VAQTA (Merck & Co, Inc); combined Hepatitis A and Hepatitis B (recombinant) vaccines such as Twinrix (GlaxoSmithKline); recombinant Hepatitis B vaccines such as Recombivax HB (Merck & Co, Inc) and Engerix-B (GlaxoSmithKline); influenza virus vaccines such as Fluvirin (Evans Vaccine), FluShield (Wyeth Laboratories, Inc) and Fluzone (Aventis Pasteur, Inc); Japanese Encephahtis virus vaccme such as JE-Vax (Research Foundation for Microbial Diseases of Osaka
- antigens and antigenic determinants may be used in many different forms.
- antigens or antigenic determinants may be present as isolated proteins or peptides (for example in so-caUed "subunit vaccines") or, for example, as ceU-associated or virus-associated antigens or antigenic determinants (for example in either live or kUled pathogen strains).
- Live pathogens wUl preferably be attenuated in known manner.
- antigens or - Ill —
- antigenic determinants may be generated in situ in the subject by use of a polynucleotide coding for an antigen or antigenic dete ⁇ riinant (as in so-caUed "DNA vaccination", although it will be appreciated that the polynucleotides which may be used with this approach are not limited to DNA, and may also include RNA and modified polynucleotides as discussed above).
- the term "genetic vaccine” refers to a pharmaceutical preparation that comprises a polynucleotide (eg DNA) constmct. Genetic vaccines include pharmaceutical preparations useful to invoke a prophylactic and/or therapeutic immune response. Therapeutic vaccines may also be refe ⁇ ed to as "Pharmacines”.
- Vaccine preparation is generally described in New Trends and Developments in Vaccines, edited by Voller et al, University Park Press, Baltimore, Maryland, U. S. A. 1978.
- the adjuvants of the present invention may further be combined with other adjuvants including, for example: Cholera toxin and its B subunit; E. Coh heat labile enterotoxin LT, its B subunit LTB and detoxified versions thereof such as mLT; immunologicaUy active saponin fractions e. g.
- Quil A derived from the bark of the South American tree QuUlaja Saponaria Molina and derivatives thereof (for example QS21, as described in US 5,057,540); the oligonucleotide adjuvant system CpG (as described in WO 96/02555), especially 5'TCGTCGTTT TGT CGT TTT GTC GTT3 (SEQ JD NO: 1); and Monophosphoryl Lipid A and its non-toxic derivative 3-O-deacylated monophosphoryl lipid A (3D-MPL, as described in GB 2,220,211).
- the present invention provides an increased magnitude and/or increased duration of immune response.
- the invention provides an increased protective immune response.
- T cells can act in different subpopulations that show different effector functions.
- T cell responses can be pro-inflammatory T helper 1 type (Thl) characterized by the secretion of interferon gamma (IFN-gamma.) and interleukin 2 (IL-2).
- Thl ceUs are the helper ceUs for the ceUular defence but provide Httle help for antibody secretion.
- the other class of T cell responses is generally anti-inflammatory, and is mediated by Th2 ceUs that produce JL-4, B -5 and IL-10, but Httle or no IL-2 or IFN-gamma.
- Th2 ceUs are the helper ceUs for antibody production.
- CD4+ and CD 8+ cells both occur in these subpopulations: Thl/Th2:CD4, Tcl/Tc2:CD8. - 114
- T cell response e.g., Thl vs. Th2, CD4+ vs. CD8+
- Thl an "inappropriate” type of T ceU response
- Thl an intracellular pathogen such as a vkus or intracellular bacterium
- Th2 a Th2 response to clear an extracellular pathogen.
- the present invention may be used in both so-called prophylactic and so-called therapeutic vaccines.
- prophylactic vaccines may be used to provide protective immunity in an uninfected subject to provide protection against future establishment of infection.
- therapeutic vaccines may be used, for example, after an infection has become established (for example as either an acute or chronic infection) in order to increase the immune response against the infection.
- therapeutic vaccines may be used to combat chronic infections which may for example be bacterial infections (such as tuberculosis), parasitic infections such as malarial infections or vkal infections (such as HPV, HCV, HB V or HIV infections).
- hepatitis viruses such as hepatitis A, B, C, D and E, for example hepatitis B virus (HBV) and hepatitis C virus (HCV) which cause chronic hepatitis, cirrhosis and Hver cancer (see US 5738852).
- HBV hepatitis B virus
- HCV hepatitis C virus
- vkal infectious agents include those caused by the human retro viruses: human immunodeficiency viruses (HIN-1 and HTV-2), which cause acquked immune deficiency syndrome (AIDS); and human T lymphotropic viruses (HTLN-1 and HTLN-2) which cause T ceU leukemia and myelopathies.
- HIN-1 and HTV-2 human immunodeficiency viruses
- HTLN-1 and HTLN-2 human T lymphotropic viruses
- human herpes viruses including the herpes simplex vkus (HSV) types 1 and 2, Epstein Ban virus (EBV), cytomegalo virus (CMV), varicella-zoster vkus (VZV) and human herpes virus 6 (HHV-6) are often not eradicated by host mechanisms, but rather become chronic and in this state may cause disease.
- Chronic infection with human papiUoma viruses is associated with cervical carcinoma. Numerous other viruses and other infectious agents replicate intracellularly and may become chronic when host defense mechanisms faU to eliminate them.
- pathogenic protozoa e.g., Pneumocystis carinii, Trypanosoma, Leishmania, Plasmodium (responsible for Malaria) and Toxoplasma gondii
- bacteria e.g., mycobacteria (eg Mycobacterium tuberculosis responsible for tuberculosis), salmonella and listeria
- fungi e.g., Candida and aspergiUus.
- the pathogen antigen is suitably an antigen that is nataraUy encoded in the pathogen against which an enhanced or augmented immune response is desked.
- target antigens are those which induce a T cell response, and particularly a CTL-response during infection. These may include, for example, from HBV, the core antigen (HBcAg) the E antigen, and the surface antigen (HBsAg).
- Polynucleotide sequences for HBsAg including the pre-Sl, pre- S2 and S regions from a variety of surface antigen subtypes are well known in the art (see, for example, Okamoto et al, J. Gen. Virol., 67:1383-1389 (1986); GenBank Accession numbers D00329 and D00330).
- the polynucleotide sequences encoding HJV glycoprotein g ⁇ l60 and other antigenic HJV regions are known in the art (Lautenberger et al, Nature, 313:277-284 (1985); Starcich et al, CeU, 45:637-648 (1986); Wiley et al., Proc. Natl. Acad. Sci. USA, 83:5038-5042 (1986); and Modrow et al., J. Virol., 61:570- 578 (1987)).
- HXB2 Human immunodeficiency virus type 1
- HIVl/HTLV-ITI/LAV reference genome HIVl/HTLV-ITI/LAV reference genome
- GenBank Numerous genome sequences for HAV, HB V and HCV strains (including sequences for antigenic proteins) are provided on GenBank, for example AY057948 (Hepatitis B virus isolate kannl27, complete genome); AY057947 (Hepatitis B virus isolate kann705, complete genome); NC_003977 (Hepatitis B vkus, complete genome); NC_004102 (Hepatitis C vkus, complete genome); AF139594 (Hepatitis C virus strain HCV-N, complete genome) ; M16632 (Hepatitis A virus (HM-175 strain; attenuated)).
- the modulator/inhibitor of Notch signaUing increases cytotoxic (CD 8+) T ceU responses to antigen.
