Differential expression of SNAP-25 family proteins in the mouse brain

Journal of Comparative Neurology

Volumn 519, Issue 5, 2011, Pages 916-932

  Yamamori, Saori ^a   Itakura, Makoto ^a   Sugaya, Daichi ^a   Katsumata, Osamu ^a   Sakagami, Hiroyuki ^a   Takahashi, Masami ^a  

^a KITASATO UNIVERSITY SCHOOL OF MEDICINE   (Japan)

Author keywords

Exocytosis; Membrane transport; Presynaptic mechanism; SNAP 23; SNARE

Indexed keywords

BRAIN PROTEIN; PROTEIN ANTIBODY; SYNAPTOSOMAL ASSOCIATED PROTEIN 23; SYNAPTOSOMAL ASSOCIATED PROTEIN 25; SYNAPTOSOMAL ASSOCIATED PROTEIN 25A; SYNAPTOSOMAL ASSOCIATED PROTEIN 25B; UNCLASSIFIED DRUG;

ANIMAL CELL; ANIMAL EXPERIMENT; ANIMAL TISSUE; ANTIBODY SPECIFICITY; ARTICLE; AXOPLASM; BRAIN HOMOGENATE; CELL LEVEL; CELL MEMBRANE; CELL STRAIN; CONTROLLED STUDY; CYTOPLASM; HUMAN; HUMAN CELL; LIPID RAFT; MOUSE; NERVE FIBER; NONHUMAN; PERINATAL PERIOD; PRIORITY JOURNAL; PROTEIN EXPRESSION; PROTEIN FAMILY; PROTEIN LOCALIZATION; RAT; REGULATORY MECHANISM; SYNAPSE;

ANIMALS; BRAIN; HEK293 CELLS; HUMANS; MEMBRANE MICRODOMAINS; MICE; MICE, INBRED C57BL; PC12 CELLS; PROTEIN ISOFORMS; RATS; RECOMBINANT FUSION PROTEINS; SYNAPTOSOMAL-ASSOCIATED PROTEIN 25;

EID: 79251535012     PISSN: 00219967     EISSN: 10969861     Source Type: Journal    
DOI: 10.1002/cne.22558     Document Type: Article

References (58)

