The role of the cytoplasmic domain in regulating CD44 function

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Aruffo, A., Stamenkovic, I., Melnick, M., Underhill, C. B. and Seed, B (1990). CD44 is the principal cell surface receptor for hyaluronate. Cell 61, 1303-1313.[Medline]

Belitsos, P. C., Hildreth, J. E. K. and August, J. T (1990). Homotypic cell aggregation induced by anti-CD44 (Pgp-1) monoclonal antibodies and related to CD44 (Pgp-1) expression. J. Immunol 144, 1661-1670.[Abstract]

Bosworth, B. T., St John, T., Gallatin, W. M. and Harp, J. A (1991). Sequence of the bovine CD44 cDNA: comparison with human and mouse sequences. Mol. Immunol 28, 1131-1135.[Medline]

Bourguignon, L. Y. W., Lokeshwar, V. B., Chen, X. and Kerrick, W. G. L (1993). Hyaluronic acid-induced lymphocyte signal transduction and HA receptor (GP85/CD44)-cytoskeletal interaction. J. Immunol 151, 6634-6644.[Abstract]

Bretscher, M. S., Thomson, J. N. and Pearse, B. M. F (1980). Coated pits act as molecular filters. Proc. Nat. Acad. Sci. USA 77, 4156-4159.[Abstract/Free Full Text]

Brown, T. A. and Rose, J. K (1992). Sorting of GPI-anchored proteins to glycolipid-enriched membrane subdomains during transport to the apical cell surface. Cell 68, 533-544.[Medline]

Bruynzeel, I., Koopman, G., van der Raaij, L. M. H., Pals, S. T. and Willemze, R (1993). CD44 antibody stimulates adhesion of peripheral blood T cells to keratinocytes through the leukocyte function-associated antigen-1/intercellular adhesion molecule-1 pathway. J. Inv. Dermatol 100, 424-428.[Medline]

Camp, R. L., Kraus, T. A. and Pure, E (1991). Variations in the cytoskeletal interaction and posttranslational modification of the CD44 homing receptor in macrophages. J. Cell Biol 115, 1283-1292.[Abstract/Free Full Text]

Carter, W. G. and Wayner, E. A (1988). Characterization of the class III collagen receptor, a phosphorylated transmembrane glycoprotein expressed in nucleated human cells. J. Cell Biol 263, 4193-4201.

Culty, M., Miyake, K., Kincade, P., Silorski, E., Butcher, E. C. and Underhill, C (1990). The hyaluronate receptor is a member of the CD44 (H-CAM) family of cell surface glycoproteins. J. Cell Biol 111, 2765-2774.[Abstract/Free Full Text]

Culty, M., Nguyen, H. A. and Underhill, C. B (1992). The hyaluronan receptor (CD44) participates in the uptake and degradation of hyaluronan. J. Cell Biol 116, 1055-1062.[Abstract/Free Full Text]

Faassen, A. E., Schrager, J. A., Klein, D. J., Oegema, T. R., Couchman, J. R. and McCarthy, J. B (1992). A cell surface chondroitin sulfate proteoglycan, immunologically related to CD44, is involved in type I collagen-mediated melanoma cell motility and invasion. J. Cell Biol 116, 521-531.[Abstract/Free Full Text]

Flanagan, B. F., Dalchau, R., Allen, A. K., Daar, A. S. and Fabre, J. W (1989). Chemical composition and tissue distribution of the human CDw44 glycoprotein. Immunology 67, 167-175.[Medline]

Goldstein, L. A., Zhou, D. F. H., Picker, L. J., Minty, C. N., Bargatze, R. F., Ding, J. F. and Butcher, E. C (1989). A human lymphocyte homing receptor, the Hermes antigen, is related to cartilage proteoglycan core and link proteins. Cell 56, 1063-1072.[Medline]

Goldstein, L. A. and Butcher, E. C (1990). Identification of mRNA that encodes an alternative form of H-CAM (CD44) in lymphoid and nonlymphoid tissues. Immunogenetics 32, 389-397.[Medline]

Gunthert, U., Hofmann, M., Rudy, W., Reber, S., Z\232ller, M., Haussmann, I., Matzku, S., Wenzel, A., Ponta, H. and Herrlich, P (1991). A new variant of glycoprotein CD44 confers metastatic potential to rat carcinoma cells. Cell 65, 13-24.[Medline]

He, Q., Lesley, J., Hyman, R., Ishihara, K. and Kincade, P. W (1992). Molecular isoforms of murine CD44 and evidence that the membrane proximal domain is not critical for hyaluronate recognition. J. Cell Biol 119, 1711-1719.[Abstract/Free Full Text]

Herrlich, P., Zoller, M., Pals, S. T. and Ponta, H (1993). CD44 splice variants: metastases meet lymphocytes. Immunol. Today 14, 395-399.[Medline]

