Hrs interacts with SNAP-25 and regulates Ca(2+)-dependent exocytosis

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Aguado, F., Majo, G., Ruiz-Montasell, B., Canals, J. M., Casanova, A., Marsal, J. and Blasi, J (1996). Expression of synaptosomal-associated protein SNAP-25 in endocrine anterior pituitary cells. Eur. J. Cell Biol 69, 351-359.[Medline]

Araki, S., Tamori, Y., Kawanishi, M., Shinoda, H., Masugi, J., Mori, H., Niki T., Okazawa H., Kubota T. and Kasuga M (1997). Inhibition of the binding of SNAP-23 to syntaxin 4 by Munc18c. Biochem. Biophys. Res. Commun 234, 257-262.[Medline]

Asao, H., Sasaki, Y., Arita, T., Tanaka, N., Endo, K., Kasai, H., Takeshita, T., Endo, Y., Fujita, T. and Sugamura, K (1997). Hrs is associated with STAM, a signal-transducing adaptor molecule. Its suppressive effect on cytokine-induced cell growth. J. Biol. Chem 272, 32785-32791.[Abstract/Free Full Text]

Banerjee, A., Kowalchyk, J. A., DasGupta, B. R. and Martin, T. F. J (1996). SNAP-25 is required for a late postdocking step in Ca2+-dependent exocytosis. J. Biol. Chem 271, 20227-20230.[Abstract/Free Full Text]

Barrie, A., Chieregatti, E., Miloso, M., Benfenati, F. and Valtorta, F (1996). Epidermal growth factor-mediated inhibition of neurotransmitter glutamate release from rat forebrain synaptosomes. Mol. Pharmacol 49, 399-403.[Abstract]

Bauerfeind, R., Regnier-Vigoroux, A., Flatmark, T. and Huttner, W. B (1993). Selective storage of acetylcholine, but not catecholamines, in neuroendocrine synaptic-like microvesicles of early endosomal origin. Neuron 11, 105-121.[Medline]

Bean, A. J., Seifert, R., Chen, Y. A., Sacks, R. and Scheller, R. H (1997). Hrs-2 is an ATPase implicated in calcium-regulated secretion. Nature 385, 826-829.[Medline]

Berninger, B. and Poo, M.-m (1996). Fast actions of neurotrophic factors. Cur. Opin. Neurobiol 6, 324-330.[Medline]

Binz, T., Blasi, J., Yamasaki, S., Baumeister, A., Link, E., Sudhof, T. C., Jahn, R. and Niemann, H (1994). Proteolysis of SNAP-25 by types E and A botulinal neurotoxins. J. Biol. Chem 269, 1617-1620.[Abstract/Free Full Text]

Browning, K. S., Lax, S. R., Humphreys, J., Ravel, J. M., Jobling, S. A. and Gehrke, L (1988). Evidence that the 5-untranslated leader of mRNA affects the requirement for wheat germ initiation factors 4A, 4F, and 4G. J. Biol. Chem 263, 9630-9634.[Abstract/Free Full Text]

Cameron, P. L., Sudhof, T. C., Jahn, R. and De Camilli, P (1991). Colocalization of synaptophysin with transferrin receptors: implications for synaptic vesicle biogenesis. J. Cell Biol 115, 151-164.[Abstract/Free Full Text]

Chamberlain, L. H. and Burgoyne, R. D (1997). The molecular chaperone function of the secretory vesicle cysteine string proteins. J. Biol. Chem 272, 31420-31426.[Abstract/Free Full Text]

Chilcote, T. J., Galli, T., Mundigl, O., Edelmann, L., McPherson, P. S., Takei, K. and De Camilli, P (1995). Cellubrevin and synaptobrevins: similar subcellular localization and biochemical properties in PC12 cells. J. Cell Biol 129, 219-231.[Abstract/Free Full Text]

Chin,L.-S., Nugent, R. D., Raynor, M. C., Vavalle, J. P. and Li, L (2000). SNIP, a novel SNAP-25-interacting protein implicated in regulated exocytosis. J. Biol. Chem 275, 1191-1200.[Abstract/Free Full Text]

Cohen, G. B., Ren, R. and Baltimore, D (1995). Modular binding domains in signal transduction proteins. Cell 80, 237-248.[Medline]

