Journal
BIOPHYSICAL JOURNAL
Volume 81, Issue 1, Pages 79-88Publisher
BIOPHYSICAL SOCIETY
DOI: 10.1016/S0006-3495(01)75681-0
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We have investigated the action of SNX482, a toxin isolated from the venom of the tarantula Hysterocrates gigas, on voltage-dependent calcium channels expressed in tsa-201 cells. Upon application of 200 nM SNX482, R-type alpha (1E) calcium channels underwent rapid and complete inhibition, which was only poorly reversible upon washout. However, upon application of strong membrane depolarizations, rapid and complete recovery from inhibition was obtained. Tail current analysis revealed that SNX482 mediated an similar to 70 mV depolarizing shift in half-activation potential, suggesting that the toxin inhibits alpha (1E) calcium channels by preventing their activation. Experiments involving chimeric channels combining structural features of alpha (1E) and alpha (1C) subunits indicated that the presence of the domain III and IV of alpha (1E) is a prerequisite for a strong gating inhibition. In contrast, L-type alpha (1C) channels underwent incomplete inhibition at saturating concentrations of SNX482 that was paralleled by a small shift in half-activation potential and which could be rapidly reversed, suggesting a less pronounced effect of the toxin on L-type calcium channel gating. We conclude that SNX482 does not exhibit unequivocal specificity for R-type channels, but highly effectively antagonizes their activation.
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