Idzerda, R. L., Carter, W. G., Nottenberg, C., Wayner, E. A., Gallatin, W. M. and St. John, T (1989). Isolation and DNA sequence of a cDNA clone encoding a lymphocyte adhesion receptor for the high endothelium. Proc. Nat. Acad. Sci. USA 86, 4659-4663.[Abstract/Free Full Text]

Isacke, C. M., Sauvage, C. A., Hyman, R., Lesley, J., Schulte, R. and Trowbridge, I.S (1986). Identification and characterization of the human Pgp-1 glycoprotein. Immunogenetics 23, 326-332.[Medline]

Isacke, C. M., van der Geer, P., Hunter, T. and Trowbridge, I. S (1990). p180, a novel recycling transmembrane glycoprotein with restricted cell type expression. Mol. Cell. Biol 10, 2606-2618.[Abstract/Free Full Text]

Jacobson, K., O'Dell, D. and August, J. T (1984). Lateral diffusion of an 80,000-dalton glycoprotein in the plasma membrane of murine fibroblasts.: Relationships to cell structure and function. J. Cell Biol 99, 1624-1633.[Abstract/Free Full Text]

Jacobson, K., O'Dell, D., Holifield, B., Murphy, T. L. and August, J. T (1984). Redistribution of a major cell surface glycoprotein during cell movement. J. Cell Biol 99, 1613-1623.[Abstract/Free Full Text]

Jalkanen, S. and Jalkanen, M (1992). Lymphocyte CD44 binds the COOH-terminal heparin-binding domain of fibronectin. J. Cell Biol 116, 817-825.[Abstract/Free Full Text]

Kalomiris, E. L. and Bourguignon, L. Y. W (1988). Mouse T lymphoma cells contain a transmembrane glycoprotein (GP85) that binds ankyrin. J. Cell Biol 106, 319-327.[Abstract/Free Full Text]

Kennel, S. J., Lankford, T. K., Foote, L. J., Shinpock, S. G. and Stringer, C (1993). CD44 expression on murine tissues. J. Cell Sci 104, 373-382.[Abstract]

Knudson, C. B. and Knudson, W (1993). Hyaluronan-binding protein in development, tissue homeostasis, and disease. FASEB J 7, 1233-1241.[Abstract]

Lacy, B. E. and Underhill, C. B (1987). The hyaluronate receptor is associated with actin filaments. J. Cell Biol 105, 1395-1404.[Abstract/Free Full Text]

Lesley, J., Schulte, R. and Hyman, R (1990). Binding of hyaluronic acid to lymphoid cell lines is inhibited by monoclonal antibodies against Pgp-1. Exp. Cell Res 187, 224-233.[Medline]

Lesley, J., He, Q., Miyake, K., Hamann, A., Hyman, R. and Kincade, P. W (1992). Requirements for hyaluronic acid binding by CD44: a role for the cytoplasmic domain and activation by antibody. J. Exp. Med 175, 257-266.[Abstract/Free Full Text]

Lesley, J., Hyman, R. and Kincade, P. W (1993). CD44 and its interaction with extracellular matrix. Advan. Immunol 54, 271-335.[Medline]

Liao, H-X., Levesque, M. C., Patton, K., Bergamo, B., Jones, D., Moody, M. A., Telen, M. J. and Haynes, B. F (1993). Regulation of human CD44H and CD44E isoform binding to hyaluronan by phorbol myristate acetate and anti-CD44 monoclonal and polyclonal antibodies. J. Immunol 151, 6490-6499.[Abstract]

Lokeshwar, V. B. and Bourguignon, L. Y. W (1992). The lymphoma transmembrane glycoprotein GP85 (CD44) is a novel guanine nucleotide-binding protein which regulates GP85 (CD44)-ankyrin interaction. J. Biol. Chem 267, 22073-22078.[Abstract/Free Full Text]

Miettinen, H. M. and Jalkanen, M (1994). The cytoplasmic domain of syndecan-1 is not required for association with Triton X-100-insoluble material. J. Cell Sci 107, 1571-1581.[Abstract]

Murakami, S., Shimabukuro,Y., Miki, Y., Saho, T., Hino, E., Kasai, D., Nozaki, T., Kusumoto, Y. and Okada, H (1994). Inducible binding of human lymphocytes to hyaluronate via CD44 does not require cytoskeleton association but does require new protein synthesis. J. Immunol 152, 467-477.[Abstract]

Murphy, T. L., Decker, G. and August, J. T (1983). Glycoproteins of coated pits, cell junctions and the entire cell surface revealed by monoclonal antibodies and immunoelectron microscopy. J. Cell Biol 97, 533-541.[Abstract/Free Full Text]

Nagafuchi, A. and Takeichi, M (1988). Cell binding function of E-cadherin is regulated by the cytoplasmic domain. EMBO J 7, 3679-3684.[Medline]

