Abstract

Submitochondrial particles (A particles) and phosphorylating electron-transport particles (ETPH) were prepared from bovine heart mitochondria. The A particles either were supplemented with or were depleted of the mitochondrial calcium-binding ATPase inhibitor protein (CaBI). The CaBI-depleted A particles still retained the Pullman-Monroy ATPase inhibitor protein (PMI), and the other particles all contained both CaBI and PMI. ATP synthase and ATPase activities of the particles were measured in similar reaction mixtures by luminescence of firefly luciferin-luciferase. Succinate was the respiratory substrate, and the adenylate kinase inhibitor P1, P5-di(adenosine-5') pentaphosphate was obligatory. The ATP synthase activity of CaBI-depleted A particles was 30-40% of that of the A and ETPH particles, and its ATPase activity was 7-8 times greater. Reconstitution of the CaBI-depleted A particles with CaBI restored the original ATP synthase and ATPase activities. ATP synthase activity rose about 1.7-fold when A particles were supplemented with additional CaBI and ATPase activity dropped to 9% of the original. Varying Ca2+ levels had little or no effect on the ATP synthase and ATPase activities of the CaBI-depleted A particles. In contrast, ATP synthase activity of the other particles was decreased by as much as 70% at the optimal Ca2+ concentration of 1 microM, and the ATPase activity of the A and EPTH particles rose concomitantly by 7-8-fold. The ATP synthase and ATPase activities of all the particles in microM Ca2+ became like those of the CaBI-depleted A particles. These changes were reversible; normal activities were restored as Ca2+ concentrations were raised above 1 microM.(ABSTRACT TRUNCATED AT 250 WORDS)

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