[Regulation of oxidative phosphorylation, K+ ions transport and the volume of mitochondrial matrix by cytoplasmic glycopeptide and Ca2+ ions]. / Reguliatsiia okislitel'nogo fosforilirovaniia, transporta ionov K+ i ob''ema matriksa mitokhondrii tsitoplazmaticheskim glikopeptidom i ionami Ca2+.

A thermostable low molecular weight glycopeptide containing syalic acids, which uncouples mitochondrial oxidative phosphorylation, has been detected, isolated and purified from rat liver cytoplasm. In the presence of the glycopeptide, oxidative phosphorylation in rat liver mitochondria is uncoupled by low physiological concentrations of Ca2+, which otherwise do not have any appreciable effect on the mitochondria. Oxidative phosphorylation uncoupling by the glycopeptide is accompanied by an increase of the mitochondrial volume. This process has a limited amplitude and is regulated by changes in Ca2+ concentration in the extramitochondrial space. The glycopeptide has been shown to induce K+ transport across the inner mitochondrial membrane, this effect is enhanced by Ca2+.

[Effect of total ischemia and 3',5'-cAMP on the activity of the thermostable cytoplasmic inhibitor of Ca2+ ion transport in rat heart mitochondria]. / Vliianie total'noi ishemii i ts-3',5'-AMF na aktivnost' termostabil'nogo tsitoplazmaticheskogo ingibitora transporta ionov Ca2+ v mitokhondrii serdtsa krysy.

Activity of cytoplasmic inhibitor of Ca2+ transport in rat heart mitochondria was studied after total ischemia and incubation of heart homogenates with cAMP. Distinct inactivation of the inhibitor occurred under these conditions. The decrease of the inhibitor activity in ischemic myocardium appears to serve as a compensatory mechanism: 1. pyruvate dehydrogenase and the enzymes of tricarboxylic acid cycle were activated due to increase in Ca2+ concentration in mitochondria, 2. as a result of Ca2+ accumulation in mitochondria the elevated concentration of Ca2+ was decreased in myoplasm, which developed after impairment of plasmatic membranes and of sarcoplasmic reticulum membranes.