Voltage-dependent blockade of normal and mutant muscle sodium channels by benzylalcohol.

Haeseler, G
Mamarvar, M
Bufler, J
Dengler, R
Hecker, H
Aronson, JK
Piepenbrock, S
Leuwer, M

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Publication date

July 2000

DOI

10.1038/sj.bjp.0703447

Publisher

Springer Science and Business Media LLC

Journal

British Journal of Pharmacology

Abstract

1. We studied the effects of benzylalcohol on heterologously expressed wild type (WT), paramyotonia congenita (R1448H) and hyperkalaemic periodic paralysis (M1360V) mutant alpha-subunits of human skeletal muscle sodium channels. 2. Benzylalcohol blocked rested channels at -150 mV membrane potential, with an ECR(50) of 5.3 mM in wild type, 5.1 mM in R1448H, and 6.2 mM in M1360V. When blockade was assessed at -100 mV, the ECR(50) was reduced in R1448H (2 mM) compared with both wild type (4.3 mM; P<0.01) and M1360V (4.3 mM). 3. Membrane depolarization before the test depolarization significantly promoted benzylalcohol-induced sodium channel blockade. The values of K(D) for the fast-inactivated state derived from benzylalcohol-induced shifts in...

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Voltage-dependent blockade of normal and mutant muscle sodium channels by benzylalcohol.

Abstract

Extracted data

Voltage-dependent blockade of normal and mutant muscle sodium channels by benzylalcohol.

Abstract

Extracted data

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