1. Transmembrane calcium movement in 20,25-diazacholesterol myotonia.
- Author
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Mollman JE, Furman RE, Wood DS, Scarpa A, and Barchi RL
- Subjects
- Adenosine Triphosphate metabolism, Animals, Caffeine pharmacology, Calcium-Transporting ATPases metabolism, Cell Membrane metabolism, Chlorides pharmacology, Egtazic Acid pharmacology, Erythrocyte Membrane enzymology, Kinetics, Male, Myotonia chemically induced, Rats, Rats, Inbred Strains, Sarcolemma enzymology, Sarcoplasmic Reticulum metabolism, Azacosterol, Calcium metabolism, Cholesterol analogs & derivatives, Myotonia metabolism
- Abstract
An abnormality in myoplasmic Ca2+ regulation has frequently been proposed in 20,25-diazacholesterol (20,25-D) myotonia. We report here the results of several studies of transmembrane Ca2+ movement in this animal model. (i) Physiologic Ca2+ release by intact sarcoplasmic reticulum (SR) was examined in chemically skinned single muscle fibers preloaded in EGTA-buffered Ca2+ solutions (pCa2+7.0 to 6.4). Isometric tension development and Ca2+ release thresholds in response to Cl- or caffeine showed no differences between control and 20,25-D fibers at any pCa2+. (ii) The kinetics of energy-dependent Ca2+ accumulation in purified SR vesicles were followed spectrophotometrically using Ca2+-sensitive dyes. The apparent rate for ATP-dependent Ca2+ uptake and Ca2+ sequestering capacity were unchanged in SR from 20,25-D animals vs. controls. (iii) Surface membrane Ca2+ATPase activity was measured in red blood cell ghosts and sarcolemma. Enzyme Vmax was decreased by 25 to 50% in both membranes in the 20,25-D-treated animals with a compensatory increase in the number of Ca2+ATPase molecules. In general, the SR handling of Ca2+ appears normal in 20,25-D myotonia, although the activity of Ca2+ATPase in membranes with high sterol content may be altered in response to changes in the lipid environment in this model.
- Published
- 1985
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