1. Academic Validation
  2. Effects of bencyclane on normal and cevadine-modified Na channels in frog skeletal muscle

Effects of bencyclane on normal and cevadine-modified Na channels in frog skeletal muscle

  • Gen Physiol Biophys. 1989 Oct;8(5):447-58.
P P Nánási 1 Z Bodnár M Dankó
Affiliations

Affiliation

  • 1 Department of Physiology, University Medical School of Debrecen, Hungary.
PMID: 2556322
Abstract

The effect of 10(-5) mol/l bencyclane on the repetitive electrical activity of muscle membrane was studied with the conventional microelectrode technique. Electrical activity was induced by repetitive stimulation in normal Ringer solution (train) or by a single depolarizing current pulse in the presence of 10(-6) mol/l cevadine (volley). Bencyclane decreased, in a use-dependent manner, the maximum rates of depolarization and repolarization (Vmax+ and Vmax-, resp.) of the action potentials both of the train and the volley. The inhibition of Vmax+ and Vmax- was proportional; however, it was stronger for the volleys than for the trains. The cycle length (mean interspike interval) of the volley was increased by bencyclane; the prolongation was progressive during consecutive cycles. The dissociation of bencyclane from the Na channel was studied by applying trains of different durations with equal pulse numbers. Bencyclane at a higher concentration (5 x 10(-5) mol/l) caused a reversible tonic block: the overshoot potentials, Vmax+ and Vmax- were markedly reduced. The reduction of Vmax- was slightly stronger than that of Vmax+. Slow membrane potential oscillation (SMPO) was evoked by treating the muscle with 10(-4) mol/l of cevadine. The administration of 5 x 10(-6) mol/l bencyclane decreased the frequency of SMPO, while 10(-5) mol/l bencyclane terminated the slow oscillation activity without changing its baseline potential. The present results indicate that bencyclane induces use-dependent inhibition of Na channels in muscle, similarly as do class 1 antiarrhytnmic drugs. Inhibition was observed with both normal and cevadine-modified Na channels.

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