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  • Title: The mitochondrial inner membrane anion channel. Regulation by divalent cations and protons.
    Author: Beavis AD, Garlid KD.
    Journal: J Biol Chem; 1987 Nov 05; 262(31):15085-93. PubMed ID: 2444594.
    Abstract:
    It is now well established that incubation of mitochondria at pH 8 or higher opens up an electrophoretic anion transport pathway in the inner membrane. It is not known, however, whether this transport process has any physiological relevance. In this communication we demonstrate that anion uniport can take place at physiological pH if the mitochondria are depleted of matrix divalent cations with A23187 and EDTA. Using the light-scattering technique we have quantitated the rates of uniport of a wide variety of anions. Inorganic anions such as Cl-, SO4(2-), and Fe(CN)6(4-) as well as physiologically important anions such as HCO3-, Pi-, citrate, and malate are transported. Some anions, however, such as gluconate and glucuronate do not appear to be transported. On the basis of the finding that the rate of anion uniport assayed in ammonium salts exhibits a dramatic decline associated with loss of matrix K+ via K+/H+ antiport, we suggest that anion uniport is inhibited by matrix protons. Direct inhibition of anion uniport by protons in divalent cation-depleted mitochondria is demonstrated, and the apparent pK of the binding site is shown to be about 7.8. From these properties we tentatively conclude that anion uniport induced by divalent cation depletion and that induced by elevated pH are catalyzed by the same transport pathway, which is regulated by both matrix H+ and Mg2+.
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