- the invention further provides a conjugate comprising first and second sequences, wherein the first sequence comprises a pathogen antigen or a polynucleotide sequence coding for such an antigen and the second sequence comprises a polypeptide or polynucleotide for Notch signalling modulation.
- the conjugates of the present invention may be protein/polypeptide or polynucleotide conjugates.
- the conjugate is a polynucleotide conjugate
- it may suitably take the form of a polynucleotide vector such as a plasmid comprising a polynucleotide sequence coding for a pathogen antigen or antigenic dete ⁇ ninant and a polynucleotide sequence coding for a modulator of the Notch signalling pathway, wherein preferably each sequence is operably finked to regulatory elements necessary for expression in eukaryotic ceUs.
- a schematic representation of one such form of vector is shown in Figure 11. - 117 -
- the polynucleotide sequence coding for the modulator of the Notch signaUing pathway may be a nucleotide sequence coding for a Notch ligand such as Deltal, Delta3, Delta4, Jaggedl or Jagged 2, or a biologically active fragment, derivative or homologue of such a sequence.
- a Notch ligand such as Deltal, Delta3, Delta4, Jaggedl or Jagged 2
- a biologically active fragment, derivative or homologue of such a sequence suitably sequences based on human sequences may be used.
- the polynucleotide sequence coding for the modulator of the Notch signalling pathway may be a nucleotide sequence coding for a Notch Hgand DSL domain and at least 1 to 20, suitably at least 2 to 15, suitably at least 2 to 10, for example at least 3 to 8 EGF-Hke domains.
- the DSL and EGF-like domain sequences are or co ⁇ espond to mammahan sequences.
- the polynucleotide sequence coding for the modulator of the Notch signaUing pathway may further comprise a transmembrane domain and, suitably, a Notch ligand intracellular domain.
- Prefe ⁇ ed sequences include human sequences such as human Deltal, Delta3, Delta4, Jaggedl or Jagged2 sequences.
- the polynucleotide sequence that encodes the pathogen antigen or antigenic determinant may further include a nucleotide sequence that encodes a signal sequence which directs trafficking of the antigen or antigenic deterrninant within a cell to which it is administered.
- a signal sequence may dkect the antigen or antigenic determinant to be secreted or to be localized to the cytoplasm, the cell membrane, the endoplasmic reticulum, or a lysosome.
- Regulatory elements for DNA expression include a promoter and a polyadenylation signal.
- other elements such as a Kozak region, may also be included if desired.
- Initiation and te ⁇ nination signals are regulatory elements which are often considered part of the coding sequence.
- suitable promoters include but are not limited to promoters from Simian Vkus 40 (S V40), Mouse Mammary Tumor Vkus (MMTV) promoter, Human Immunodeficiency Virus (HIV) such as the HJV Long Terminal Repeat (LTR) promoter, 118
- S V40 Simian Vkus 40
- MMTV Mouse Mammary Tumor Vkus
- HV Human Immunodeficiency Virus
- LTR HJV Long Terminal Repeat
- Moloney virus ALV
- Cytomegalov us CMV
- CMV Cytomegalov us
- EBV Epstein Barr Virus
- RSV Rous Sarcoma Vkus
- human genes such as human Actin, human Myosin, human Hemoglobin, human muscle creatine and human metalothionein.
- Tissue-specific promoters specific for lymphocytes, dendritic cells, skin, brain ceUs and epithelial ceUs within the eye are particularly prefened, for example the CD2, CDllc, keratin 14, Wnt-1 and Rhodopsin promoters respectively.
- an epithelial cell promoter such as SPC may be used.
- suitable polyadenylation signals include but are not limited to SV40 polyadenylation signals and LTR polyadenylation signals.
- SV40 polyadenylation signal used in plasmid pCEP4 Invitrogen, San Diego Calk
- refened to as the SV40 polyadenylation signal may be used.
- enhancers which may, for example, be selected from human Actin, human Myosin, human Hemoglobin, human muscle creatine and vkal enhancers such as those from CMV, RSV and EBV.
- the nucleotide conjugate When administered to and taken up by a cell, the nucleotide conjugate may for example remain present in the cell as a functioning extrachromosomal molecule and/or integrate into the cell's chromosomal DNA.
- DNA may be introduced into cells where it remains as separate genetic material in the form of a plasmid or plasmids.
- linear DNA which can integrate into the chromosome may be introduced into the ceU.
- reagents which promote DNA integration into chromosomes may be added.
- DNA sequences which are useful to promote integration may also be included in the DNA molecule.
- RNA may be administered to the cell. It is also possible, for example, to provide the conjugate in the form of a minichromosome including a centromere, telomeres and an origin of rephcation. - 119
- conjugates may be provided with mammalian origin of replication in order to maintain the constract extrachromosomaUy and produce multiple copies of the constract in the cell.
- mammalian origin of replication for example, plasmids pCEP4 and pREP4 from Invitrogen (San Diego, Calk.) contain the Epstein Ban virus origin of rephcation and nuclear antigen EBNA-1 coding region which produces high copy episomal rephcation without integration.
- regulatory sequences may be selected which are well suited for gene expression in the type of ceUs the constract is to be administered to. Moreover, codons may be selected which are most efficiently transcribed in the cell.
- conjugates may be used either in vivo or ex-vivo with a "genetic vaccination” approach to provide expression of both an inhibitor of Notch signalling and a pathogen antigen or antigenic determinant in cells or tissues.
- polynucleotides may be delivered in conjunction with administration of a facihtating agent.
- Facilitating agents which are administered in conjunction with nucleic acid molecules may be administered as a mixture with the nucleic acid molecule or administered separately simultaneously, before or after administration of nucleic acid molecules.
- Examples of facilitators include benzoic acid esters, anUides, amidines, urethans and the hydrochloride salts thereof such as those of the farnUy of local anesthetics.
- esters include: benzoic acid esters such as piperocaine, meprylcaine and isobucarne; para-aminobenzoic acid esters such as procaine, tetracaine, butemamine, propoxycaine and chloroprocaine; meta-aminobenzoic acid esters including metabutharnine and primacaine; and para-ethoxybenzoic acid esters such as parethoxycaine.
- benzoic acid esters such as piperocaine, meprylcaine and isobucarne
- para-aminobenzoic acid esters such as procaine, tetracaine, butemamine, propoxycaine and chloroprocaine
- meta-aminobenzoic acid esters including metabutharnine and primacaine
- para-ethoxybenzoic acid esters such as parethoxycaine.
- anUides include Hdocaine, etidocaine, mepivacaine, - 120 -
- bupivacaine pynocaine and prilocaine.
- Other examples of such compounds include dibucaine, benzocaine, dyclonine, pramoxine, proparacaine, butacaine, benoxinate, carbocaine, methyl bupivacaine, butas n picrate, phenacaine, diothan, luccaine, intracaine, nupercaine, metabutoxycaine, piridocaine, biphenamine and the botanically- derived bicyclics such as cocaine, cinnamoylcocaine, traxiUrne and cocaethylene and aU such compounds complexed with hydrochloride.
- the facUitating agent may be administered prior to, simultaneously with or subsequent to the genetic construct.
- the facilitating agent and the genetic construct may be formulated in the same composition.
- Bupivacaine-HCl is chemicaUy designated as 2-piperidinecarboxamide, l-butyl-N-(2,6- dknethyl ⁇ henyl)-monohydrochloride, monohydrate and is widely available commerciaUy for pharmaceutical uses from many sources including from Astra Pharmaceutical Products Inc. (Westboro, Mass.) and Sanofi Winthrop Pharmaceuticals (New York, N.Y.), Eastman Kodak (Rochester, N.Y.).