1. Bai J, Wang CT, Richards DA, Jackson MB, Chapman ER. 2004. Fusion pore dynamics are regulated by synaptotagmin t-SNARE interactions. Neuron 41: 929-942.
2. Bark IC, Wilson MC. 1994. Human cDNA clones encoding two different isoforms of the nerve terminal protein SNAP-25. Gene 139: 291-292.
3. Bark IC, Hahn KM, Ryabinin AE, Wilson MC. 1995. Differential expression of SNAP-25 protein isoforms during divergent vesicle fusion events of neural development. Proc Natl Acad Sci USA 92: 1510-1514.
4. Boschert U, O'Shaughnessy C, Dickinson R, Tessari M, Bendotti C, Catsicas S, Pich EM. 1996. Developmental and plasticity-related differential expression of two snap-25 isoforms in the rat brain. J Comp Neurol 367: 177-193.
5. Brunger AT. 2005. Structure and function of SNARE and SNARE-interacting proteins. Q Rev Biophys 38: 1-47.
6. Chamberlain LH, Burgoyne RD, Gould GW. 2001. SNARE proteins are highly enriched in lipid rafts in PC12 cells: implications for the spatial control of exocytosis. Proc Natl Acad Sci U S A 98: 5619-5624.
7. Chen D, Minger SL, Honer WG, Whiteheart SW. 1999. Organization of the secretory machinery in the rodent brain: distribution of the t-SNAREs, SNAP-25 and SNAP-23. Brain Res 831: 11-24.
8. Delgado-Martinez I, Nehring RB, Sorensen JB. 2007. Differential abilities of SNAP-25 homologs to support neuronal function. J Neurosci 27: 9380-9391.
9. Geddes JW, Hess EJ, Hart RA, Kesslak JP, Cotman CW, Wilson MC. 1990. Lesions of hippocampal circuitry define synaptosomal-associated protein-25 (SNAP-25) as a novel presynaptic marker. Neuroscience 38: 515-525.
10. Gonzalo S, Linder ME. 1998. SNAP-25 palmitoylation and plasma membrane targeting require a functional secretory pathway. Mol Biol Cell 9: 585-597.
11. Grosse G, Grosse J, Tapp R, Kuchinke J, Gorsleben M, Fetter I, Hohne-Zell B, Gratzl M, Bergmann M. 1999. SNAP-25 requirement for dendritic growth of hippocampal neurons. J Neurosci Res 56: 539-546.
12. He Y, Kang Y, Leung YM, Xia F, Gao X, Xie H, Gaisano HY, Tsushima RG. 2006. Modulation of Kv2.1 channel gating and TEA sensitivity by distinct domains of SNAP-25. Biochem J 396: 363-369
13. He Y, Elias CL, Huang YC, Gao X, Leung YM, Kang Y, Xie H, Chaddock JA, Tsushima RG, Gaisano HY. 2008. Botulinum neurotoxin A and neurotoxin E cleavage products of synaptosome-associated protein of 25 kD exhibit distinct actions on pancreatic islet beta-cell Kv2.1 channel gating. Pancreas 36: 10-17.
14. Hess DT, Slater TM, Wilson MC, Skene JH. 1992. The 25 kDa synaptosomal-associated protein SNAP-25 is the major methionine-rich polypeptide in rapid axonal transport and a major substrate for palmitoylation in adult CNS. J Neurosci 12: 4634-4641.
15. Holt M, Varoqueaux F, Wiederhold K, Takamori S, Urlaub H, Fasshauer D, Jahn R. 2006. Identification of SNAP-47, a novel Qbc-SNARE with ubiquitous expression. J Biol Chem 281: 17076-17083.
16. Hong W. 2005. SNAREs and traffic. Biochim Biophys Acta 1744: 120-144.
17. Jahn R, Scheller RH. 2006. SNAREs-engines for membrane fusion. Nat Rev Mol Cell Biol 7: 631-643.
18. Jahn R, Lang T, Sudhof TC. 2003. Membrane fusion. Cell 112: 519-533.
19. 2+ channels, cytoplasmic messengers and proteins of the synaptic vesicle release complex. Trends Pharmacol Sci 22: 519-525.
20. Jarvis SE, Zamponi GW. 2005. Masters or slaves? Vesicle release machinery and the regulation of presynaptic calcium channels. Cell Calcium 37: 483-488.
21. Jarvis SE, Zamponi GW. 2007. Trafficking and regulation of neuronal voltage-gated calcium channels. Curr Opin Cell Biol 19: 474-482.
