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Literature DB >> 22130660

A Ca(v)3.2/syntaxin-1A signaling complex controls T-type channel activity and low-threshold exocytosis.

Norbert Weiss¹, Shahid Hameed, José M Fernández-Fernández, Katell Fablet, Maria Karmazinova, Cathy Poillot, Juliane Proft, Lina Chen, Isabelle Bidaud, Arnaud Monteil, Sylvaine Huc-Brandt, Lubica Lacinova, Philippe Lory, Gerald W Zamponi, Michel De Waard.

Abstract

T-type calcium channels represent a key pathway for Ca(2+) entry near the resting membrane potential. Increasing evidence supports a unique role of these channels in fast and low-threshold exocytosis in an action potential-independent manner, but the underlying molecular mechanisms have remained unknown. Here, we report the existence of a syntaxin-1A/Ca(v)3.2 T-type calcium channel signaling complex that relies on molecular determinants that are distinct from the synaptic protein interaction site (synprint) found in synaptic high voltage-activated calcium channels. This interaction potently modulated Ca(v)3.2 channel activity, by reducing channel availability. Other members of the T-type calcium channel family were also regulated by syntaxin-1A, but to a smaller extent. Overexpression of Ca(v)3.2 channels in MPC 9/3L-AH chromaffin cells induced low-threshold secretion that could be prevented by uncoupling the channels from syntaxin-1A. Altogether, our findings provide compelling evidence for the existence of a syntaxin-1A/T-type Ca(2+) channel signaling complex and provide new insights into the molecular mechanism by which these channels control low-threshold exocytosis.

Entities: Chemical Gene Mutation

Mesh：

Substances：

Year: 2011 PMID： 22130660 PMCID： PMC3268438 DOI： 10.1074/jbc.M111.290882

Source DB: PubMed Journal: J Biol Chem ISSN： 0021-9258 Impact factor: 5.157

50 in total

1. Syntaxin: a synaptic protein implicated in docking of synaptic vesicles at presynaptic active zones.

Authors: M K Bennett; N Calakos; R H Scheller
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2. Biochemical properties and subcellular distribution of an N-type calcium channel alpha 1 subunit.

Authors: R E Westenbroek; J W Hell; C Warner; S J Dubel; T P Snutch; W A Catterall
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3. HPC-1 is associated with synaptotagmin and omega-conotoxin receptor.

Authors: A Yoshida; C Oho; A Omori; R Kuwahara; T Ito; M Takahashi
Journal: J Biol Chem Date: 1992-12-15 Impact factor: 5.157

4. Microdomains of high calcium concentration in a presynaptic terminal.

Authors: R Llinás; M Sugimori; R B Silver
Journal: Science Date: 1992-05-01 Impact factor: 47.728

5. Nerve terminal nicotinic acetylcholine receptors initiate quantal GABA release from perisomatic interneurons by activating axonal T-type (Cav3) Ca²⁺ channels and Ca²⁺ release from stores.

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6. Distribution of Ca2+ channels on frog motor nerve terminals revealed by fluorescent omega-conotoxin.

Authors: M W Cohen; O T Jones; K J Angelides
Journal: J Neurosci Date: 1991-04 Impact factor: 6.167

7. Expression of recombinant calcium channels support secretion in a mouse pheochromocytoma cell line.

Authors: Amy B Harkins; Anne L Cahill; James F Powers; Arthur S Tischler; Aaron P Fox
Journal: J Neurophysiol Date: 2003-07-16 Impact factor: 2.714

8. Deletion of the synaptic protein interaction site of the N-type (CaV2.2) calcium channel inhibits secretion in mouse pheochromocytoma cells.

Authors: Amy B Harkins; Anne L Cahill; James F Powers; Arthur S Tischler; Aaron P Fox
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9. A novel T-type current underlies prolonged Ca(2+)-dependent burst firing in GABAergic neurons of rat thalamic reticular nucleus.

Authors: J R Huguenard; D A Prince
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10. Purification of the N-type calcium channel associated with syntaxin and synaptotagmin. A complex implicated in synaptic vesicle exocytosis.

Authors: C Lévêque; O el Far; N Martin-Moutot; K Sato; R Kato; M Takahashi; M J Seagar
Journal: J Biol Chem Date: 1994-03-04 Impact factor: 5.157

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