Short Term and Long Term Effects of Beta-adrenergic Effectors and Cyclic AMP on Nitrendipine-sensitive Voltage-dependent Ca2+ Channels of Skeletal Muscle

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 1985 Oct 25

PMID 2414273

Citations 24

Authors

A Schmid

J F Renaud

M Lazdunski

Affiliations

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Abstract

The effects of short term stimulation of beta-adrenergic receptors and elevations in intracellular cyclic AMP on nitrendipine-sensitive voltage-dependent Ca2+ channels of skeletal muscle cells in vitro has been studied using both the 45Ca2+ flux technique and [3H] nitrendipine-binding experiments. Isoproterenol increased the nitrendipine-sensitive 45Ca2+ influx under depolarizing conditions. The effects of isoproterenol were additive to those of depolarization and were antagonized by alprenolol. Half-maximal inhibition of 45Ca2+ influx induced both by depolarization and by isoproterenol occurred at a nitrendipine concentration of 1 nM. Treatments that resulted in an increased level of intracellular cyclic AMP, such as treatment with 1-methyl-3-isobutylxanthine, theophylline, dibutyryl cyclic AMP, or 8-bromocyclic AMP also resulted in an increased rate of 45Ca2+ entry via nitrendipine-sensitive Ca2+ channel. In contrast, long term treatment of myotubes in culture with isoproterenol and other compounds that increased intracellular cyclic AMP led to a large increase in the number of nitrendipine receptors. This increase was accompanied by a 4-10-fold decrease in the affinity of the receptors for nitrendipine. Alprenolol inhibited the long term effects of isoproterenol. In vivo treatment of 7-day-old chicks with reserpine and alprenolol produced a decrease in the number of skeletal muscle nitrendipine receptors. This decrease in receptor number was accompanied by an increase in the affinity of nitrendipine for its receptor by a factor of 4 to 5. These effects on the nitrendipine receptor were prevented by simultaneous injection of isoproterenol. The results are discussed in relation to the role of beta-adrenergic receptors and intracellular cyclic AMP in the regulation of skeletal muscle Ca2+ channels.

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