Abstract: The present invention relates, in general, to an extracellular signal regulated kinase, ERK-5.

Abstract: A method of treating a human patient via active immunotherapy comprising administrating an effective amount of extracellular portion of human HER2 receptor to the patient wherein the method provokes a cell-mediated immune response to HER2 receptor in the patient treated therewith.

Abstract: The present invention relates to a novel polypeptide, PTP20, and to nucleic acid molecules encoding the polypeptide. The invention also relates to nucleic acid molecules encoding portions of the phosphatase, nucleic acid vectors containing PTP20 related nucleic acid molecules, recombinant cells containing such nucleic acid vectors, polypeptides purified from such recombinant cells, antibodies to such polypeptides, and methods of identifying compounds that bind PTP20 or abrogate its interactions with natural binding partners. Also disclosed are methods for diagnosing abnormal conditions in an organism with PTP20 related molecules or compounds.

Abstract: The present invention concerns compounds which can inhibit platelet derived growth factor receptor (PDGF-R) activity, preferably such compounds also inhibit the activity other members of the PDGF-R super family and are selective for members of the PDGF-R super family. The PDGF-R super family includes PDGF-R and PDGF-R related kinases Flt, and KDR. The featured compounds are active on cell cultures to reduce the activity of the PDGF-R and preferably one or more PDGF-R related kinases. An example of a featured compound, A10 (see FIG. 1a), and its ability to inhibit growth of tumor cells in vivo is described below. Using the present application as guide other compounds able to inhibit PDGF-R and preferably Flt and/or KDR can be obtained. Such compounds are preferably used to treat patients suffering from cell proliferative disorders characterized by inappropriate PDGF-R activity.

Abstract: A novel protein tyrosine phosphatase is the protein designated PTP 1D. The PTP 1D protein may be produced by recombinant means, for example using a nucleic acid construct encoding the protein as provided herein. Also disclosed is an antibody specific for an epitope of PTP 1D, protein. Methods for identifying compounds which bind to a PTP 1D protein and inhibit or stimulate its enzymatic activity, pharmaceutical compositions comprising PTP 1D, and methods for treating a disease associated with PTP 1D protein using such compositions, are provided.

Abstract: The present invention concerns compounds which can inhibit platelet derived growth factor receptor (PDGF-R) activity, preferably such compounds also inhibit the activity other members of the PDFG-R superfamily and are selective for members of the PDGF-R superfamily. The PDGF-R superfamily includes PDGF-R and PDGF-R related kinases Flt, and KDR. The featured compounds are active on cell cultures to reduce the activity of the PDGF-R and preferably one or more PDGF-R related kinases. An example of a featured compound, A10 (see FIG. 1a), and its ability to inhibit growth of tumor cells in vivo is described below. Using the present application as guide other compounds able to inhibit PDGF-R and preferably Flt and/or KDR can be obtained. Such compounds are preferably used to treat patients suffering from cell proliferative disorders characterized by inappropriate PDGF-R activity.

Abstract: For the determination of the activity of a specific protein tyrosine phosphatase (PTPase) in intact cells one incubates intact cells which contain a substrate of the specific PTPase, if desired after stimulating the substrate phosphorylation, with a substance which can penetrate into the intact cells and can selectively inhibit phosphorylation of the substrate, the degree of phosphorylation of the substrate is measured, if desired several times, at various time points and the activity of the specific PTPase is determined from the measured degree of phosphorylation of the substrate. An additional measurement is carried out in the presence of a test substance to determine effectors of the specific PTPase and the effector action of the test substance is determined by comparing the degrees of phosphorylation.

Abstract: The present invention relates to PTP-D1, a member of the novel PTP-D subfamily of protein tyrosine phosphatases. The present invention is directed to isolated PTP-D1 protein, nucleic acid constructs encoding for PTP-D1, cells containing the nucleic acid constructs, and methods for production and identification of PTP-D1. Antibodies to PTP-D1 protein and methods for screening molecules which can bind to PTP-D1 protein or inhibit or stimulate the protein-tyrosine phosphatase enzymatic activity of PTP-D1, are also provided.

Abstract: A novel protein tyrosine phosphatase designated PTP-S31 and its subfamily are identified, as are nucleic acid molecule coding therefor. Included in this family are PTP-S31 proteins or glycoproteins having one, two, or three identified amino acid changes in previously defined consensus sequences in the catalytic phosphatase domains of known protein tyrosine phosphatases. The PTP-S31 proteins or glycoproteins may be produced by recombinant means. Antibodies to PTP-S31 proteins or glycoproteins and nucleic acid constructs coding therefor, and methods for screening molecules which can bind to PTP-S31 proteins or glycoproteins and inhibit or stimulate their enzymatic activity, are provided.

Abstract: The present invention relates to TKA-1 polypeptides, nucleic acids encoding such polypeptides, cells, tissues and animals containing such nucleic acids, antibodies to such polypeptides, assays utilizing such polypeptides, and methods relating to all of the foregoing. Methods for treatment, diagnosis, and screening are provided for TKA-1 related diseases or conditions characterized by an abnormal interaction between a TKA-1 polypeptide and a TKA-1 binding partner.

