Bergsman JB and Tsien RW (2000), Syntaxin modulation of calcium channels in cort...

XB-ART-10865

J Neurosci 2000 Jun 15;2012:4368-78.

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Syntaxin modulation of calcium channels in cortical synaptosomes as revealed by botulinum toxin C1.

Bergsman JB , Tsien RW .

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When the presynaptic membrane protein syntaxin is coexpressed in Xenopus oocytes with N- or P/Q-type Ca(2+) channels, it promotes their inactivation (Bezprozvanny et al., 1995; Wiser et al., 1996, 1999; Degtiar et al., 2000) (I. B. Bezprozvanny, P. Zhong, R. H. Scheller, and R. W. Tsien, unpublished observations). These findings led to the hypothesis that syntaxin influences Ca(2+) channel function in presynaptic endings, in a reversal of the conventional flow of information from Ca(2+) channels to the release machinery. We examined this effect in isolated mammalian nerve terminals (synaptosomes). Botulinum neurotoxin type C1 (BoNtC1), which cleaves syntaxin, was applied to rat neocortical synaptosomes at concentrations that completely blocked neurotransmitter release. This treatment altered the pattern of Ca(2+) entry monitored with fura-2. Whereas the initial Ca(2+) rise induced by depolarization with K(+)-rich solution was unchanged, late Ca(2+) entry was strongly augmented by syntaxin cleavage. Similar results were obtained when Ca(2+) influx arose from repetitive firing induced by the K(+)-channel blocker 4-aminopyridine. Cleavage of vesicle-associated membrane protein with BoNtD or SNAP-25 with BoNtE failed to produce a significant change in Ca(2+) entry. The BoNtC1-induced alteration in Ca(2+) signaling was specific to voltage-gated Ca(2+) channels, not Ca(2+) extrusion or buffering, and it involved N-, P/Q- and R-type channels, the high voltage-activated channels most intimately associated with presynaptic release machinery. The modulatory effect of syntaxin was not immediately manifest when synaptosomes had been K(+)-predepolarized in the absence of external Ca(2+), but developed with a delay after admission of Ca(2+), suggesting that vesicular turnover may be necessary to make syntaxin available for its stabilizing effect on Ca(2+) channel inactivation.

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Species referenced: Xenopus
Genes referenced: tbx2

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