- Bupivacaine is commerciaUy formulated with and without methylparaben and with or without epinephrine. Any such formulation may be used. It is commercially available for pharmaceutical use in concentration of 0.25%, 0.5% and 0.75% which may be used on the invention. Alternative concentrations, particularly those between 0.05% -1.0% which elicit deskable effects may be prepared if desked.
- about 250 ⁇ g to about 10 mg of bupivacaine may be administered.
- antigen-presenting cells may be "professional" antigen presenting cells or may be another cell that may be induced to present antigen to T ceUs.
- APC precursor may be used which dkferentiates or is activated under the conditions of culture to produce an APC.
- An APC for use in the ex vivo methods of the invention is typically isolated from a tumour or peripheral blood found within the body of - 121
- the APC or precursor is of human origin.
- APCs are used in preliminary in vitro screening procedures to identify and test suitable nucleic acid sequences, APCs from any suitable source, such as a healthy patient, may be used.
- APCs include dendritic ceUs (DCs) such as interdigitating DCs or foUicular DCs, Langerhans cells, PBMCs, macrophages, B -lymphocytes, or other cell types such as epithelial cells, fibroblasts or endothelial ceUs, activated or engineered by transfection to express a MHC molecule (Class I or U) on thek surfaces.
- DCs dendritic ceUs
- PBMCs macrophages
- B -lymphocytes or other cell types
- epithelial cells fibroblasts or endothelial ceUs
- Precursors of APCs include CD34 + cells, monocytes, fibroblasts and endothelial cells.
- the APCs or precursors may be modified by the cultare conditions or may be geneticaUy modified, for instance by transfection of one or more genes encoding proteins which play a role in antigen presentation and/or in combination of selected cytokine genes which would promote to immune potentiation (for example IL-2, IL-12, IFN- ⁇ , TNF- ⁇ , IL-18 etc.).
- proteins include MHC molecules (Class I or Class IT), CD80, CD86, or CD40.
- DCs or DC-precursors are included as a source of APCs.
- Dendritic ceUs can be isolated/prepared by a number of means, for example they can either be purified dkectly from peripheral blood, or generated from CD34 + precursor ceUs for example after mobiHsation into peripheral blood by treatment with GM-CSF, or directly from bone ma ⁇ ow. From peripheral blood, adherent precursors can be tieated with a GM-CSF/TL-4 mixture (Inaba K, et al. (1992) J. Exp. Med. 175: 1157-1167 (Inaba)), or from bone manow, non-adherent CD34 + ceUs can be treated with GM-CSF and TNF-a (Caux C, et al.
- DCs can also be routinely prepared from the peripheral blood of human volunteers, similarly to the method of SaUusto and Lanzavecchia (Sallusto F and Lanzavecchia A (1994) J. Exp. Med. 179: 1109-1118) using purified peripheral blood mononucleocytes (PBMCs) and treating 2 hour adherent cells with GM-CSF and JL-4. If requked, these may be depleted of CD19 + B cells and CD3 + , CD2 + T cells using magnetic beads (Coffin RS, et al. (1998) Gene Therapy 5: 718-722 (Coffin)). Cultare conditions may include other cytokines such - 122 -
- GM-CSF GM-CSF or JL-4 for the maintenance and, or activity of the dendritic cells or other antigen presenting ceUs.
- the term "antigen presenting cell or the like" are used herein is not intended to be limited to APCs.
- the skUled man wUl understand that any vehicle capable of presenting to the T ceU population may be used, for the sake of convenience the term APCs is used to refer to aU these.
- suitable APCs include dendritic ceUs, L cells, hybridomas, fibroblasts, lymphomas, macrophages, B ceUs or synthetic APCs such as lipid membranes.
- T ceUs from any suitable source may be used and may be obtained from blood or another source (such as lymph nodes, spleen, or bone ma ⁇ ow). They may optionally be enriched or purified by standard procedures.
- the T ceUs may be used in combination with other immune cells, obtained from the same or a different individual.
- whole blood may be used or leukocyte enriched blood or purified white blood ceUs as a source of T cells and other cell types. It is particularly prefened to use helper T cells (CD4 + ).
- T ceUs such as CD8 + ceUs may be used. It may also be convenient to use ceU Hnes such as T ceU hybridomas.
- the term "antigen presenting cell or the like" are used herein is not intended to be limited to APCs.
- the skUled man wUl understand that any vehicle capable of presenting to the T ceU population may be used, for the sake of convenience the term APCs is used to refer to aU these.
- suitable APCs include dendritic ceUs, L cells, hybridomas, fibroblasts, lymphomas, macrophages, B ceUs or synthetic APCs such as lipid membranes. - 123 -
- T ceUs/APCs/tumour cells may be cultured as described above.
- the APCs/T ceUs/turnour ceUs may be incubated/exposed to substances which are capable of mterterring with or downregulating Notch or Notch Hgand expression.
- the resulting T ceUs/APCs/tumour cells that have downregulated Notch or Notch Hgand expression are now ready for use. For example, they may be prepared for administration to a patient or incubated with T cells in vitro (ex vivo).
- tumour material may be isolated and transfected with a nucleic acid sequence which encodes for, e.g., a ToU-like receptor or BMP receptor and/or costimulatory molecules (suitable costimulants are mentioned above) and/or treated with cytokines, e.g. IFN- ⁇ , TNF- ⁇ , EL- 12, and then used in vitro to prime TRL and/or TIL ceUs.
- a nucleic acid sequence which encodes for, e.g., a ToU-like receptor or BMP receptor and/or costimulatory molecules (suitable costimulants are mentioned above) and/or treated with cytokines, e.g. IFN- ⁇ , TNF- ⁇ , EL- 12, and then used in vitro to prime TRL and/or TIL ceUs.
- modified cells of the present invention are preferably administered to a host by dkect injection into the lymph nodes of the patient.
- TypicaUy from 10 4 to 10 8 treated ceUs, preferably from 10 5 to 10 7 cells, more preferably about 10 6 ceUs are administered to the patient.
- the cells will be taken from an enriched ceU population.
- the term "enriched" as applied to the ceU populations of the invention refers to a more homogeneous population of ceUs which have fewer other cells with which they are natarally associated.
- An enriched population of ceUs can be achieved by several methods known in the art. For example, an enriched population of T-cells can be obtained using immunoaffinity chromatography using monoclonal antibodies specific for determinants found only on T-cells.
- Enriched populations can also be obtained from mixed cell suspensions by positive selection (collecting only the desked cells) or negative selection (removing the undeskable ceUs).
- positive selection collecting only the desked cells
- negative selection removing the undeskable ceUs.
- the technology for capturing specific cells on affinity materials is weU 124 -
- Monoclonal antibodies against antigens specific for matare, dkferentiated cells have been used in a variety of negative selection strategies to remove undesired cells, for example, to deplete T-ceUs or mahgnant ceUs from aUogeneic or autologous ma ⁇ ow grafts, respectively (Gee, et al., J.N.C.I. 80:154, 1988).
- Purification of human hematopoietic cells by negative selection with monoclonal antibodies and irnmunomagnetic microspheres can be accomplished using multiple monoclonal antibodies (Griffin, et al., Blood, 63:904, 1984).
- Procedures for separation of cells may include magnetic separation, using antibodycoated magnetic beads, affinity chromatography, cytotoxic agents joined to a monoclonal antibody or used in conjunction with a monoclonal antibody, for example, complement and cytotoxins, and "panning" with antibodies attached to a sohd matrix, for example, plate, or other convenient technique.
