Structure and function of SNARE and SNARE-interacting proteins

Axel T. Brunger

doi:10.1017/S0033583505004051

Abstract

This review focuses on the so-called SNARE (soluble N-ethyl maleimide sensitive factor attachment protein receptor) proteins that are involved in exocytosis at the pre-synpatic plasma membrane. SNAREs play a role in docking and fusion of synaptic vesicles to the active zone, as well as in the Ca2+-triggering step itself, most likely in combination with the Ca2+ sensor synaptotagmin. Different SNARE domains are involved in different processes, such as regulation, docking, and fusion. SNAREs exhibit multiple configurational, conformational, and oliogomeric states. These different states allow SNAREs to interact with their matching SNARE partners, auxiliary proteins, or with other SNARE domains, often in a mutually exclusive fashion. SNARE core domains undergo progressive disorder to order transitions upon interactions with other proteins, culminating with the fully folded post-fusion (cis) SNARE complex. Physiological concentrations of neuronal SNAREs can juxtapose membranes, and promote fusion in vitro under certain conditions. However, significantly more work will be required to reconstitute an in vitro system that faithfully mimics the Ca2+-triggered fusion of a synaptic vesicle at the active zone.

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Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Pang, Zhiping P. Shin, Ok-Ho Meyer, Alexander C. Rosenmund, Christian and Südhof, Thomas C. 2006. A Gain-of-Function Mutation in Synaptotagmin-1 Reveals a Critical Role of Ca2+-Dependent SolubleN-Ethylmaleimide-Sensitive Factor Attachment Protein Receptor Complex Binding in Synaptic Exocytosis. The Journal of Neuroscience, Vol. 26, Issue. 48, p. 12556.

Jahn, Reinhard and Scheller, Richard H. 2006. SNAREs — engines for membrane fusion. Nature Reviews Molecular Cell Biology, Vol. 7, Issue. 9, p. 631.

Tang, Jiong Maximov, Anton Shin, Ok-Ho Dai, Han Rizo, Josep and Südhof, Thomas C. 2006. A Complexin/Synaptotagmin 1 Switch Controls Fast Synaptic Vesicle Exocytosis. Cell, Vol. 126, Issue. 6, p. 1175.

Gürkan, Cemal Stagg, Scott M. LaPointe, Paul and Balch, William E. 2006. The COPII cage: unifying principles of vesicle coat assembly. Nature Reviews Molecular Cell Biology, Vol. 7, Issue. 10, p. 727.

Rizo, Josep Chen, Xiaocheng and Araç, Demet 2006. Unraveling the mechanisms of synaptotagmin and SNARE function in neurotransmitter release. Trends in Cell Biology, Vol. 16, Issue. 7, p. 339.

Rizo, Josep 2006. Illuminating membrane fusion. Proceedings of the National Academy of Sciences, Vol. 103, Issue. 52, p. 19611.

Sieber, Jochen J. Willig, Katrin I. Heintzmann, Rainer Hell, Stefan W. and Lang, Thorsten 2006. The SNARE Motif Is Essential for the Formation of Syntaxin Clusters in the Plasma Membrane. Biophysical Journal, Vol. 90, Issue. 8, p. 2843.

Chernomordik, Leonid V. and Melikov, Kamran 2006. Are There Too Many or Too Few SNAREs in Proteoliposomes?. Biophysical Journal, Vol. 90, Issue. 8, p. 2657.

Matveeva, Elena A. Vanaman, Thomas C. Whiteheart, Sidney W. and Slevin, John T. 2007. Asymmetric accumulation of hippocampal 7S SNARE complexes occurs regardless of kindling paradigm. Epilepsy Research, Vol. 73, Issue. 3, p. 266.

Dai, Han Shen, Nan Araç, Demet and Rizo, Josep 2007. A Quaternary SNARE–Synaptotagmin–Ca2+–Phospholipid Complex in Neurotransmitter Release. Journal of Molecular Biology, Vol. 367, Issue. 3, p. 848.

Hu, Shu-Hong Latham, Catherine F. Gee, Christine L. James, David E. and Martin, Jennifer L. 2007. Structure of the Munc18c/Syntaxin4 N-peptide complex defines universal features of the N-peptide binding mode of Sec1/Munc18 proteins. Proceedings of the National Academy of Sciences, Vol. 104, Issue. 21, p. 8773.

Lipka, Volker Kwon, Chian and Panstruga, Ralph 2007. SNARE-Ware: The Role of SNARE-Domain Proteins in Plant Biology. Annual Review of Cell and Developmental Biology, Vol. 23, Issue. 1, p. 147.

Wiseman, R. Luke Koulov, Atanas Powers, Evan Kelly, Jeffery W. and Balch, William E. 2007. Protein energetics in maturation of the early secretory pathway. Current Opinion in Cell Biology, Vol. 19, Issue. 4, p. 359.

Abdullah, Lubna H. and Davis, C. William 2007. Regulation of airway goblet cell mucin secretion by tyrosine phosphorylation signaling pathways. American Journal of Physiology-Lung Cellular and Molecular Physiology, Vol. 293, Issue. 3, p. L591.

Ehre, Camille Zhu, Yunxiang Abdullah, Lubna H. Olsen, John Nakayama, Keiichi I. Nakayama, Keiko Messing, Robert O. and Davis, C. William 2007. nPKCε, a P2Y2-R downstream effector in regulated mucin secretion from airway goblet cells. American Journal of Physiology-Cell Physiology, Vol. 293, Issue. 5, p. C1445.

Steuerwald, Nury M Bermúdez, Mercedes G Wells, Dagan Munné, Santiago and Cohen, Jacques 2007. Maternal age-related differential global expression profiles observed in human oocytes. Reproductive BioMedicine Online, Vol. 14, Issue. 6, p. 700.

Shen, Jingshi Tareste, David C. Paumet, Fabienne Rothman, James E. and Melia, Thomas J. 2007. Selective Activation of Cognate SNAREpins by Sec1/Munc18 Proteins. Cell, Vol. 128, Issue. 1, p. 183.

Khvotchev, Mikhail Dulubova, Irina Sun, Jianyuan Dai, Han Rizo, Josep and Südhof, Thomas C. 2007. Dual Modes of Munc18-1/SNARE Interactions Are Coupled by Functionally Critical Binding to Syntaxin-1 N Terminus. The Journal of Neuroscience, Vol. 27, Issue. 45, p. 12147.

Carr, Chavela M and Munson, Mary 2007. Tag team action at the synapse. EMBO reports, Vol. 8, Issue. 9, p. 834.

Melia, Thomas J. 2007. Putting the clamps on membrane fusion: How complexin sets the stage for calcium‐mediated exocytosis. FEBS Letters, Vol. 581, Issue. 11, p. 2131.

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Structure and function of SNARE and SNARE-interacting proteins

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