Journal article

Local anesthetic and antiepileptic drug access and binding to a bacterial voltage-gated sodium channel

C Boiteux, I Vorobyov, RJ French, C French, V Yarov-Yarovoy, TW Allen

Proceedings of the National Academy of Sciences of the United States of America | Published : 2014

Abstract

Voltage-gated sodium (Nav) channels are important targets in the treatment of a range of pathologies. Bacterial channels, for which crystal structures have been solved, exhibit modulation by local anesthetic and anti-epileptic agents, allowing molecular-level investigations into sodium channel-drug interactions. These structures reveal no basis for the "hinged lid"-based fast inactivation, seen in eukaryotic Nav channels. Thus, they enable examination of potential mechanisms of use- or state-dependent drug action based on activation gating, or slower pore-based inactivation processes. Multimicrosecond simulations of NavAb reveal high-affinity binding of benzocaine to F203 that is a surrogate..

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University of Melbourne Researchers

Grants

Awarded by National Institute of General Medical Sciences


Funding Acknowledgements

We thank Andrew Hung for helpful interactions. This work was supported by Australian Research Council Grant DP120103548, National Science Foundation Grant MCB1052477, DE Shaw Anton (PSCA00061P; National Resource for Biomedical Supercomputing, through National Institutes of Health Grant RC2GM093307), the Victorian Life Sciences Computation Initiative (VR0200), and the National Computational Infrastructure (dd7).