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Publication: Architecture and Pore Block of Eukaryotic Voltage-Gated Sodium Channels in View of NavAb Bacterial Sodium Channel Structure

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Title Architecture and Pore Block of Eukaryotic Voltage-Gated Sodium Channels in View of NavAb Bacterial Sodium Channel Structure
Authors/Editors* Tikhonov DB, Zhorov BS
Where published* Molecular Pharmacology
How published* Journal
Year* 2012
Volume 82
Number 1
Pages 97-104
Publisher HighWire Press
Keywords Molecular modeling
Link http://www.ncbi.nlm.nih.gov/pubmed/22505150
Abstract
The X-ray structure of the bacterial sodium channel NavAb provides a new template for the study of sodium and calcium channels. Unlike potassium channels, NavAb contains P2 helices in the outer-pore region. Because the sequence similarity between eukaryotic and prokaryotic sodium channels in this region is poor, the structural similarity is unclear. We analyzed it by using experimental data on tetrodotoxin block of sodium channels. Key tetrodotoxin-binding residues are outer carboxylates in repeats I, II, and IV, three positions downstream from the selectivity-filter residues. In a NavAb-based model of Nav1 channels derived from the sequence alignment without insertions/deletions, the outer carboxylates did not face the pore and therefore did not interact with tetrodotoxin. The hypothesis that the evolutionary appearance of Nav1 channels involved point deletions in an ancestral channel between the selectivity filter and the outer carboxylates allowed building of a NavAb-based model with tetrodotoxin-channel contacts similar to those proposed previously. This hypothesis also allowed us to reproduce in Nav1 the folding-stabilizing contacts between long-side chain residues in P1 and P2, which are seen in NavAb. The NavAb-based inner-pore model of Nav1 preserved major features of our previous KcsA-based models, including the access pathway for ligands through the repeat III/IV interface and their interactions with specific residues. Thus, structural properties of eukaryotic voltage-gated sodium channels that are suggested by functional data were reproduced in the NavAb-based models built by using the unaltered template structure but with adjusted sequence alignment. Sequences of eukaryotic calcium channels aligned with NavAb without insertions/deletions, which suggests that NavAb is a promising basis for the modeling of calcium channels.
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