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  • Title: Regulation of Ca2+ efflux in rat liver mitochondria. Role of membrane potential.
    Author: Bernardi P, Azzone GF.
    Journal: Eur J Biochem; 1983 Aug 01; 134(2):377-83. PubMed ID: 6191982.
    Abstract:
    The paper analyzes the relationship between membrane potential (delta psi), steady state pCao (-log [Ca2+] in the outer aqueous phase) and rate of ruthenium-red-induced Ca2+ efflux in liver mitochondria. Energized liver mitochondria maintain a pCao of about 6.0 in the presence of 1.5 mM Mg2+ and 0.5 mM Pi. A slight depression of delta psi results in net Ca2+ uptake leading to an increased steady state pCao. On the other hand, a more marked depression of delta psi results in net Ca2+ efflux, leading to a decreased steady-state pCao. These results reflect a biphasic relationship between delta psi and pCao, in that pCao increases with the increase of delta psi up to a value of about 130 mV, whereas a further increase of delta psi above 130 mV results in a decrease of pCao. The phenomenon of Ca2+ uptake following a depression of delta psi is independent of the tool used to affect delta psi whether by inward K+ current via valinomycin, or by inward H+ current through protonophores or through F1-ATP synthase, or by restriction of e- flow. The pathway for Ca2+ efflux is considerably activated by stretching of the inner membrane in hypotonic media. This activation is accompanied by a decreased pCao at steady state and by an increased rate of ruthenium-red-induced Ca2+ efflux. By restricting the rate of e- flow in hypotonically treated mitochondria, a marked dependence of the rate of ruthenium-red-induced Ca2+ efflux on the value of delta psi is observed, in that the rate of Ca2+ efflux increases with the value of delta psi. The pCao is linearly related to the rate of Ca2+ efflux. Activation of oxidative phosphorylation via addition of hexokinase + glucose to ATP-supplemented mitochondria, is followed by a phase of Ca2+ uptake, which is reversed by atractyloside. These findings support the view that Ca2+ efflux in steady state mitochondria occurs through an independent, delta psi-controlled pathway and that changes of delta psi during oxidative phosphorylation can effectively modulate mitochondrial Ca2+ distribution by inhibiting or activating the delta psi-controlled Ca2+ efflux pathway.
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