Einbond, A. and Sudol, M (1996). Towards prediction of cognate complexes between the WW domain and proline-rich ligands. FEBS Lett 384, 1-8.[Medline]

Foster, L. J., Yeung, B., Mohtashami, M., Ross, K., Trimble, W. S. and Klip, A (1998). Binary interactions of the SNARE proteins syntaxin-4, SNAP23, and VAMP-2 and their regulation by phosphorylation. Biochemistry 37, 11089-11096.[Medline]

Fujita, Y., Shirataki, H., Sakisaka, T., Asakura, T., Ohya, T., Kotani, H., Yokoyama, S., Nishioka, H., Matsuura, Y., Mizoguchi, A., Scheller, R. H. and Takai Y (1998). Tomosyn: a syntaxin-1-binding protein that forms a novel complex in the neurotransmitter release process. Neuron 20, 905-915.[Medline]

Gaullier, J. M., Simonsen, A., D'Arrigo, A., Bremnes, B., Stenmark, H. and Aasland, R (1998). FYVE fingers bind PtdIns(3)P. Nature 394, 432-433.[Medline]

Greene, L. A. and Rein, G (1977). Release, storage and uptake of catecholamines by a clonal cell line of nerve growth factor (NGF) responsive pheochromocytoma cells. Brain Res 129, 247-263.[Medline]

Guo, Z., Turner, C. and Castle, D (1998). Relocation of the t-SNARE SNAP-23 from lamellipodia-like cell surface projections regulates compound exocytosis in mast cells. Cell 94, 537-548.[Medline]

Huttner, W. B., Schiebler, W., Greengard, P. and De Camilli, P (1983). Synapsin I (protein I), a nerve terminal-specific phosphoprotein. III. Its association with synaptic vesicles studied in a highly purified synaptic vesicle preparation. J. Cell Biol 96, 1374-1388.[Abstract/Free Full Text]

Huttner, W. B., Gerdes, H. H. and Rosa, P (1991). The granin (chromogranin/secreto-granin) family. Trends Biochem. Sci 16, 27-30.[Medline]

Iwai, A., Masliah, E., Yoshimoto, M., Ge, N., Flanagan, L., de Silva, H. A., Kittel, A. and Saitoh, T (1995). The precursor protein of non-A beta component of Alzheimer's disease amyloid is a presynaptic protein of the central nervous system. Neuron 14, 467-475.[Medline]

Jacobsson, G. and Meister, B (1996). Molecular components of the exocytotic machinery in the rat pituitary gland. Endocrinology 137, 5344-5356.[Abstract]

Jahn, R. and Sudhof. T. C (1999). Membrane fusion and exocytosis. Annu. Rev. Biochem 68, 863-911.[Medline]

Jobling, S. A. and Gehrke, L (1987). Enhanced translation of chimaeric messenger RNAs containing a plant viral untranslated leader sequence. Nature 325, 622-625.[Medline]

Kjeldgaard, M., Nyborg, J. and Clark, B. F (1996). The GTP binding motif: variations on a theme. FASEB J 10, 1347-1368.[Abstract]

Komada, M. and Kitamura, N (1995). Growth factor-induced tyrosine phosphorylation of Hrs, a novel 115-kilodalton protein with a structurally conserved putative zinc finger domain. Mol. Cell Biol 15, 6213-6221.[Abstract]

Komada, M. Masaki, R., Yamamoto, A. and Kitamura, N (1997). Hrs, a tyrosine kinase substrate with a conserved double zinc finger domain, is localized to the cytoplasmic surface of early endosomes. J. Biol. Chem 272, 20538-20544.[Abstract/Free Full Text]

Komada, M. and Soriano, P (1999). Hrs, a FYVE finger protein localized to early endosomes, is implicated in vesicular traffic and required for ventral folding morphogenesis. Genes Dev 13, 1475-1485.[Abstract/Free Full Text]

Kutateladze, T. G., Ogburn, K. D., Watson, W. T., de Beer, T., Emr, S. D., Burd, C. G. and Overduin M (1999). Phosphatidylinositol 3-phosphate recognition by the FYVE domain. Mol. Cell 3, 805-811.