- Techniques providing accurate separation include fluorescence activated cell sorters, which can have varying degrees of sophistication, for example, a plurality of color channels, low angle and obtuse light scattering detecting channels, impedance channels, etc.
- the therapeutic agents used in the present invention may be administered dkectly to patients in vivo.
- the agents may be administered to cells such as T cells and/or APCs in an ex vivo manner.
- leukocytes such as T ceUs or APCs may be obtained from a patient or donor in known manner, treated/incubated ex vivo in the manner of the present invention, and then administered to a patient.
- a combination of routes of administration may be employed if desked. For example, where appropriate one - 125 -
- component such as the modulator of Notch signalling
- the other may be administered in vivo, or vice versa.
- T-ceUs and APCs as described above are cultured in a suitable culture medium such as DMEM or other defined media, optionaUy in the presence of fetal calf serum.
- Polypeptide substances may be administered to T-ceUs and/or APCs by introducing nucleic acid constracts/vkal vectors encoding the polypeptide into ceUs under conditions that aUow for expression of the polypeptide in the T-ceU and/or APC.
- nucleic acid constructs encoding antisense constructs may be introduced into the T-ceUs and/or APCs by transfection, viral infection or vkal transduction.
- nucleotide sequences encoding the modulator(s) of Notch signaUing wUl be operably linked to control sequences, including promoters/enhancers and other expression regulation signals.
- control sequences including promoters/enhancers and other expression regulation signals.
- operably linked means that the components described are in a relationship perrnitting them to function in thek intended manner.
- a regulatory sequence "operably linked" to a coding sequence is peferably Hgated in such a way that expression of the coding sequence is achieved under condition compatible with the control sequences.
- the promoter is typically selected from promoters which are functional in mammalian ceUs, although prokaryotic promoters and promoters functional in other eukaryotic cells may be used.
- the promoter is typically derived from promoter sequences of vkal or eukaryotic genes. For example, it may be a promoter derived from the genome of a ceU in which expression is to occur. With respect to eukaryotic promoters, they may be promoters that function in a ubiquitous manner (such as promoters of a-actin, b-actin, tabulin) or, alternatively, a tissue-specific manner (such as promoters of the genes for pyravate kinase). Tissue-specific promoters speckle for lymphocytes, dendritic ceUs, - 126 -
- epithelial ceU promoter SPC is used. They may also be promoters that respond to specific stirnuH, for example promoters that bind steroid hormone receptors.
- Vkal promoters may also be used, for example the Moloney murine leukaemia virus long terminal repeat (MMLV LTR) promoter, the rous sarcoma virus (RSV) LTR promoter or the human cytomegalo virus (CMV) JE promoter.
- the promoters may also be advantageous for the promoters to be inducible so that the levels of expression of the heterologous gene can be regulated during the Hfe-time of the cell. Inducible means that the levels of expression obtained using the promoter can be regulated.
- any of the above promoters may be modified by the addition of further regulatory sequences, for example enhancer sequences.
- Chimeric promoters may also be used comprising sequence elements from two or more different promoters.
- the regulatory sequences may be cell specific such that the gene of interest is only expressed in ceUs of use in the present invention.
- ceUs include, for example, APCs and T-cells.
- T-cells and/or APCs that comprise nucleic acid constructs capable of up- regulating Notch Hgand expression are now ready for use. If required, a smaU aliquot of ceUs may be tested for up-regulation of Notch Hgand expression as described above. The ceUs may be prepared for administration to a patient or incubated with T-ceUs in vitro (ex vivo).
- any of the assays described above can be adapted to monitor or to detect reactivity in immune cells for use in clinical appHcations. Such assays will involve, for - 127 -
- Immune ceU activity may be monitored by any suitable method known to those skUled in the art. For example, cytotoxic activity may be monitored. Natural kiUer (NK) ceUs wiU demonstrate enhanced cytotoxic activity after activation. Therefore any drop in or stabUisation of cytotoxicity wiUbe an indication of reduced reactivity.
- NK Natural kiUer
- leukocytes express a variety of new cell surface antigens.
- NK ceUs for example, wiU express transferrin receptor, HLA-DR and the CD25 IL-2 receptor after activation. Reduced reactivity may therefore be assayed by monitoring expression of these antigens.
- EA-1 and MLR3 are glycoproteins having major components of 28kD and 32kD.
- EA-1 and MLR3 are not HLA class ⁇ antigens and an MLR3 Mab wUl block IL-1 binding. These antigens appear on activated T-ceUs within 18 hours and can therefore be used to monitor immune ceU reactivity.
- leukocyte reactivity may be monitored as described in EP 0325489, which is incorporated herein by reference. Briefly this is accomplished using a monoclonal antibody ("Anti-Leu23”) which interacts with a ceUular antigen recognised by the monoclonal antibody produced by the hybridoma designated as ATCC No. HB-9627. 128
- Anti-Leu 23 recognises a cell surface antigen on activated and antigen stimulated leukocytes. On activated NK cells, the antigen, Leu 23, is expressed within 4 hours after activation and continues to be expressed as late as 72 hours after activation. Leu 23 is a disulfide-linked homodimer composed of 24 kD subunits with at least two N-linked carbohydrates.
- Anti-Leu 23 is useful in monitoring the reactivity of leukocytes.
- immune cells may be used to present antigens or allergens and/or may be treated to modulate expression or interaction of Notch, a Notch Hgand or the Notch signalling pathway.
- APCs Antigen Presenting Cells
- a suitable cultare medium such as DMEM or other defined media, optionally in the presence of a serum such as fetal calf serum.
- Optimum cytokine concentrations may be determined by titration.
- One or more substances capable of up- regulating or down-regulating the Notch signaUing pathway are then typicaUy added to the cultare medium together with the antigen of interest.
- the antigen may be added before, after or at substantially the same time as the substance(s).
- Cells are typically incubated with the substance(s) and antigen for at least one hour, preferably at least 3 129 -
- a smaU ahquot of cells may be tested for modulated target gene expression as described above.
- ceU activity may be measured by the inhibition of T ceU activation by monitoring surface markers, cytokine secretion or prohferation as described in WO98/20142.
- APCs transfected with a nucleic acid constmct directing the expression of, for example Senate, may be used as a control.
- polypeptide substances may be administered to APCs by introducing nucleic acid constracts/vkal vectors encoding the polypeptide into cells under conditions that aUow for expression of the polypeptide in the APC.
- nucleic acid constructs encoding antigens may be introduced into the APCs by transfection, vkal infection or vkal transduction. The resulting APCs that show increased levels of a Notch signalling are now ready for use.
- any of the assays described above can be adapted to monitor or to detect the degree of reactivity and tolerisation in immune cells for use in clinical applications.
- Such assays will involve, for example, detecting decreased Notch signaUing activity in host ceUs or monitoring Notch cleavage in donor cells. Further methods of monitoring immune ceU activity are set out below.
- Immune ceU activity may be monitored by any suitable method known to those skilled in the art. For example, cytotoxic activity may be monitored. Natural kiUer (NK) ceUs wiU demonstrate enhanced cytotoxic activity after activation. Therefore any drop in or stabUisation of cytotoxicity wiU be an indication of reduced reactivity.
- NK Natural kiUer
- leukocytes express a variety of new cell surface antigens.
- NK ceUs for example, wiU express transferrin receptor, HLA-DR and the CD25 IL-2 receptor after activation. Reduced reactivity may therefore be assayed by monitoring expression of these antigens.
