The mechanism of lead-induced mitochondrial Ca2+ efflux

Abstract

Addition of Pb²⁺ to rat kidney mitochondria is followed by induction of several reactions: inhibition of Ca²⁺ uptake, collapse of the transmembrane potential, oxidation of pyridine nucleotides, and a fast release of accumulated Ca²⁺. When the incubation media are supplemented with ruthenium red, the effect of Pb²⁺ on NAD(P)H oxidation, membrane ΔΨ, and Ca²⁺ release are not prevented if malate-glutamate are the oxidizing substrates; however, the latter two lead-induced reactions are prevented by ruthenium red if succinate is the electron donor. It is proposed that in mitochondria oxidizing NAD-dependent substrates, Pb²⁺ induces Ca²⁺ release by promoting NAD(P)H oxidation and a parallel drop in ΔΨ due to its binding to thiol groups, located in the cytosol side of the inner membrane. In addition, it is proposed that with succinate as substrate, the Ca²⁺-releasing effect of lead is due to the collapse of the transmembrane potential as a consequence of the uptake of Pb²⁺ through the calcium uniporter, since such effect is ruthenium red sensitive.