Neame, S. J. and Isacke, C. M (1992). Phosphorylation of CD44 in vivo requires both Ser323 and Ser 325, but does not regulate membrane localization or cytoskeletal interaction in epithelial cells. EMBO J 11, 4733-4738.[Medline]

Neame, S. J. and Isacke, C. M (1993). The cytoplasmic tail of CD44 isrequired for basolateral localization in epithelial MDCK cells but does not mediate association with the detergent-insoluble cytoskeleton of fibroblasts. J. Cell Biol 121, 1299-1310.[Abstract/Free Full Text]

Nottenberg, C., Rees, G. and St John, T (1989). Isolation of mouse CD44 cDNA: structural features are distinct from the primate cDNA. Proc. Nat. Acad. Sci. USA 86, 8521-8525.[Abstract/Free Full Text]

Picker, L. J., Nakache, M. and Butcher, E. C (1989). Monoclonal antibodies to the human lymphocyte homing receptors define a novel class of adhesion molecules on diverse cell types. J. Cell Biol 109, 927-937.[Abstract/Free Full Text]

Rothman, B. L., Kennure, N., Kelley, K. A., Katz, M. and Aune, T. M (1993). Elevation of intracellular cAMP in human T lymphocytes by an anti-CD44 mAb. J. Immunol 151, 6036-6042.[Abstract]

Sastry, S. K. and Horwitz, A. F (1993). Integrin cytoplasmic domains: mediators of cytoskeletal linkages and extra-and intracellular initiated transmembrane signaling. Curr. Opin. Cell Biol 5, 819-831.[Medline]

Screaton, G. R., Bell, M. V., Jackson, D. G., Cornelis, F. B., Gerth, U. and Bell, J. I (1992). Genomic structure of DNA encoding the lymphocyte homing receptor CD44 reveals at least 12 alternative spliced exons. Proc. Nat. Acad. Sci. USA 89, 12160-12164.[Abstract/Free Full Text]

Stamenkovic, I., Amiot, M., Pesando, J. M. and Seed, B (1989). A lymphocyte molecule implicated in lymph node homing is a member of the cartilage link protein family. Cell 56, 1057-1062.[Medline]

Stamenkovic, I., Aruffo, A., Amiot, M. and Seed, B (1991). The hematopoietic and epithelial forms of CD44 are distinct polypeptides with different adhesion potentials for hyaluronate bearing cells. EMBO J 10, 343-348.[Medline]

Stappert, J. and Kemler, R (1993). Intracellular association of adhesion molecules. Curr. Opin. Neurobiol 3, 60-66.[Medline]

St. John, T., Meyer, J., Idzerda, R. and Gallatin, W. M (1990). Expression of CD44 confers a new adhesive phenotype on transfected cells. Cell 60, 45-52.[Medline]

Tarone, G., Ferracini, R., Galetto, G. and Comoglio, P (1984). A cell surface integral membrane glycoprotein of 85,000 mol wt (gp85) associated with the Triton X-100-insoluble cell skeleton. J. Cell Biol 99, 512-519.[Abstract/Free Full Text]

Tavernor, A. S., Deverson, E. V., Coadwell, W. J., Lunn, D. P., Zhang, C., Davis, W. and Butcher, G. W (1993). Molecular cloning of equine CD44 cDNA by a COS cell expression system. Immunogenetics 37, 474-477.[Medline]

Tsukita, S., Tsukita, S., Nagafuchi, A. and Yonemura, S (1992). Molecular linkage between cadherins and actin filaments in cell-cell adherens junctions. Curr. Opin. Cell Biol 4, 834-839.[Medline]

Thomas, L., Byers, R. H., Vink, J. and Stamenkovic, I (1992). CD44H regulates tumor migration on hyaluronate-coated surfaces. J. Cell Biol 118, 971-977.[Abstract/Free Full Text]

Wheatley, S. C., Isacke, C. M. and Crossley, P. H (1993). Restricted expression of the hyaluronan receptor, CD44, during postimplantation mouse embryogenesis suggests key roles in tissue formation and patterning. Development 119, 295-306.[Abstract]

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Articles by Isacke, C. M.

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				G. P. Dowthwaite, J. C. W. Edwards, and A. A. Pitsillides An Essential Role for the Interaction Between Hyaluronan and Hyaluronan Binding Proteins During Joint Development J. Histochem. Cytochem., May 1, 1998; 46(5): 641 - 652. [Abstract] [Full Text]

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				S. Neame, C. Uff, H Sheikh, S. Wheatley, and C. Isacke CD44 exhibits a cell type dependent interaction with triton X-100 insoluble, lipid rich, plasma membrane domains J. Cell Sci., January 9, 1995; 108(9): 3127 - 3135. [Abstract] [PDF]

				A Perschl, J Lesley, N English, R Hyman, and I. Trowbridge Transmembrane domain of CD44 is required for its detergent insolubility in fibroblasts J. Cell Sci., January 3, 1995; 108(3): 1033 - 1041. [Abstract] [PDF]