22. Ji J, Salapatek AM, Lau H, Wang G, Gaisano HY, Diamant NE. 2002. SNAP-25, a SNARE protein, inhibits two types of K channels in esophageal smooth muscle. Gastroenterology 122: 994-1006.
23. Johansson JU, Ericsson J, Janson J, Beraki S, Stanic D, Mandic SA, Wikstrom MA, Hokfelt T, Ogren SO, Rozell B, Berggren PO, Bark C. 2008. An ancient duplication of exon 5 in the Snap25 gene is required for complex neuronal development/function. PLoS Genet 4: e1000278.
24. Koticha DK, Huddleston SJ, Witkin JW, Baldini G. 1999. Role of the cysteine-rich domain of the t-SNARE component, SYNDET, in membrane binding and subcellular localization. J Biol Chem 274: 9053-9060.
25. Lan JY, Skeberdis VA, Jover T, Grooms SY, Lin Y, Araneda RC, Zheng X, Bennett MV, Zukin RS. 2001a. Protein kinase C modulates NMDA receptor trafficking and gating. Nat Neurosci 4: 382-390.
26. Lan JY, Skeberdis VA, Jover T, Zheng X, Bennett MV, Zukin RS. 2001b. Activation of metabotropic glutamate receptor 1 accelerates NMDA receptor trafficking. J Neurosci 21: 6058-6068.
27. Lane SR, Liu Y. 1997. Characterization of the palmitoylation domain of SNAP-25. J Neurochem 69: 1864-1869.
28. Lau CG, Takayasu Y, Rodenas-Ruano A, Paternain AV, Lerma J, Bennett MV, Zukin RS. 2010. SNAP-25 is a target of protein kinase C phosphorylation critical to NMDA receptor trafficking. J Neurosci 30: 242-254.
29. Leveque C, Hoshino T, David P, Shoji-Kasai Y, Leys K, Omori A, Lang B, el Far O, Sato K, Martin-Moutot N, Newsom-Davis J, Takahashi M, Seagar MJ. 1992. The synaptic vesicle protein synaptotagmin associates with calcium channels and is a putative Lambert-Eaton myasthenic syndrome antigen. Proc Natl Acad Sci U S A 15: 3625-3629.
30. Loranger SS, Linder ME. 2002. SNAP-25 traffics to the plasma membrane by a syntaxin-independent mechanism. J Biol Chem 277: 34303-34309.
31. 2+-dependent triggering of neurotransmitter exocytosis. Proc Natl Acad Sci U S A 93: 10471-10476.
32. Morihara T, Mizoguchi A, Takahashi M, Kozaki S, Tsujihara T, Kawano S, Shirasu M, Ohmukai T, Kitada M, Kimura K, Okajima S, Tamai K, Hirasawa Y, Ide C. 1999. Distribution of synaptosomal-associated protein 25 in nerve growth cones and reduction of neurite outgrowth by botulinum neurotoxin A without altering growth cone morphology in dorsal root ganglion neurons and PC-12 cells. Neuroscience 91: 695-706.
33. Nakagawa S, Watanabe M, Isobe T, Kondo H, Inoue Y. 1998. Cytological compartmentalization in the staggerer cerebellum, as revealed by calbindin immunohistochemistry for Purkinje cells. J Comp Neurol. 395: 112-120.
34. Nishiki T, Nihonmatsu I, Tsuhara Y, Kawasaki M, Sekiguchi M, Sato K, Mizoguchi A, Takahashi M. 1991. Distribution of soluble N-ethylmaleimide fusion protein attachment proteins (SNAPs) in the rat nervous system. Neuroscience 107: 363-371.
35. Nishiki T, Kamata Y, Nemoto Y, Omori A, Ito T, Takahashi M, Kozaki S. 1994. Identification of the protein receptor for Clostridium botulinum Type B neurotoxin in rat brain synaptosomes. J Biol Chem 269: 10498-10503.
36. Ono S, Baux G, Sekiguchi M, Fossier P, Morel NF, Nihonmatsu I, Hirata K, Awaji T, Takahashi S, Takahashi M. 1998. Regulatory roles of complexins in neurotransmitter release from mature presynaptic nerve terminals. Eur J Neurosci 10: 2143-2152.
37. Osen-Sand A, Catsicas M, Staple JK, Jones KA, Ayala G, Knowles J, Grenningloh G, Catsicas S. 1993. Inhibition of axonal growth by SNAP-25 antisense oligonucleotides in vitro and in vivo. Nature 364: 445-448.
38. Osen-Sand A, Staple JK, Naldi E, Schiavo G, Rossetto O, Petitpierre S, Malgaroli A, Montecucco C, Catsicas S. 1996. Common and distinct fusion proteins in axonal growth and transmitter release. J Comp Neurol 367: 222-234.
