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Literature DB >> 29706534

Ca²⁺-Triggered Synaptic Vesicle Fusion Initiated by Release of Inhibition.

Axel T Brunger¹, Jeremy Leitz², Qiangjun Zhou², Ucheor B Choi², Ying Lai².

Abstract

Recent structural and functional studies of the synaptic vesicle fusion machinery suggest an inhibited tripartite complex consisting of neuronal soluble N-ethylmaleimide sensitive factor attachment protein receptors (SNAREs), synaptotagmin, and complexin prior to Ca2+-triggered synaptic vesicle fusion. We speculate that Ca2+-triggered fusion commences with the release of inhibition by Ca2+ binding to synaptotagmin C2 domains. Subsequently, fusion is assisted by SNARE complex zippering and by active membrane remodeling properties of synaptotagmin. This additional, inhibitory role of synaptotagmin may be a general principle since other recent studies suggest that Ca2+ binding to extended synaptotagmin C2 domains enables lipid transport by releasing an inhibited state of the system, and that Munc13 may nominally be in an inhibited state, which is released upon Ca2+ binding to one of its C2 domains.

Entities: Chemical

Keywords: Ca(2+) triggering; action potential; fusion protein; synaptic vesicle fusion; synaptic vesicle priming

Mesh：

Substances：

Year: 2018 PMID： 29706534 PMCID： PMC6056330 DOI： 10.1016/j.tcb.2018.03.004

Source DB: PubMed Journal: Trends Cell Biol ISSN： 0962-8924 Impact factor: 20.808

105 in total

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Journal: Science Date: 2012-03-16 Impact factor: 47.728

2. N-terminal domain of complexin independently activates calcium-triggered fusion.

Authors: Ying Lai; Ucheor B Choi; Yunxiang Zhang; Minglei Zhao; Richard A Pfuetzner; Austin L Wang; Jiajie Diao; Axel T Brunger
Journal: Proc Natl Acad Sci U S A Date: 2016-07-21 Impact factor: 11.205

3. Deconstructing complexin function in activating and clamping Ca2+-triggered exocytosis by comparing knockout and knockdown phenotypes.

Authors: Xiaofei Yang; Peng Cao; Thomas C Südhof
Journal: Proc Natl Acad Sci U S A Date: 2013-12-02 Impact factor: 11.205

4. Evolutionary conservation of complexins: from choanoflagellates to mice.

Authors: Xiaofei Yang; Jimin Pei; Yea Jin Kaeser-Woo; Taulant Bacaj; Nick V Grishin; Thomas C Südhof
Journal: EMBO Rep Date: 2015-09-03 Impact factor: 8.807

5. Complexin clamps asynchronous release by blocking a secondary Ca(2+) sensor via its accessory α helix.

Authors: Xiaofei Yang; Yea Jin Kaeser-Woo; Zhiping P Pang; Wei Xu; Thomas C Südhof
Journal: Neuron Date: 2010-12-09 Impact factor: 17.173

6. Synaptotagmin-1 may be a distance regulator acting upstream of SNARE nucleation.

Authors: Geert van den Bogaart; Shashi Thutupalli; Jelger H Risselada; Karsten Meyenberg; Matthew Holt; Dietmar Riedel; Ulf Diederichsen; Stephan Herminghaus; Helmut Grubmüller; Reinhard Jahn
Journal: Nat Struct Mol Biol Date: 2011-06-05 Impact factor: 15.369

7. Synaptotagmin-1 C2B domain interacts simultaneously with SNAREs and membranes to promote membrane fusion.

Authors: Shen Wang; Yun Li; Cong Ma
Journal: Elife Date: 2016-04-15 Impact factor: 8.140

8. Reconstitution of calcium-mediated exocytosis of dense-core vesicles.

Authors: Alex J B Kreutzberger; Volker Kiessling; Binyong Liang; Patrick Seelheim; Shrutee Jakhanwal; Reinhard Jahn; J David Castle; Lukas K Tamm
Journal: Sci Adv Date: 2017-07-19 Impact factor: 14.136

9. Munc13-1 and Munc18-1 together prevent NSF-dependent de-priming of synaptic vesicles.

Authors: Enqi He; Keimpe Wierda; Rhode van Westen; Jurjen H Broeke; Ruud F Toonen; L Niels Cornelisse; Matthijs Verhage
Journal: Nat Commun Date: 2017-06-21 Impact factor: 14.919

10. Concurrent binding of complexin and synaptotagmin to liposome-embedded SNARE complexes.

Authors: Michael C Chicka; Edwin R Chapman
Journal: Biochemistry Date: 2009-02-03 Impact factor: 3.162

18 in total

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Authors: Donovan A McGrowder; Fabian Miller; Kurt Vaz; Chukwuemeka Nwokocha; Cameil Wilson-Clarke; Melisa Anderson-Cross; Jabari Brown; Lennox Anderson-Jackson; Lowen Williams; Lyndon Latore; Rory Thompson; Ruby Alexander-Lindo
Journal: Brain Sci Date: 2021-02-10

2. Synaptotagmin oligomerization is essential for calcium control of regulated exocytosis.

Authors: Oscar D Bello; Ouardane Jouannot; Arunima Chaudhuri; Ekaterina Stroeva; Jeff Coleman; Kirill E Volynski; James E Rothman; Shyam S Krishnakumar
Journal: Proc Natl Acad Sci U S A Date: 2018-07-23 Impact factor: 11.205

3. 5-IP₇ is a GPCR messenger mediating neural control of synaptotagmin-dependent insulin exocytosis and glucose homeostasis.

Authors: Xiaozhe Zhang; Na Li; Jun Zhang; Yanshen Zhang; Xiaoli Yang; Yifan Luo; Bobo Zhang; Zhixue Xu; Zhenhua Zhu; Xiuyan Yang; Yuan Yan; Biao Lin; Shen Wang; Da Chen; Caichao Ye; Yan Ding; Mingliang Lou; Qingcui Wu; Zhanfeng Hou; Keren Zhang; Ziming Liang; Anqi Wei; Bianbian Wang; Changhe Wang; Nan Jiang; Wenqing Zhang; Guozhi Xiao; Cong Ma; Yan Ren; Xiangbing Qi; Weiping Han; Chao Wang; Feng Rao
Journal: Nat Metab Date: 2021-10-18

4. All-atom molecular dynamics simulations of Synaptotagmin-SNARE-complexin complexes bridging a vesicle and a flat lipid bilayer.

Authors: Josep Rizo; Levent Sari; Yife Qi; Wonpil Im; Milo M Lin
Journal: Elife Date: 2022-06-16 Impact factor: 8.713