Abnormal human sarcoplasmic reticulum Ca2+ release channels in malignant hyperthermic skeletal muscle

Abstract

Single sarcoplasmic reticulum (SR) Ca2+ release channels were reconstituted from normal and malignant hyperthermic (MH) human skeletal muscle biopsies (2-5 g samples). Conduction, gating properties, and myoplasmic Ca2+ dependence of human SR Ca2+ release channels were similar to those in other species (rabbit, pig). The MH diagnostic procedure distinguishes three phenotypes (normal, MH-equivocal, and MH-susceptible) on the basis of muscle contracture sensitivity to caffeine and/or halothane. Single channel studies reveal that human MH muscles (both MH phenotypes) contain SR Ca2+ release channels with abnormally greater caffeine sensitivity. Muscles from MH-equivocal and MH-susceptible patients appear to contain channels with the same abnormality. Further, our data (n = 115, 21 channels, 11 patients) reveals that human MH muscles (both phenotypes) may contain two populations of SR Ca2+ release channels, possibly corresponding to normal and abnormal isoforms. Thus, whole cell phenotypic variation (MH-equivocal vs. MH-susceptible) arises in muscles containing channels with similar caffeine sensitivity suggesting that human MH does not arise from a single defect. These results have important ramifications concerning (a) correlation of functional and genetic MH studies, (b) identification of other, yet to be determined, factors which may influence MH expression, and (c) characterization of normal SR Ca2+ release channel function by exploring genetic channel defects.