39. Oyler GA, Higgins GA, Hart RA, Battenberg E, Billingsley M, Bloom FE, Wilson MC. 1989. The identification of a novel synaptosomal-associated protein, SNAP-25, differentially expressed by neuronal subpopulations. J Cell Biol 109: 3039-3052.
40. Oyler GA, Polli JW, Wilson MC, Billingsley ML. 1991. Developmental expression of the 25-kDa synaptosomal-associated protein (SNAP-25) in rat brain. Proc Natl Acad Sci U S A 88: 5247-52451.
41. 187 is required for SNAP-25-negative modulation of neuronal voltage-gated calcium channels. Proc Natl Acad Sci U S A 105: 323-328.
42. Predescu SA, Predescu DN, Shimizu K, Klein IK, Malik AB. 2005. Cholesterol-dependent syntaxin-4 and SNAP-23 clustering regulates caveolae fusion with the endothelial plasma membrane. J Biol Chem 280: 37130-37138.
43. Ravichandran V, Chawla A, Roche PA. 1996. Identification of a novel syntaxin- and synaptobrevin/VAMP-binding protein, SNAP-23, expressed in non-neuronal tissues. J Biol Chem 271: 13300-13303.
44. Salaun C, Gould GW, Chamberlain LH. 2005a. The SNARE proteins SNAP-25 and SNAP-23 display different affinities for lipid rafts in PC12 cells. Regulation by distinct cysteine-rich domains. J Biol Chem 280: 1236-1240.
45. Salaun C, Gould GW, Chamberlain LH. 2005b. Lipid raft association of SNARE proteins regulates exocytosis in PC12 cells. J Biol Chem 280: 19449-19453.
46. Selak S, Paternain AV, Aller MI, Picó E, Rivera R, Lerma J. 2009. A role for SNAP25 in internalization of kainate receptors and synaptic plasticity. Neuron 63: 357-371.
47. Shimazaki Y, Nishiki T, Omori A, Sekiguchi M, Kamata Y, Kozaki S, Takahashi M. 1996. Phosphorylation of 25-kDa synaptosome-associated protein. Possible involvement in protein kinase C-mediated regulation of neurotransmitter release. J Biol Chem 14: 14548-14553.
48. Shu YH, Terashima A, Petralia RS, Wenthold RJ, Isaac JT, Roche KW, Roche PA. 2010. A neuronal role for SNAP-23 in postsynaptic glutamate receptor trafficking. Nat Neurosci 13: 338-343.
49. Sorensen JB, Nagy G, Varoqueaux F, Nehring RB, Brose N, Wilson MC, Neher E. 2003. Differential control of the releasable vesicle pools by SNAP-25 splice variants and SNAP-23. Cell 114: 75-86.
50. Steegmaier M, Yang B, Yoo JS, Huang B, Shen M, Yu S, Luo Y, Scheller RH. 1998. Three novel proteins of the syntaxin/SNAP-25 family. J Biol Chem 273: 34171-34179.
51. Sudhof TC. 2004. The synaptic vesicle cycle. Annu Rev Neurosci 27: 509-547.
52. Takahashi M, Arimatsu Y, Fujita S, Fujimoto Y, Kondo S, Hama T, Miyamoto E. 1991. Protein kinase C and Ca2+/calmodulin-dependent protein kinase II phosphorylate a novel 58-kDa protein in synaptic vesicles. Brain Res 14: 279-292.
53. Takahashi S, Yamamoto H, Matsuda Z, Ogawa M, Yagyu K, Taniguchi T, Miyata T, Kaba H, Higuchi T, Okutani F, Fujimoto S. 1995. Identification of two highly homologous presynaptic proteins distinctly localized at the dendritic and somatic synapses. FEBS Lett 24: 455-460.
54. Veit M, Sollner TH, Rothman JE. 1996. Multiple palmitoylation of synaptotagmin and the t-SNARE SNAP-25. FEBS Lett 385: 119-123.
55. Vogel K, Roche PA. 1999. SNAP-23 and SNAP-25 are palmitoylated in vivo. Biochem Biophys Res Commun 258: 407-410.
56. Wang G, Witkin JW, Hao G, Bankaitis VA, Scherer PE, Baldini G. 1997. Syndet is a novel SNAP-25 related protein expressed in many tissues. J Cell Sci 110: 505-513.
57. Xiao J, Xia Z, Pradhan A, Zhou Q, Liu Y. 2004 An immunohistochemical method that distinguishes free from complexed SNAP-25. J Neurosci Res 75: 143-151.
58. 2+-triggered exocytosis. Neuron 34: 599-611.