Abstract
AbstractThe influence of caffeine on the intracellular distribution of calcium in the frog sartorius muscle was studied by differential centrifugation in an attempt to identify the locus of action of this alkaloid. The problem was approached in two ways. In the first, the locus of action was sought by relating the kinetic functions of 45Ca washout curves of muscles to changes in the distribution of 45Ca in the isolated fractions from the same muscles. It was not possible to make any correlation of the 45Ca‐washout curves to the activity in the fractions; the relative distribution of this nuclide remained essentially unchanged at 1‐, 2‐, and 3‐hour intervals along the curve. The washout curves appear to be the net effect of a complex interaction of the calcium in pools containing both readily exchangeable calcium and calcium which has a slow exchange or turnover rate. The second approach centered upon the examination of the effect of caffeine on the intracellular distribution of 45Ca and of calcium among the cellular fractions. Caffeine treatment resulted in a distinct increase in the calcium content of the mitochondrial fraction and a decrease in the calcium of the microsomal fraction. Electron micrographic studies revealed significant morphological changes in the whole muscle and in the isolated mitochondrial fraction after the muscle had been exposed to caffeine in a concentration producing irreversible contracture or rigor (10 mM). The increase in calcium content of the mitochondrial fraction after caffeine treatment may be due to an actual accumulation of calcium by the mitochondria or may be the consequence of the appearance of granular vesicles in the fraction.
Published Version
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