Reduced intramembrane charge movement in the dysgenic skeletal muscle cell.

Intramembrane charge movement in skeletal muscle cells has been proposed to underlie the process leading to Ca release from the sarcoplasmic reticulum. A number of recent studies suggest that the dihydropyridine receptor located in the transverse-tubular membrane is responsible for the generation of intramembrane charge movement. The skeletal muscle cell of the mutant mouse with "Muscular Dysgenesis" is characterized by absence of excitation-contraction coupling. Here we investigated the charge movement in freshly dissociated skeletal muscle cells from dysgenic mice. In 9 out of 34 dysgenic mouse cells the charge movement was completely absent, in the remaining cells the charge movement was never more than 30% of control. The amount of maximum charge movement (Qmax) in mutant muscle cells was less than 30% of Qmax in normal muscle. Nifedipine, a dihydropyridine derivative, reduced the amount of charge movement in normal muscle cells but it was less effective on charge movement in mutant muscle cells. We conclude that there is an alteration of nifedipine-sensitive charge movement in the skeletal muscle cells from the mutant mice.