Regulation of ion transport in mitochondria by respiratory chain enzymes and ATPase

The effects of the respiratory chain inhibitors as well as those of the inhibitors and substrates of ATP-synthetase in Ca2+ and K+ transport induced in the mitochondria upon the medium acidification in the presence of phosphate or arsenate, were investigated. Evidence has been obtained suggesting that under the experimental conditions used the transmembrane fluxes of K+ and Ca2+ are paralleled with H+ leakage through the proton channel of ATPase. It was found also that the system inducing cation fluxes at low pH values included peroxidation and hydrolysis of phospholipids. A scheme of regulation of ion transport in the mitochondria involving oxidative phosphorylation and oxidation and hydrolysis of lipids is proposed.     

Regulation of lipid peroxidation induced by cumene hydroperoxide in the liver mitochondria of irradiated rats

A study was made of the accumulation of lipoperoxidation products and O2- generation induced by cumene hydroperoxide in mitochondria of irradiated rat liver. O2- generation and formation of lipoperoxidation products were found to be connected with the function of mitochondrial P-450 cytochrome. During the first 24 h following X-irradiation of rats with a dose of 10 Gy, the rate of O2- generation sharply increased and mitochondria could not regulate the intensity of lipoperoxidation with incubation medium tonicity being altered.     

Cumene hydroperoxide changes the type of conductivity of the mitochondrial membrane for K+

The release of K+ from mitochondria under hypotonic conditions is a non-electrogenic process with an activity maximum at alkaline values of pH. Under these conditions an addition of cumene hydroperoxide causes the appearance of a second K+ release maximum at acidic pH values. The stimulation of K+ release by cumene hydroperoxide is accompanied by a decrease of the transmembrane potential and the accumulation of lipid peroxidation products. The effects of cumene hydroperoxide are prevented by the free radical scavenger, ionol. The acceleration of K+ release is not due to the activation of the non-electrogenic mechanism. It is concluded that the cumene hydroperoxide-induced release of K+ is caused by an increase in the nonspecific ionic permeability of the inner mitochondrial membrane and is controlled by free radical reactions. The contribution of K+ permeability of both types to the hormone-induced changes in the ionic composition of the mitochondrial matrix is discussed.     

Control of the induction of ion transport through mitochondrial membranes by the enzymes of the oxidative phosphorylation system

It has been shown that the induction of earlier described system of potassium-dependent transport of hydrogen ions in mitochondria at low pH values of the incubation medium is inhibited by the inhibitors of mitochondria respiratory chain and ATPase. It has been found that antimycin and oligomycin suppress the efflux of potassium ions from mitochondria in the presence of succinic acid. The uncoupler (FCCP) turns the effect of ATPase inhibitors to the efflux of potassium ions and acceleration of mitochondria respiration under experimental conditions. At the same time TMPD removes the effect of antimycin on potassium ion efflux from uncoupled FCCP of mitochondria. The data obtained are explained in terms of the postulate that under experimental conditions along with the system of potassium-dependent ion transport there appears leakage of protons through the ATPase channel. A conclusion is made concerning the control of ion transport induction in mitochondria by the enzymes of oxidative phosphorylation system.