Li, L., Suzuki, T., Mori, N. and Greengard, P (1993). Identification of a functional silencer element involved in neuron-specific expression of the synapsin I gene. Proc. Natl. Acad. Sci. USA 90, 1460-1464.[Abstract/Free Full Text]

Li, X.-J., Li, S-H., Sharp, A. H., Nuclfora, F. C. Jr., Schilling, G., Lanahan, A., Worley, P., Snyder, S. H. and Ross, C. A (1995). A huntingtin-associated protein enriched in brain with implications for pathology. Nature 378, 398-402.[Medline]

Linstedt, A. D., Vetter, M. L., Bishop, J. M. and Kelly, R. B (1992). Specific association of the proto-oncogene product pp60c-src with an intracellular organelle, the PC12 synaptic vesicle. J. Cell Biol 117, 1077-1084.[Abstract/Free Full Text]

Liu, Y. and Edwards, R. H (1997). Differential localization of vesicular acetylcholine and monoamine transporters in PC12 cells but not CHO cells. J. Cell Biol 139, 907-916.[Abstract/Free Full Text]

Lohi, O. and Lehto, V. P (1998). VHS domain marks a group of proteins involved in endocytosis and vesicular trafficking. FEBS Lett 440, 255-257.[Medline]

Lu, L., Komada, M. and Kitamura, N (1998). Human Hrs, a tyrosine kinase substrate in growth factor-stimulated cells: cDNA cloning and mapping of the gene to chromosome 17. Gene 213, 125-132.[Medline]

Lupas, A., Van Dyke, M. and Stock, J (1991). Predicting coiled coils from protein sequences. Science 252, 1162-1164.[Medline]

Misra, S. and Hurley, J. H (1999). Crystal structure of a phosphatidylinositol 3-phosphate-specific membrane-targeting motif, the FYVE domain of Vps27p. Cell 97, 657-666.[Medline]

Nickel, W., Weber, T., McNew, J. A., Parlati, F., Sollner, T. H. and Rothman, J. E (1999). Content mixing and membrane integrity during membrane fusion driven by pairing of isolated v-SNAREs and t-SNAREs. Proc. Natl. Acad. Sci. USA 96, 12571-12576.[Abstract/Free Full Text]

Okamoto, M., Schoch, S. and Sudhof, T. C (1999). EHSH1/intersectin, a protein that contains EH and SH3 domains and binds to dynamin and SNAP-25. A protein connection between exocytosis and endocytosis?. J. Biol. Chem 274, 18446-18454.[Abstract/Free Full Text]

Orita, S., Sasaki, T., Komuro, R., Sakaguchi, G., Maeda, M., Igarashi, H. and Takai, Y (1996). Doc2 enhances Ca2+-dependent exocytosis from PC12 cells. J. Biol. Chem 271, 7257-7260.[Abstract/Free Full Text]

Oyler, G. A, Higgins, G. A., Hart, R. A., Battenberg, E., Billingsley, M., Bloom, F. E. and Wilson, M. C (1989). The identification of a novel synaptosomal-associated protein, SNAP-25, differentially expressed by neuronal subpopulations. J. Cell. Biol 109, 3039-3052.[Abstract/Free Full Text]

Piper, R. C., Cooper, A. A., Yang, H. and Stevens, T. H (1995). VPS27 controls vacuolar and endocytic traffic through a prevacuolar compartment in Saccharomyces cerevisiae. J. Cell Biol 131, 603-617.[Abstract/Free Full Text]

Ravichandran, V., Chawla, A. and Roche, P. A (1996). Identification of a novel syntaxin-and synaptobrevin/VAMP-binding protein, SNAP-23, expressed in non-neuronal tissues. J. Biol. Chem 271, 13300-13303.[Abstract/Free Full Text]

Reinstein, J., Schlichting, I. and Wittinghofer, A (1990). Structurally and catalytically important residues in the phosphate binding loop of adenylate kinase of Escherichia coli. Biochemistry 29, 7451-7459.[Medline]

Rossi, G., Salminen, A., Rice, L. M., Brunger, A. T. and Brennwald, P (1997). Analysis of a yeast SNARE complex reveals remarkable similarity to the neuronal SNARE complex and a novel function for the C-terminus of the SNAP-25 homolog, Sec9. J. Biol. Chem 272, 16610-16617.[Abstract/Free Full Text]