- EA-1 and MLR3 are glycoproteins having major components of 28kD and 32kD.
- EA-1 and MLR3 are not HLA class II antigens and an MLR3 Mab wUl block IL-1 binding. These antigens appear on activated T-ceUs within 18 hours and can therefore be used to monitor immune cell reactivity.
- leukocyte reactivity may be monitored as described in EP 0325489, which is incorporated herein by reference. Briefly this is accomplished using a monoclonal antibody ("Anti-Leu23”) which interacts with a ceUular antigen recognised by the monoclonal antibody produced by the hybridoma designated as ATCC No. HB-9627.
- Anti-Leu23 a monoclonal antibody
- ATCC No. HB-9627 a monoclonal antibody
- Anti-Leu 23 recognises a cell surface antigen on activated and antigen stimulated leukocytes. On activated NK cells, the antigen, Leu 23, is expressed within 4 hours after activation and continues to be expressed as late as 72 hours after activation. Leu 23 is a disulfide-linked homodimer composed of 24 kD subunits with at least two N-linked carbohydrates.
- Anti-Leu 23 is useful in monitoring the reactivity of leukocytes.
- a fusion protein comprising the extracellular domain of human Deltal fused to the Fc domain of human IgG4 ("hDeltal-IgG4Fc") was prepared by inserting a nucleotide sequence coding for the extracellular domain of human Deltal (see, eg Genbank Accession No AF003522) into the expression vector pCON ⁇ (Lonza Biologies, Slough, UK) and expressing the resulting construct in CHO cells.
- a 1622bp extraceUular (EC) fragment of human Delta-like ligand 1 (hECDLL-1; see GenBank Accession No AF003522) was gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instmctions. The fragment was then ligated into a pCR Blunt cloning vector (Invitrogen, UK) cut Hindlll - BsiWI, thus eliminating a Hindlll, BsiWI and Apal site.
- the ligation was transformed into DH5 ⁇ ceUs, streaked onto LB + Kanamycin (30ug/ml) plates and incubated at 37°C overnight. Colonies were picked from the plates into 3ml - 132 -
- Plasmid DNA was purified from the cultares using a Qiagen Qiaquick Spin Miniprep kit (cat 27106) according to the manufacturer's instructions, then diagnosticaUy digested with Hindlll. A clone was chosen and streaked onto an LB + Kanamycin (30ug/ml) plate with the glycerol stock of modified ⁇ CRBlunt-hECDLL-1 and incubated at 37°C overnight. A colony was picked off this plate into 60ml LB + Kanamycin (30ug/ml) and incubated at 37°C overnight.
- the cultare was maxiprepped using a Clontech Nucleobond Maxi Kit (cat K3003-2) according to the manufacturer's instructions, and the final DNA pellet was resuspended in 300ul dH 2 O and stored at -20°C.
- modified pCR Blunt-hECDLL-1 vector was linearised with Hindlll and partially digested with Apal.
- the 1622bp hECDLL-1 fragment was then gel purified using a Clontech Nucleospin® Extraction Kit (K3051-1) according to the manufacturer's instructions.
- the DNA was then passed through another Clontech Nucleospin® column and followed the isolation from PCR protocol, concentration of sample was then checked by agarose gel analysis ready for Hgation.
- Plasmid pcon ⁇ (Lonza Biologies, UK) was cut with Hindlll - Apal and the following oligos were ligated in (SEQ ID NO: 2):
- the Hgation was transformed into DH5 ⁇ ceUs and LB + Amp (lOOug/ml) plates were streaked with 200ul of the transformation and incubated at 37°C overnight. The following day 12 clones were picked into 2 x YT + AmpicUlin (lOOugmT 1 ) and grown up at 37°C throughout the day. Plasmid DNA was purified from the cultares using a Qiagen Qiaquick Spin Miniprep kit (cat 27106) and diagnosticaUy digested with Notl.
- a clone (designated "pDev41") was chosen and an LB + Amp (lOOug/ml) plate was streaked with the glycerol stock of pDev41 and incubated at 37°C overnight. The following day a clone - 133
- the polynucleotide was then cloned into the polylinker region of pEE14.4 (Lonza Biologies, UK) downstream of the strong hCMV promoter enhancer region (hCMV- MJE) and upstream of SV40 polyadenylation signal (encodes the GS gene requked for selection in glutarrHne free media; contains the GS minigene - GS cDNA which includes the last intron and polylinker adenylation signals of the wild type hamster GS gene) which is under the control of the late SV40 promoter, has the hCMV promoter to drive transcription of the desked gene.
- 5ug of the maxiprep of pEE14.4 was digested with Hindlll - EcoRI, and the product was gel extracted and treated with alkaline phosphatase.
- a 3 fragment Hgation was set up with pEE14.4 cut Hindlll - EcoRI, ECDLL-1 from modified pCR Blunt (Hindlll - Apal) and the IgG4Fc fragment cut from pDev41 (Apal - EcoRI). This was transformed into DH5 ceUs and LB + Amp (lOOug/ml) plates were streaked with 200ul of the transformation and incubated at 37C overnight. The foUowing day 12 clones were picked into 2 x YT + Amp (lOOug/ml) and mimpreps were grown up at 37°C throughout the day.
- Plasmid DNA was purified from the preps using a Qiagen Qiaquick spin miniprep kit (Cat No 27106), diagnosticaUy digested (with EcoRI and HindTTT) and a clone (clone 8; designated " ⁇ Dev44") was chosen for maxiprepping.
- the glycerol stock of pDev44 clone 8 was streaked onto an LB + Amp (lOOugml "1 ) plate and incubated at 37°C overnight. The following day a colony was picked into 60ml LB + Amp (lOOugmT 1 ) broth and incubated at 37°C overnight.
- the plasmid DNA was isolated using a Clontech Nucleobond Maxiprep Kit (Cat K3003-2). 134
- pDev44 was digested with Hindlll - BstBI, gel purified and treated with alkaline phosphatase. The digest was Hgated with the oligos, transformed into DH5 cells by heat shock . 200ul of each transformation were streaked onto LB + Amp plates (lOOug/ml) and incubated at 37°C overnight. Minipreps were grown up in 3 ml 2 x YT + AmpiciUin (lOOugmT 1 ). Plasmid DNA was purified from the minipreps using a Qiagen Qiaquick spin miniprep kit (Cat No 27106) and diagnosticaUy digested with Ncol. A clone (pDev46) was selected and the sequence was confirmed. The glycerol stock was streaked, broth grown up and the plasmid maxiprepped.
- the amino acid sequence of the resulting expressed fusion protein was as foUows (SEQ ID NO: 5):
- first underlined sequence is the signal peptide (cleaved from the mature protein) and the second underlined sequence is the IgG4 Fc sequence.
- the protein normally exists as a dimer linked by cysteine disulphide bonds (see eg schematic - 136 -
- Notch signaUing inhibitor enhances immune response to flu antigen
- FlushieldTM flu vaccine (5 micrograms; Roche USA) was enrols kied in incomplete Freund's adjuvant with or without 100 micrograms of hDeltal-IgG4Fc (from Example 1 above). 6-8 weeks old B ALB/c mice (eight per group) were immunized subcutaneously at the base of the taU and 14 days later the mice were chaUenged in the right ear with 1.8 micrograms of Flushield flu vaccine in saline. Ear responses (ear thickness measured with caUipers) were measured at 1, 2 and 6 days thereafter.
