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XB-ART-20547
Nature 1994 Nov 17;3726503:272-5. doi: 10.1038/372272a0.
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Structural determinants of the blockade of N-type calcium channels by a peptide neurotoxin.

Ellinor PT , Zhang JF , Horne WA , Tsien RW .


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Neurotoxins that selectively block Na+, K+ or Ca2+ channels have provided valuable information about the functional diversity of the voltage-gated channel superfamily. For Ca2+ channels, a variety of toxins have been found to block individual channel types. The best-known example is omega-conotoxin-GVIA, a member of a large family of peptide toxins derived from venomous cone snails, which potently and selectively blocks N-type Ca2+ channels, allowing their purification, cellular localization, and the elucidation of their roles in Ca2+ entry, neurotransmitter release and neuronal migration. In contrast to Na+ and K+ channels, little is known about the molecular features that underlie Ca(2+)-channel susceptibility to toxin block; it is also unknown whether block occurs by direct physical occlusion or an action on channel gating. Here we describe structural determinants of N-type Ca2+ channel's interaction with omega-conotoxin-GVIA. When chimaeras combining individual motifs from the N-type channel and from a channel insensitive to omega-conotoxin-GVIA were expressed in Xenopus oocytes, each of the four motifs appeared to contribute to interaction with the toxin. The most dramatic effects on toxin interactions were seen at a single cluster of residues in the large putative extracellular loop between IIIS5 and IIIH5, consistent with a direct pore-blocking mechanism. These results provide a starting point for delineating the architecture of the outer vestibule of the Ca2+ channel.

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