Comparative study on uncoupling effects of laurate and lauryl sulfate on rat liver and skeletal muscle mitochondria

Uncoupling effects of laurate and lauryl sulfate have been studied in the isolated rat liver and skeletal muscle mitochondria. In the oligomycin-treated liver mitochondria, 0.02 mM laurate or 0.16 mM lauryl sulfate caused a two-fold stimulation of respiration, accompanied by a membrane potential decrease. Carboxyatractylate (CAtr) and glutamate (or aspartate) strongly decrease the effect of laurate and lauryl sulfate on respiratory rate and membrane potential (the recoupling effect). With both uncouplers, this effect is maximal for CAtr and glutamate (aspartate) at pH 7.8 and 7.0, respectively. Tetraphenyl phosphonium cations, which decrease negative membrane charges, cause an alkaline shift of these pH dependences. Small amounts of lauryl sulfate, which increase the membrane negative charge, induce the opposite shift when laurate is used as an uncoupler. ADP, but not GDP, partially recouple with both laurate and lauryl sulfate. We conclude that lauryl sulfate-induced uncoupling in rat liver, like the uncoupling induced by laurate, is mediated by the ATP/ ADP and glutamate/aspartate antiporters. In skeletal muscle mitochondria uncoupled by laurate, 200 microM GDP causes partial recoupling which can be enhanced by a subsequent additions of CAtr, glutamate and serum albumin. CAtr added before GDP promotes a larger recoupling than when added after GDP and prevents the subsequent effect of GDP. ADP is effective as recoupler at lower concentrations that GDP, whereas CDP is without influence. Lauryl sulfate uncoupling of skeletal muscle mitochondria is GDP-resistant but is sensitive to ADP, CAtr, glutamate and serum albumin. Our data suggest that in skeletal muscle mitochondria a GDP-sensitive mechanism is involved in uncoupling induced by laurate. This mechanism is absent in liver mitochondria. Possible mechanisms of laurate and lauryl sulfate-induced uncoupling are discussed.