Referenced in: none

Automatically associated channels: Kv2.1 , Slo1

Title: The pore, not cytoplasmic domains, underlies inactivation in a prokaryotic sodium channel.

Authors: Evgeny Pavlov, Christopher Bladen, Robert Winkfein, Catherine Diao, Perry Dhaliwal, Robert J French

Journal, date & volume: Biophys. J., 2005 Jul , 89, 232-42

PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/15849254

Abstract
Kinetics and voltage dependence of inactivation of a prokaryotic voltage-gated sodium channel (NaChBac) were investigated in an effort to understand its molecular mechanism. NaChBac inactivation kinetics show strong, bell-shaped voltage dependence with characteristic time constants ranging from approximately 50 ms at depolarized voltages to a maximum of approximately 100 s at the inactivation midpoint. Activation and inactivation parameters for four different covalently linked tandem dimer or tandem tetramer constructs were indistinguishable from those of the wild-type channel. Point mutations in the outer part of the pore revealed an important influence of the S195 residue on the process of inactivation. For two mutants (S195D and S195E), the maximal and minimal rates of inactivation observed were increased by approximately 2.5-fold, and the midpoint of the steady-state inactivation curve was shifted approximately 20 mV in the hyperpolarizing direction, compared to the wild-type channel. Our data suggest that pore vestibule structure is an important determinant of NaChBac inactivation, whereas the inactivation mechanism is independent of the number of free cytoplasmic N- and C-termini in the functional channel. In these respects, NaChBac inactivation resembles C-type or slow inactivation modes observed in other voltage-gated K and Na channels.