Rothman J. E (1994). Mechanisms of intracellular protein transport. Nature 372, 55-63.[Medline]

Sadoul, K., Berger, A., Niemann, H., Weller, U., Roche, P. A., Klip, A., Trimble, W. S., Regazzi, R., Catsicas, S. and Halban, P. A (1997). SNAP-23 is not cleaved by botulinum neurotoxin E and can replace SNAP-25 in the process of insulin secretion. J. Biol. Chem 272, 33023-33027.[Abstract/Free Full Text]

Saraste, M., Sibbald, P. R. and Wittinghofer, A (1990). The P-loop \320 a common motif in ATP-and GTP-binding proteins. Trends Biochem. Sci 15, 430-434.[Medline]

Schiavo, G., Rosetto, O., Catsicas, S., Polverino de Laureto, P., DasGupta, B. R., Benfenati, F. and Montecucco, C (1993). Identification of the nerve terminal targets of botulinus neurotoxin serotypes A, D, and E. J. Biol. Chem 268, 23784-23787.[Abstract/Free Full Text]

Schweitzer, E. S. and Kelly, R. B (1985). Selective packaging of human growth hormone into synaptic vesicles in a rat neuronal (PC12) cell line. J. Cell Biol 101, 667-676.[Abstract/Free Full Text]

Selden, R. F., Howie, K. B., Rowe, M. E., Goodman, H. M. and Moore, D. D (1986). Human growth hormone as a reporter gene in regulation studies employing transient gene expression. Mol Cell. Biol 6, 3173-3179.[Abstract/Free Full Text]

S\232llner, T., Whiteheart, S. W., Brunner, M., Erdjument-Bromage, H., Geromanos, S., Tempest, P. and Rothman J (1993). SNAP receptors implicated in vesicle targeting and fusion. Nature 362, 318-324.[Medline]

Stenmark, H., Aasland, R., Toh, B-H. and D'Arrigo, A (1996). Endosomal localization of the autoantigen EEA1 is mediated by a zinc-binding FYVE finger. J. Biol. Chem 271, 24048-24054.[Abstract/Free Full Text]

Sutton, R. B., Fasshauer, D., Jahn, R. and Brunger, A. T (1998). Crystalstructure of a SNARE complex involved in synaptic exocytosis at 2.4 \201 resolution. Nature 395, 347-353.[Medline]

Tsujimoto, S., Pelto-Huikko, M., Aitola, M., Meister, B., Vik-Mo, E. O., Davanger, S., Scheller, R. H. and Bean A. J (1999). The cellular and developmental expression of hrs-2 in rat. Eur. J. Neurosci 11, 3047-3063.[Medline]

Tsujimoto, S. and Bean, A. J (2000). Distinct protein domains are responsible for the interaction of Hrs-2 with SNAP-25. The role of hrs-2 in 7 s complex formation. J. Biol. Chem 275, 2938-2942.[Abstract/Free Full Text]

Wang, G., Witkin, J. W., Hao, G., Bankaitis, V. A., Scherer, P. E. andBaldini, G (1997). Syndet is a novel SNAP-25 related protein expressed in many tissues. J. Cell Sci 110, 505-513.[Abstract]

Weber, T., Zemelman, B. V., McNew, J. A., Westermann, B., Gmachl, M., Parlati, F., S\232llner, T. and Rothman J. E (1998). SNAREpins: minimal machinery for membrane fusion. Cell 92, 759-772.[Medline]

Weimbs, T., Low, S. H., Chapin, S. J., Mostov, K. E., Bucher, P. and Hofmann, K (1997). A conserved domain is present in different families of vesicular fusion proteins: a new superfamily. Proc. Natl. Acad. Sci. USA 94, 3046-3051.[Abstract/Free Full Text]

Wick, P. F., Senter, R. A., Parsels, L. A., Uhler, M. D. and Holz, R. W (1993). Transient transfection studies of secretion in bovine chromaffin cells and PC12 cells. J. Biol. Chem 268, 10983-10989.[Abstract/Free Full Text]

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