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Proc. Natl. Acad. Sci. U.S.A. · Jul 2013
Voltage sensor interaction site for selective small molecule inhibitors of voltage-gated sodium channels.
- Ken McCormack, Sonia Santos, Mark L Chapman, Douglas S Krafte, Brian E Marron, Christopher W West, Michael J Krambis, Brett M Antonio, Shannon G Zellmer, David Printzenhoff, Karen M Padilla, Zhixin Lin, P Kay Wagoner, Nigel A Swain, Paul A Stupple, Marcel de Groot, Richard P Butt, and Neil A Castle.
- Icagen Inc currently Neusentis, Research Unit of Pfizer Inc, Durham, NC 27703, USA.
- Proc. Natl. Acad. Sci. U.S.A. 2013 Jul 16;110(29):E2724-32.
AbstractVoltage-gated sodium (Nav) channels play a fundamental role in the generation and propagation of electrical impulses in excitable cells. Here we describe two unique structurally related nanomolar potent small molecule Nav channel inhibitors that exhibit up to 1,000-fold selectivity for human Nav1.3/Nav1.1 (ICA-121431, IC50, 19 nM) or Nav1.7 (PF-04856264, IC50, 28 nM) vs. other TTX-sensitive or resistant (i.e., Nav1.5) sodium channels. Using both chimeras and single point mutations, we demonstrate that this unique class of sodium channel inhibitor interacts with the S1-S4 voltage sensor segment of homologous Domain 4. Amino acid residues in the "extracellular" facing regions of the S2 and S3 transmembrane segments of Nav1.3 and Nav1.7 seem to be major determinants of Nav subtype selectivity and to confer differences in species sensitivity to these inhibitors. The unique interaction region on the Domain 4 voltage sensor segment is distinct from the structural domains forming the channel pore, as well as previously characterized interaction sites for other small molecule inhibitors, including local anesthetics and TTX. However, this interaction region does include at least one amino acid residue [E1559 (Nav1.3)/D1586 (Nav1.7)] that is important for Site 3 α-scorpion and anemone polypeptide toxin modulators of Nav channel inactivation. The present study provides a potential framework for identifying subtype selective small molecule sodium channel inhibitors targeting interaction sites away from the pore region.
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