Abstract: The present invention concerns compounds which can inhibit platelet derived growth factor receptor (PDGF-R) activity, preferably such compounds also inhibit the activity other members of the PDGF-R super family and are selective for members of the PDGF-R super family. The PDGF-R super family includes PDGF-R and PDGF-R related kinases Flt, and KDR. The featured compounds are active on cell cultures to reduce the activity of the PDGF-R and preferably one or more PDGF-R related kinases. An example of a featured compound, A10 (see FIG. 1a), and its ability to inhibit growth of tumor cells in vivo is described below. Using the present application as guide other compounds able to inhibit PDGF-R and preferably Flt and/or KDR can be obtained. Such compounds are preferably used to treat patients suffering from cell proliferative disorders characterized by inappropriate PDGF-R activity.

Abstract: The present invention relates to TKA-1 polypeptides, nucleic acids encoding such polypeptides, cells, tissues and animals containing such nucleic acids, antibodies to such polypeptides, assays utilizing such polypeptides, and methods relating to all of the foregoing. Methods for treatment, diagnosis, and screening are provided for TKA-1 related diseases or conditions characterized by an abnormal interaction between a TKA-1 polypeptide and a TKA-1 binding partner.

Abstract: The present invention relates to TKA-1 polypeptides, nucleic acids encoding such polypeptides, cells, tissues and animals containing such nucleic acids, antibodies to such polypeptides, assays utilizing such polypeptides, and methods relating to all of the foregoing. Methods for treatment diagnosis, and screening are provided for TKA-1 related diseases or conditions characterized by an abnormal interaction between a TKA-1 polypeptide and a TKA-1 binding partner.

Abstract: A novel receptor-type protein tyrosine phosphatase-.kappa. (RPTP.kappa.) protein or glycoprotein and the DNA coding therefor is expressed in a wide variety of mammalian tissues. The RPTP.kappa. protein or glycoprotein may be produced by recombinant means. Antibodies to the protein, methods for measuring the quantity of the protein, methods for screening compounds, such as drugs, which can bind to the protein and inhibit or stimulate their enzymatic activity, are provided. Further, methods for inhibiting homophilic binding of Type II RPTP, especially RPTP.kappa. molecules are provided.

Abstract: The present invention relates to novel modalities of treatment of diabetes, and other diseases caused by dysfunctional signal transduction by insulin receptor type tyrosine kinases (IR-PTK). Applicants discovered that IR-PTK activity may be modified by modulating the activity of a tyrosine phosphatase, and IR-PTK signal transduction may be triggered even in the absence of ligand. Methods for identifying compounds that, by modulating RPTP.alpha. or RPTP.epsilon. activity, elicit or modulate insulin receptor signal transduction are also described.

Abstract: The present invention relates to cell lines useful for the screening and identification of compounds that by modulating phosphotyrosine phosphatase activity, modulate insulin receptor type tyrosine kinase mediated signal transduction. Genetically engineered cells expressing IR in culture overcome the effect of insulin on morphology and adhesion when they are also coexpressing RPTP.alpha. or RPTP.epsilon.. Such engineered cell lines may be used to screen and identify non-toxic compounds that could elicit or modulate insulin signal transduction even in the absence of insulin.

Abstract: A novel receptor-type protein tyrosine phosphatase-.kappa. (RPTP.kappa.) protein or glycoprotein and the DNA coding therefor is expressed in a wide variety of mammalian tissues. The RPTP.kappa. protein or glycoprotein may be produced by recombinant means. Antibodies to the protein, methods for measuring the quantity of the protein, methods for screening compounds, such as drugs, which can bind to the protein and inhibit or stimulate their enzymatic activity, are provided. Further, methods for inhibiting homophilic binding of Type II RPTP, especially RPTP.kappa. molecules are provided.

Abstract: The present invention relates to the use of ligands for the FLK-1 receptor for the modulation of angiogenesis and vasculogenesis. The invention is based, in part, on the demonstration that Flk-1 tyrosine kinase receptor expression is associated with endothelial cells and the identification of vascular endothelial growth factor (VEGF) as the high affinity ligand of Flk-1. These results indicate a major role for Flk-1 in the signaling system during vasculogenesis and angiogenesis. Engineering of host cells that express Flk-1 and the uses of expressed Flk-1 to evaluate and screen for drugs and analogs of VEGF involved in Flk-1 modulation by either agonist or antagonist activities is described. The invention also relates to the use of FLK-1 ligands, including VEGF agonists and antagonists, in the treatment of disorders, including cancer, by modulating vasculogenesis and angiogenesis.

Abstract: The present invention relates to PTP-D1, a member of the novel PTP-D subfamily of protein tyrosine phosphatases. The present invention is directed to isolated PTP-D1 protein, nucleic acid constructs encoding for PTP-D1, cells containing the nucleic acid constructs, and methods for production and identification of PTP-D1. Antibodies to PTP-D1 protein and methods for screening molecules which can bind to PTP-D1 protein or inhibit or stimulate the protein-tyrosine phosphatase enzymatic activity of PTP-D1, are also provided.

Abstract: A method of inhibiting growth of tumor cells which overexpress a growth factor receptor or growth factor by treatment of the cells with antibodies which inhibit the growth factor receptor function, is disclosed. A method of treatment tumor cells with antibodies which inhibit growth factor receptor function, and with cytotoxic factor(s) such as tumor necrosis factor, is also disclosed. By inhibiting growth factor receptor functions tumor cells are rendered more susceptible to cytotoxic factors.