- Notch signalling inhibitor enhances immune response to KLH
- mice 6-8 weeks old BALB/c mice (eight per group) were immunized subcutaneously at the base of the tail with keyhole limpet haemocyanin (KLH) from Pierce at 50ng or 0.5ng per mouse emulsified in incomplete Freund's adjuvant (IF A) with or without hDeltal-IgG4Fc protein from Example 1 above (100 micrograms). Some mice also received additional hDeltal-IgG4Fc (400 micrograms) at an adjacent s.c. site one day later. 14 days after the initial KLH priming, mice were chaUenged in the right ear with 20 micrograms KLH and the ear immune response was measured with calhpers as an increase in ear thickness due to the induced inflammatory reaction after 24 hours.
- KLH keyhole limpet haemocyanin
- IF A incomplete Freund's adjuvant
- mice also received additional hDeltal-IgG4Fc (400 micrograms) at an
- Notch signalling inhibitor enhances immune response to Flu vaccine
- mice 6-8 weeks old B ALB/c mice (eight per group) were immunized subcutaneously at the base of the tail with FlushieldTM flu vaccine at 5 ⁇ g per mouse emulsified in incomplete Freund's adjuvant (JFA) with hDeltal-IgG4Fc protein from Example 1 above (100 micrograms) or isotype control hlgG4 (Sigma, UK) lOO ⁇ g/TFA control. 14 days after the initial FlushieldTM flu vaccine priming, mice were challenged in the right ear with FlushieldTM and the ear immune response was measured with callipers as an increase in ear thickness due to the induced inflammatory reaction after 24 hours.
- FlushieldTM flu vaccine 14 days after the initial FlushieldTM flu vaccine priming, mice were challenged in the right ear with FlushieldTM and the ear immune response was measured with callipers as an increase in ear thickness due to the induced inflammatory reaction after 24 hours.
- M450 Streptavidin DynabeadTM magnetic beads (Dynal, USA) were coated with an anti- human-IgG4 biotinylated monoclonal antibody (BD Bioscience, 555879) by rotating them in the presence of the antibody for 30 minutes at room temperatare. Beads were washed three times with PBS (1ml). They were further incubated with hDeltal-hIgG4 (see Example 1 above) for 2 hours at room temperatare and then washed three times with PBS (1ml). - 138 -
- PBMC Human peripheral blood mononuclear ceUs
- the CD4+ T cells were incubated in tripHcates in a 96-weU-plate (flat bottom) at 10 3 CD4/weU/200 ⁇ l in RPMI medium containing 10% FCS, glutamine, peniciUin, streptomycin and ⁇ 2 -mercaptoethanol.
- Cytokine production was induced by stimulating the ceUs with anti-CD3/CD28 T cell expander beads from Dynal at a 1 :1 ratio (bead/ceU) in the presence of beads coated with hDeltal-IgG4Fc fusion protein (Example 1 above) at a 5:1 ratio (beads/cell). In some wells, increasing amounts of soluble hDeltal-IgG4Fc fusion protein were also added.
- supematants were removed after 3 days of incubation at 37°C/ 5%CO 2 /humidified atmosphere and cytokine production was evaluated by ELISA using Pharm in gen kits OptEIA Set human IL10 (catalog No. 555157), OptEIA Set human IL-5 (catalog No. 555202) for IL-10 and IL-5 respectively according to the manufacturer's instructions.
- PBMC Human peripheral blood mononuclear ceUs
- the CD4+ T cells were incubated in tripHcates in a 96-weU-plate (flat bottom) at 10 5 CD4/weU/200 ⁇ l in RPMI medium containing 10% FCS, glutamine, peniciUin, streptomycin and ⁇ 2 -mercaptoethanol.
- Cytokine production was induced by stimulating the cells with anti-CD3/CD28 T cell expander beads from Dynal at a 1 :1 ratio (bead/ceU) in the presence of beads coated with hDeltal-IgG4Fc fusion protein (Example 1 above) at a 5:1 ratio (beads/cell).
- increasing amounts of soluble rat Notchl extracellular domain-hlgGl fusion protein (R&D Systems, Catalog No 1057 -TK) were also added.
- supematants were removed after 3 days of incubation at 37°C/ 5%CO 2 /humidified atmosphere and cytokine production was evaluated by ELISA using Pharm in gen kits OptEIA Set human 1L10 (Catalog No. 555157), OptEIA Set human IL-5 (Catalog No. 555202) for IL-10 and IL-5 respectively according to the manufacturer's instructions.
- a fusion protein capable of acting as an inhibitor of Notch signalling comprising human jaggedl sequence up to the end of EGF2 (leader sequence, amino terminal, DSL, EGF1+2) fused to the Fc domain of human IgG4 ("hJaggedl(EGFl+2)-IgG4Fc") was prepared by inserting a nucleotide sequence coding for human Jaggedl from ATG through to the end of the second EGF repeat (EGF2) into the expression vector pCON ⁇ (Lonza Biologies, Slough, UK) to add the IgG4 Fc tag. The fuU fusion protein was then shuttled into the Glutamine Synthetase (GS) selection system vector pEE14.4 (Lonza Biologies). The resulting construct was transfected and expressed in CHO-K1 cells (Lonza Biologies).
- Plasmid pLOR47 was then modified to remove one of two Drain sites (whilst maintaining and replacing the amino acid sequence for full extracellular hJaggedl) and - 141 -
- the resulting plasmid was named pDEV20.
- Plasmid pLOR47 was cut with Drain. This removed a 1.7kb fragment comprising the 3' end of the extraceUular, the transmembrane and intraceUular regions of hJaggedl as well as part of the vector sequence leaving a larger fragment of 7.3kbp of the main vector backbone with almost all of the extraceUular region (EC) of hJaggedl.
- the cut DNA was run out on an agarose gel, the larger fragment excised and gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions.
- a pak of oHgonucleotides were ordered such that when Hgated together gave a double stranded piece of DNA that had a compatible sticky end for DraHI at the 5' end and recreated the original restriction site. This sequence was foUowed by a BsiWI site then another compatible sticky end for Drain at the 3' end that did not recreate the restriction site.
- This oligo pak was then Hgated into the DraH cut pLOR47 thus maintaining the 5' Dram site, inserting a BsiWI and eliminating the 3'Draffl site.
- the resulting plasmid was named pDEV20.
- Fragment 1 EC hJagged sequence pDev 20 was cut Rsrfl - DraHI giving rise to 3 fragments; 1270 + 2459 + 3621 bp. The fragments were run out on an agarose gel, the 2459 bp band excised and the DNA gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions. This contained hJaggedl sequence - with loss of 3' sequence (up to the Rsr ⁇ site) and loss of some 5 'sequence at the end of the EC region.
- Fragment 2 modified Kozak sequence pUC19 (Invitrogen) was modified to insert new restriction enzyme sites and also introduce a modkied Kozak with 5' hJaggedl sequence.
- the new plasmid was named pLOR49.
- pLOR49 was created by cutting ⁇ UC19 vector Hindm EcoRI and ligating in 4 oligonucleotides (2 ohgo pairs).
- One pak has a Hindm cohesive end foUowed by an optimal Kozac and 5'hJagged 1 sequence followed by Rsrfl cohesive end.
- the other pak has a cohesive Rsrfl end then Dram, Kpnl, BsiWI sites followed by a cohesive EcoRI site.
- pLOR49 thus is a pUC19 back bone with the Hindm site followed by optimal Kozac and 5 'hJaggedl sequence and introduced unique Rsrfl, Dra m, Kpnl, BsiWI sites before recreating the Ecorl site.
