Chemistry: molecular biology and microbiology – Animal cell – per se ; composition thereof; process of...
Patent
1997-09-02
1999-10-19
Prouty, Rebecca E.
Chemistry: molecular biology and microbiology
Animal cell, per se ; composition thereof; process of...
536 231, 536 232, 4353201, 4352523, 435200, C12N 1556, C12N 510, C12N 1563, C12N 924
Patent
active
059688220
ABSTRACT:
A polynucleotide (hpa) encoding a polypeptide having heparanase activity, vectors including same, transduced cells expressing heparanase and a recombinant protein having heparanase activity.
REFERENCES:
patent: 5362641 (1994-11-01), Fuks et al.
patent: 5571506 (1996-11-01), Regan et al.
Goshen et al, "Purification and Characterization of Placental Heparanase and its Expression by Cultured Cytotrophoblats", Molecular Huiman Reproduction, 2(9): 679-684, 1996.
Bar-Ner et al, "Inhibition of Heparanase-Mediated Degradatin of Extracellular Matrix Heparan Sulphate by Non-anticoagulant Heparin Species", Blood, 70(2): 551-557, 1987.
Savitsky et al, "Ataxia-Telangiectasia: Structural Diversity of Untranslated Sequences Suggests Complex Post-Transcriptional Regulation of ATM Gene Expression", Nucleic Acids Research, 25(9): 1678-1684 (1997).
Haimovitz-Friedman et al, "Activation of Platelet Heparitanase by Tumor Cell-Derived Factors", Blood, 78: 789-796, 1991.
Gospodarowicz et al, Stimulation of Corneal Endothelial Cell Proliferation in vitro by Fibroblast and Epidemal Growth Factors, Exp. Eye Res., 25: 75-89, 1977.
Ernst et al, "Enzymsatic degradation of Glycosaminoglycans", Crit. Rev. In Biochem. & Molec. Biology, 30(5): 387-444, 1995.
Zhong-Sheng et al, "Role of Heparan Sulfate Proteoglycans in the Binding and Uptake of Apoliprotein E-enriched Remnant Lipoproteins by Cultured Cells", J. Biol. Chem., 268(14): 10160-10167, 1993.
R. Ross, "The Pathogenesis of Atheroscerosis: A Perspective for the 1990s", Nature, 362: 801-809, (1993).
1993 Putnak et al, "A Putative Cellular Receptor for Dengue Viruses", Nature Medicine, 3(8): 828-829, 1997.
Cordon-Cardo et al, "Expression of Basic Fibroblast Growth Factor in Normal Human Tissues", Laboratory Investigation, 63(6): 832-840, 1990.
Narindrasorasak et al, "High Affinity Interactions between the Alzheimer's .beta.-Amyloid Precursor Proteins and the Basement Membrane Form of Heparan Sulfate Proteoglycan", J. Biol. Chem., 266 (20): 12878-12883, 1991.
Chen et al, "Dengue Virus Infectivity Depends opn Envelope Proteion Bin to Target Cell Heparan Sulfate", Nature Medicine, 3(8): 866-871, 1997.
Shieh et al, "Cell Surface Receptors for Herpes Simplex Virus are Heparan Sulfate Proteoglycan Proteoglycans", J. Cell Biol., 116(5): 1273-1281, 1992.
Eisenberg et al, "Liposprotein Lipase Enhances Binding of Lipoproteins to Heparan Sulfate on Cell Surfaces and Extracellular Matrix", J. Clin. Invest., 90: 2013-2021, 1992.
Rapraeger et al, "Requirement of Heparan Sulfate for bFGF-Mediated Fibroblast Growth and Myoblast Differentiation", Science, 252: 1705-1708, 1991.
Lider et al, "A Disaccharide that Inhibits Tumor Necrosis Factor .alpha. is Formed from the Extracellular Matrix by the Enzyme Heparanase", Proc. Natl. Acad. Sci. USA, 92:5037-5041, 1995.
Lider et al, "Suppression of Experimental Autoimmune Diseases and Prolongation of Allograft Survival by Treatment of Animals with Low Doses of Heparins", J. Clin. Invest., 83: 752-756, 1989.
Gitay-Goren et al, "The Binding of Vascular Endothelial Growth Factor to its Receptors is Dependent on Cell Surface-associated Heparin-like Molecules", J. Biol. Chem., 267(9): 6093-6098, 1992.
Ornitz et al, "FGF Binding and FGF Receptor Activation by Synthetic Heparin Derived Di-and Trisaccharides", Science, 268: 432-436, 1995.
Spivak-Kroizman et al, "Heparin-Induced Oligomerization of FGF Molecules is Responsible for FGF Receptor Dimerization, Activation, and Cell Proliferation", Cell, 79: 1015-1024, 1994.
Yayon et al, "Cell Surface, Heparin-Like Molecules are required for Binding of Basic Fibroblast Growth Factor to its High Affinity Receptor", Cell, 64: 841-848, 1991.
