AJP - Cell Physiology, Vol 262, Issue 2 C422-C426, Copyright © 1992 by American Physiological Society

ARTICLES

Excitation-contraction coupling in pigs heterozygous for malignant hyperthermia

E. M. Gallant and L. R. Lentz
Veterinary Biology Graduate Program, University of Minnesota, St. Paul 55108.

A defect in the skeletal muscle sarcoplasmic reticulum (SR) calcium release channel of malignant hyperthermia-susceptible (MHS) pigs greatly enhances SR calcium release in pigs homozygous for the malignant hyperthermia (MH) gene. In pigs heterozygous at this locus, rates of calcium release from isolated SR stimulated by Ca2+, ATP, or caffeine are intermediate to those of both MHS and normal SR [Mickelson et al. Am. J. Physiol. 257 (Cell Physiol. 26): C787-C794, 1989]. In this study bundles of intact muscle cells dissected from pigs of various genotypes were used to examine the effects of the MH gene on contractile responses to caffeine (direct stimulation of the SR) or to surface membrane (sarcolemma) depolarization (i.e., stimulation by way of the steps in excitation-contraction coupling). The caffeine threshold for contractures in the heterozygous muscles (5 mM) was intermediate to both types of homozygous muscles (2 mM for MHS and 10 mM for normal) as is the case with direct stimulation of calcium release from SR vesicles [Mickelson et al. Am. J. Physiol. 257 (Cell Physiol. 26): C787-C794, 1989]. Sarcolemmal depolarization was elicited by electrical stimuli or elevated extracellular potassium. Control twitch tension for MHS and heterozygous muscles did not differ and was significantly greater in both than in homozygous normal muscles. Potassium-induced contractures were significantly larger in MHS and heterozygous than in normal muscles. Thus, in heterozygous muscles, force production via sarcolemmal depolarization (twitches and potassium contractures) was enhanced as much as in homozygous MHS muscles. This could be the result of feedback from abnormal SR calcium channels producing altered (enhanced) transverse tubule to SR signal transduction.

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