Chronic treatment with D600 enhances development of sodium channels in cultured chick skeletal muscle cells

Abstract

We have studied the long-term effects of D600, a blocker of L-type voltage-dependent Ca channels (VDCC), on the development of voltage-dependent Na channels (VDNC) that are sensitive to tetrodotoxin (TTX), by electrophysiological measurements of the maximum rate of rise of the TTX-sensitive Na spike in cultured chick skeletal muscle cells. Chronic treatment with D600 (2–20 μM) caused a dose-dependent increase in the density of VDNC. The density of VDNC was increased by 150–250% when D600 was added to the cultures at 20 μM from the second day of culture onward. Co-treatment with an inhibitor of the transcription of RNA from DNA, α-amanitin, or with cycloheximide, an inhibitor of protein synthesis, prevented the up-regulation by D600. Nifedipine, a different type of blocker of L-type VDCC, was also effective in increasing the density of VDNC, and BAY K 8644, an agonist of L-type VDCC, had the opposite effect. It is suggested that the effect of D600 was mediated via a mechanism specific for L-type VDCC that involves regulation of cytosolic levels of Ca 2+ and protein synthesis de novo.