Vlodavsky et al, "Extracellular Matrix-Bound Growth Factors, Enzymes, and Plasma Proteins", Basic Membranes: Cellular and Molecular Aspects (eds. Rohrbach & Timpl) pp. 327-343, Academic Press, Orlasndo, Fla., 1993.
Vlodavsky et al, "Extracellular Sequestration and release of Fibroblast Growth Factor: A Regulatory Mechanism?", Trends Biochem. Sci., 16: 268-271, 1991.
Ishai-Michaeli et al, "Heparanase Activity Expressed by Platelets, Neutrophils, and Lymphoma Cells releases Active Fibroblast Growth Factor from ExtraCellular Matrix", Cell Regulation, 1: 833-842, 1990.
Ishai-Michaeli et al, "Importance of Size and Sulfatiuon of Heparin in Release of Basic Fibroblast Growth Factor from the Vascular Endothelium and ExtraCellular Matrix", Biochemistry, 31(7): 2080-2088, 1992.
Folkman et al, "Heparin-Binding Angiogenic Protein--Basic Fibroblast Growth Factor--is Stored Within Basement Membrane", Am. J. Pathology, 130(2): 393-400, 1988.
Vlodavsky et al, "Endothelial Cell-Derived Basic Fibroblast Growth Factor: Synthesis and Deposition into Subendothelial ExtraCellular Matrix", Proc. Natl. Acad. Sci. USA, 84: 2292-2296, 1987.
Folkman et al, "Angiogenic Factors", Science, 235: 442-447, 1987.
Burgess et al, "The Heparin-Binding (Fibroblast) Growth Factor Family of Proteins", Annu. Rev. Biochem., 58:575-606, 1989.
Vlodavsky et al, "Involvement of the ExtraCellular Matrix, Heparin Sulfate Proteoglycans, and Heparin Sulfate Degrading Enzymes in Angiogenesis and Metastis", In: Tumor Angeogenesis, Eds. Lewis et al, Oxford Univ. Press, pp. 125-140, 1997.
Parish et al, "Evidence that Sulfated Polysaccharides Inhibit Tumor Metastis by Blocking Tumor-Cell-Derived Heparanases", Int. J. Cancer, 40: 511-518, 1987.
Bashkin et al, "Basic Fibroblast Growth Factor Binds to Subendothlial ExtraCellular Matrix and is Released by Heparitanase and Heparin-Like Molecules", Biochemistry, 28:1737-1743, 1989.
Gospodarowicz et al, "Permissive effect of the ExtraCellular Matrix on Cell Proliferation in vitro", Proc. Natl. Acad. Sci. USA, 77(7): 4094-4098, 1980.
Vlodavsky et al, "Morphological Appearance, Growth Bhavior and Migratory Activity of Human Tumor Cells Maintained on ExtraCellular Matrix Versus Plastic", Cell, 19: 607-616, 1980.
Vlodavsky et al, "Involvement of Heparanase in Tumor Metastis and Angiogenesis", Israel J. Med. Sci., 24: 464-470, 1988.
Vlodavsky et al, "Lymphoma Cell-nediated Degradation of Sulfated Proteoglycans in the Subendothelial ExtraCellular Matrix: Relationship to Tumor Cell Metastis", Cancer Research, 43: 2704-2711, 1983.
Liotta et al, "Tumor Invasion and the ExtraCellular Matrix", Lab. Inv., 49(6): 636-649, 1983.
Nicolson, G.L., "Organ Specificity of Tumor Metastis: Role of Preferential Adhesion, invasion and growth of Malignant Cells at Specific Secondary Sites", Cancer Met. Rev., 7: 143-188, 1988.
Nakajima et al, "Heparanases and Tumor Metastis", J. Cell. Biochem., 36: 157-167, 1988.
Vlodavsky et al, "Inhibition of Tumor Metastis Inhibiting Species of Heparin", Inv. Metast., 14: 290-302, 1994.
Vlodavsky et al, "Expression of Heparanases by Platelets and Circulating Cells of the Immune System: Possible Involvement in Diapedesis and Extravasation", Inv. Metast, 12: 112-127, 1992.
Ruoslahti et al, "Proteoglycans as Modulators of Growth Factor Activities", Cell, 64: 867-869, 1991.
Kjellen et al, "Proteoglycans: Structures and Interactions", Annu. Rev. Biochem., 60: 443-475, 1991.
Wight, T.N., "Cell Biology of Arterial Proteoglycans", Arteriosclerosis, 9: 1-20, 1989.
Jackson, et al, "Glycosaminoglycans: Molecular Properties, Protein Interactions, and Role in Phsiological Processes", Physiological Rev., 71(2): 481-539, 1991.
Wight et al, "The Role of Proteoglycans in Cell Adhesion, Migration and Proliferation", Curr. Opin. Cell Biol., 4: 793-801, 1992.
Feinstein Elena
Pecker Iris
Vlodavsky Israel
Friedman Mark M.
Prouty Rebecca E.
LandOfFree
Polynucleotide encoding a polypeptide having heparanase activity does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Polynucleotide encoding a polypeptide having heparanase activity, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Polynucleotide encoding a polypeptide having heparanase activity will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2054937