Inhibition of cellular activities by triethyllead. Role of glutathione and accumulation of triethyllead in vitro.

We investigated the interaction of triethyllead with ATP-coupled cellular enzymatic activities and the role of GSH to reverse the observed inhibition of these enzymes. Triethyllead inhibited the membrane bound Na+-K+-ATPase from HeLa cells (IC50 12 microM) and the ATP-hydrolysing activity of the mitochondrial F0-F1-ATPase complex (IC50 17 microM). Addition of 1 mM GSH reversed both enzyme activities totally, whereas lower GSH concentrations showed a less pronounced effect. Surprisingly, in freshly isolated rat liver mitochondria the ATP-synthesizing activity was also inhibited by triethyllead (IC50 16 microM), in spite of a measured high intramitochondrial GSH concentration (up to 10 mM). Further experiments in isolated submitochondrial particles revealed that ATP-synthesis and ATP-hydrolysis were inhibited by triethyllead with similar IC50 values, and both activities could be protected in vitro from the organolead compound in the presence of 1 mM GSH. Thus in all activities tested in vitro a high excess of GSH over triethyllead (greater than or equal to 25-fold) is necessary to restore the inhibited enzymes. The intramitochondrial triethyllead concentration was further determined after incubation of intact mitochondria with 10 microM of the organolead compound. The organolead concentration measured was as high as 600 microM. This means that in intact mitochondria there exists only a ca. 16-fold excess of GSH, which has been shown to be insufficient to protect ATP-synthesizing and ATP-hydrolyzing activities of the F0-F1-ATPase from triethyllead in vitro. We concluded that in intact mitochondria the F0-F1-ATPase complex is inhibited by triethyllead due to its accumulation in the matrix.