- Plasmid pLOR49 was then cut RsrH - BsiWI to give a 2.7kb ⁇ vector backbone fragment that was run out on an agarose gel, the band excised and the DNA gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions.
- Fragment 3 generation of 3' hJaggedl EC with BsiWI site PCR fragment pLOR47 was used as a template for PCR to amplify up hJaggedl EC and add a 3' BsiWI site.
- Fragment 1 Plasmid pDEV21-4 was cut Hindm-BglH to give 4958bp + 899bp fragments. These were ran out on an agarose gel, the smaller 889bp fragment band was excised and the DNA gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions.
- Fragment 2 pCON ⁇ 4 (Lonza Biologies) was cut Hind m-Apal to give a 6602bp vector fragment - missing the first 5 amino acids of IgG4 FC. The fragment band was excised and the DNA gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions.
- Fragment 3 A linker ohgonucleotide pak was ordered to give a tight junction between the end of hJaggedl EGF2 and the 3' start of IgG4 FC, with no extra amino acids introduced.
- Ligated DNA was transformed into competent DH5alpha (Invitrogen), plated onto LB amp paltes and incubated at 37 degres overnight. A good ratio was evident between control and vector plus insert pates therefore only 8 colonies were picked into 10ml LB amp broth and incubated at 37 overnight. Glycerol broths were made and the bacterial pellets were frozen at -20degrees. Later plasmid DNA was extracted using Qiagen - 145
- the coding sequence for hJaggedl EGFl+2 IgG4 FC fusion was shuttled out of pCON ⁇ 4 (Lonza Biologies) into pEE 14.4 (Lonza Biologies) downstream of the hCMV promoter region (hCMV-MIE) and upstream of SN40 polyadenylation signal, to enable stable ceU lines to be selected using the GS system (Lonza Biologies).
- Plasmid ⁇ EE14.4 contains the GS minigene - (GS cD ⁇ A which includes the last intron and polylinker adenylation signals of the wild type hamster GS gene under the control of the late SV40 promoter) which encodes the GS gene requked for selection in glutamine free media.
- pDEVIO clone 2 was cut Hindm-EcoRI giving rise to 2 fragment s 5026bp + 2497bp.
- the 2497bp contained the coding sequence for hJaggedl EGFl+2 IgG4 FC fusion and so was excised from an agarose gel and the D ⁇ A gel purified using a Qiagen QIAquickTM Gel Extraction Kit (cat 28706) according to the manufacturer's instructions.
- pEE14.4 (Lonza Biologies) was cut Hindm-EcoRI to remove the IgG4 FC sequence giving 2 fragments 5026bp + 1593bp. The larger 5026b ⁇ fragment was excised from an - 146
- the pEE14.4 vector backbone and the hJaggedl EGFl+2 IgG4 FC fusion insert were Hgated to give the final transfection plasmid pDEVll.
- the Hgation was transformed into DH5 ⁇ ceUs, streaked onto LB + AmpicUlin (lOOug/ml) plates and incubated at 37°C overnight. Colonies were picked from the plates into 7ml LB + AmpicUlin (lOOug/ml) and grown up shaking overnight at 37°C. Glycerol broths were made and the plasmid DNA was purified from the cultares using a Qiagen Qiaquick Spin Miniprep kit (cat 27106) according to the manufacturer's instractions. The DNA was then diagnosticaUy digested with Sap I.
- a conect clone (clone 1) was chosen and lOOul of the glycerol stock was inoculated into
- the plates showed pure growth; therefore the culture was maxi-prepped using a Clontech
- IgG4 sandwich ELISA IgG4 sandwich ELISA. Selective media were replaced. Positive clones were identified, passaged and expanded in selective media 25um L-MSX.
- CeUs were grown in selective DMEM (25um L-MSX) untU semi-confluent. The media was then replaced with seram free media (UltraCHO; BioWhittaker) for 3-5 days. Protein (hJaggedlEGFl+2-IgG4Fc fusion protein) was purified from the resulting media by FPLC. - 148 -
- the protein is believed to exist as a dimer linked by cysteine disulphide bonds, with cleavage of the signal peptide.
- PBMC Human peripheral blood mononuclear ceUs
- CD4+ T cells were incubated in tripHeates in a 96-weU-plate (flat bottom) at 10 5 CD4/weU/200 ⁇ l in RPMI medium containing 10% FCS, glutamine, peniciUin, streptomycin and ⁇ 2 -mercaptoethanol. - 149 -
- Cytokine production was induced by stimulating the ceUs with anti-CD3/CD28 T cell expander beads from Dynal at a T.l ratio (bead/ceU) in the presence of beads coated with hDeltal-IgG4Fc fusion protein (Example 1 above) at a 5:1 ratio (beads/cell).
- increasing amounts of soluble Jagged-1 (2EGF)-hIgGl fusion protein hjaggedlEGFl&2 -IgG4Fc; prepared as described above
- the supematants were removed after 3 days of incubation at 37°C/ 5%CO 2 /humidified atmosphere and cytokine production was evaluated by ELISA using Pharrningen kits OptEIA Set human IL10 (Catalog No. 555157), OptEIA Set human IL-5 (Catalog No. 555202) for JL-10 and JL-5 respectively according to the manufacturer's instructions.
- Spleens were removed from female Balb/c mice 8-10 weeks old and passed through a 0.2 ⁇ M cell strainer into 20ml R10F medium (R10F-RPMI 1640 media (Gibco Cat No 22409) plus 2mM L-glutamine, 50 ⁇ g/ml Penicillin, 50 ⁇ g/ml Streptomycin, 5 x 10 "5 M ⁇ -mercapto-ethanol in 10% fetal calf serum). The cell suspension was spun (1150rpm 5min) and the media removed. - 150 -
- the cells were incubated for 4 minutes with 5ml ACK lysis buffer (0.15M NELCl, 1.0M KHC0 3 , O.lmM Na EDTA in double distilled water) per spleen (to lyse red blood cells).
- the ceUs were then washed once with R10F medium and counted.
- CD4+ ceUs were purified from the suspensions by positive selection on a Magnetic Associated Cell Sorter (MACS) column (Miltenyi Biotec, Bisley, UK: Cat No 130-042-401) using CD4 (L3T4) beads (MUtenyi Biotec Cat No 130-049-201), according to the manufacturer's dkections.
- MCS Magnetic Associated Cell Sorter
- the plates were coated with DPBS plus l ⁇ g/ml anti-hamsterlgG antibody (Pharmin en Cat No 554007) plus l ⁇ g/ml anti-IgG4 antibody. lOO ⁇ l of coating mixture was added per well. Plates were incubated overnight at 4°C then washed with DPBS. Each weU then received either lOO ⁇ l DPBS plus anti-CD3 antibody (l ⁇ g/ml) or, lOO ⁇ l DPBS plus anti- CD3 antibody (l ⁇ g/ml) plus hDeltal-IgG4Fc fusion protein (lO ⁇ g/ml). The plates were incubated for 2-3 hours at 37°C then washed again with DPBS before ceUs (prepared as described above) were added.
