| Abstract: | The time course (0-60 min) of label incorporation from NaH14 CO3 into citric-acid-cycle intermediates and amino acids was investigated in incubations of isolated rat diaphragms. On the basis of these results, 14CO2 exchange by isocitrate dehydrogenase and 14CO2 fixation by propionyl-CoA carboxylation and pyruvate carboxylation could be estimated. Apparent rates amounted to about 30-40, 2, and 35 nmol/min per g of muscle, respectively. About 90 percent of C4-carbon compounds originating from 14CO2 fixation were subsequently removed by decarboxylation. 2-Cyano-4-hydroxycinnamate, an inhibitor of mitochondrial pyruvate transport, effectively reduced 14CO2 production from 1-14C]pyruvate but did not affect incorporation of radioactive label from NaH14CO3. In cell-free muscle extracts, 14CO2 fixation was demonstrable under assay conditions suitable for NADP -dependent 'malic' enzyme(s). Addition of hydroxymalonate, an inhibitor of the latter enzyme(s), significantly reduced 14CO2 incorporation. The results provide evidence for a continuous cytosolic replenishment and mitochondrial depletion of citric-acid-cycle carbon skeletons in resting skeletal muscle tissue. The functional role of malic (iso)enzyme activities in these processes is discussed. |
