Rolf Moser scite author profile

Addition of ruthenium red to mitochondria isolated from brain, adrenal cortex, parotid gland and skeletal muscle inhibits the further uptake of Ca2+ by these mitochondria but induces little or no net Ca2+ efflux; the further addition of Na+, however, induces rapid efflux of Ca2+. The velocity of the Na+‐induced efflux of Ca2+ from these mitochondria exhibits a sigmoidal dependence on the [Na+]. Addition of Na+ to mitochondria exhibiting the most active Na+‐dependent efflux of Ca2+ (brain and adrenal cortex) also releases Ca2+ in the absence of ruthenium red and, under these conditions, the mitochondria become uncoupled. It is concluded that the efflux of Ca2+ from these mitochondria occurs via a Na+‐dependent pathway, possibly a Na+‐Ca2+ antiporter, that is distinct from the ruthenium‐red‐sensitive carrier that catalyses energy‐linked Ca2+ influx. The possible role of the Na+‐dependent efflux process in the distribution of Ca2+ between the mitochondria and the cytosol is discussed. In contrast, mitochondria from liver, kidney, lung, uterus muscle and ileum muscle exhibit no Na+‐dependent efflux of Ca2+.

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Cardiolipin is the membrane receptor for mitochondrial creatine phosphokinase.

Müller¹,

Moser²,

Cheneval³

et al. 1985

Journal of Biological Chemistry

136

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Rolf Moser

The Interrelations between the Transport of Sodium and Calcium in Mitochondria of Various Mammalian Tissues

Cardiolipin is the membrane receptor for mitochondrial creatine phosphokinase.

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