- Mouse CD4+T-ceUs (prepared as above) were cultured at 2 x 10 5 /weU on anti-CD3 coated plates with or without plate-bound hDeltal-IgG4Fc fusion protein (prepared as described above) and soluble anti-CD28 (Pharmingen, Cat No 553294, Clone No 37.51) at a final concentration of 2 ⁇ g/ml. Soluble hDeltal-IgG4Fc fusion protein was added into cultare at the start at the concentrations shown and IL-10 was measured in supematants on day 3 by ELBA using antibody pairs from R & D Systems (Abingdon, UK). The results (shown in Figure 19) show that the increased IL-10 release induced by - 151
- plate-bound hDeltal-IgG4Fc fusion protein is substantiaUy reversed by all concentrations of soluble hDeltal-IgG4Fc fusion protein tested.
- TP1 promoter sequence (TP1; equivalent to 2 CBFl repeats) with BamHl and BglH cohesive ends was generated as follows:
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Priority Applications (15)
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EP02779679A EP1446424A2 (en) | 2001-11-14 | 2002-11-13 | Composition comprising inhibitors of the notch signalling pathway for the modulation of the immune system |
CA002465304A CA2465304A1 (en) | 2001-11-14 | 2002-11-13 | Composition comprising inhibitors of the notch signalling pathway for the modulation of the immune system |
JP2003543622A JP2005518785A (en) | 2001-11-14 | 2002-11-13 | Internal medicine |
JP2005506075A JP2006513260A (en) | 2002-08-03 | 2003-08-01 | Complexes of Notch signaling pathway regulators and their use in drug therapy |
PCT/GB2003/003285 WO2004013179A1 (en) | 2002-08-03 | 2003-08-01 | Conjugate of notch signalling pathway modulators and their use in medical treatment |
AU2003255735A AU2003255735A1 (en) | 2002-08-03 | 2003-08-01 | Conjugate of notch signalling pathway modulators and their use in medical treatment |
EP03766445A EP1525221A1 (en) | 2002-08-03 | 2003-08-01 | Conjugate of notch signalling pathway modulators and their use in medical treatment |
JP2004571915A JP2006515177A (en) | 2002-09-10 | 2003-09-09 | Pharmaceutical composition comprising Notch ligand protein and medical treatment |
CA002497226A CA2497226A1 (en) | 2002-09-10 | 2003-09-09 | Pharmaceutical compositions and medical treatments comprising notch ligand proteins |
AU2003267563A AU2003267563A1 (en) | 2002-09-10 | 2003-09-09 | Pharmaceutical composition and medical treatments comprising notch ligand proteins |
PCT/GB2003/003908 WO2004024764A1 (en) | 2002-09-10 | 2003-09-09 | Pharmaceutical composition and medical treatments comprising notch ligand proteins |
EP03748255A EP1537145A1 (en) | 2002-09-10 | 2003-09-09 | Pharmaceutical compositions and medical treatments comprising notch ligand proteins |
US10/845,834 US20050137130A1 (en) | 2001-11-14 | 2004-05-14 | Medical treatment |
US11/050,346 US20060002924A1 (en) | 2002-08-03 | 2005-02-03 | Conjugate of notch signalling pathway modulators and their use in medical treatment |
US11/078,735 US20050261477A1 (en) | 2002-09-10 | 2005-03-10 | Pharmaceutical compositions and medical treatments comprising notch ligand proteins |
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GB0127267A GB0127267D0 (en) | 2001-11-14 | 2001-11-14 | Medical treatment |
GB0127267.3 | 2001-11-14 | ||
GBPCT/GB02/03426 | 2002-07-25 | ||
PCT/GB2002/003426 WO2003011317A1 (en) | 2001-07-25 | 2002-07-25 | Modulators of notch signalling for use in immunotherapy |
GB0220849A GB0220849D0 (en) | 2002-09-07 | 2002-09-07 | Medical treatment |
GB0220849.4 | 2002-09-07 | ||
GB0220913.8 | 2002-09-10 | ||
GB0220913A GB0220913D0 (en) | 2002-09-10 | 2002-09-10 | Medical treatment |
PCT/GB2002/004390 WO2003029293A2 (en) | 2001-09-28 | 2002-09-27 | Modulators of notch ic protease activity for use in immunotherapy |
GBPCT/GB02/004390 | 2002-09-27 |
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US10/845,834 Continuation-In-Part US20050137130A1 (en) | 2001-11-14 | 2004-05-14 | Medical treatment |
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Cited By (19)
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WO2003087159A2 (en) * | 2002-04-05 | 2003-10-23 | Lorantis Limited | Modulators of the notch signalling pathway and uses thereof in medical treatment |
WO2004013179A1 (en) * | 2002-08-03 | 2004-02-12 | Lorantis Limited | Conjugate of notch signalling pathway modulators and their use in medical treatment |
WO2004024764A1 (en) * | 2002-09-10 | 2004-03-25 | Lorantis Limited | Pharmaceutical composition and medical treatments comprising notch ligand proteins |
WO2004060262A2 (en) * | 2003-01-07 | 2004-07-22 | Lorantis Limited | Modulators of notch signalling for use in immunotherpapy |
US20100316637A1 (en) * | 2006-09-29 | 2010-12-16 | Oncomed Pharmaceuticals, Inc. | Compositions and Methods for Diagnosing and Treating Cancer |
US7906116B2 (en) | 2005-09-01 | 2011-03-15 | Parkash Gill | Methods for using and identifying modulators of Delta-like 4 |
US8133857B2 (en) | 2006-03-07 | 2012-03-13 | The Brigham and Women's FHospital, Inc. | NOTCH inhibition in the treatment of atherosclerosis |
EP2610267A1 (en) * | 2006-12-18 | 2013-07-03 | Genentech, Inc. | Antagonist anti-Notch3 antibodies and their use in the prevention and treatment of Notch3-related diseases |
US8858941B2 (en) | 2011-09-23 | 2014-10-14 | Oncomed Pharmaceuticals, Inc. | VEGF/DLL4 binding agents and uses thereof |
US8883145B2 (en) | 2009-10-16 | 2014-11-11 | Oncomed Pharmaceuticals, Inc. | Methods of treatment with DLL4 antagonists and an anti-hypertensive agent |
US8889131B2 (en) | 2009-11-01 | 2014-11-18 | The Brigham And Women's Hospital, Inc. | NOTCH inhibition in the treatment and prevention of a metabolic disease or disorder and cardiovascular complications thereof |
US9433687B2 (en) | 2012-11-07 | 2016-09-06 | Pfizer Inc. | Anti-Notch3 antibodies and antibody-drug conjugates |
US9480744B2 (en) | 2010-09-10 | 2016-11-01 | Oncomed Pharmaceuticals, Inc. | Methods for treating melanoma |
US9567396B2 (en) | 2006-03-07 | 2017-02-14 | Evonik Degussa Gmbh | Notch inhibition in the prevention of vein graft failure |
US9599620B2 (en) | 2012-10-31 | 2017-03-21 | Oncomed Pharmaceuticals, Inc. | Methods and monitoring of treatment with a DLL4 antagonist |
WO2020016377A1 (en) | 2018-07-19 | 2020-01-23 | INSERM (Institut National de la Santé et de la Recherche Médicale) | Combination for treating cancer |
US11046760B2 (en) | 2014-10-31 | 2021-06-29 | Oncomed Pharmaceuticals, Inc. | Combination therapy for treatment of disease |
WO2022101481A1 (en) | 2020-11-16 | 2022-05-19 | INSERM (Institut National de la Santé et de la Recherche Médicale) | Methods and compositions for predicting and treating uveal melanoma |
US11339213B2 (en) | 2015-09-23 | 2022-05-24 | Mereo Biopharma 5, Inc. | Methods and compositions for treatment of cancer |
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JP2005518785A (en) | 2005-06-30 |
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