Abstract
Electrophoretic uniport of anions through the inner mitochondrial membrane can be activated by alkaline pH or by depleting the matrix of divalent cations. It has also been suggested that, in the presence of valinomycin and potassium, respiration can also activate anion uniport. We have proposed that a single pathway is responsible for all three of these transport processes (Garlid, K. D., and Beavis, A. D. (1986) Biochim. Biophys. Acta 853, 187-204). We now present evidence that like the "pH-dependent" pore the divalent cation-regulated pore and the "respiration-induced" pore are blocked by N,N'-dicyclohexylcarbodiimide (DCCD). Moreover, the kinetics of inhibition of the latter two pathways are identical and exhibit a second order rate constant of 2.6 X 10(-3) (nmol DCCD/mg)-1.min-1. DCCD inhibits the uniport of Cl-, phosphate, malate, and other lipophobic anions completely, but it has no effect on the classical electroneutral phosphate and dicarboxylate carriers. In Mg2+-depleted mitochondria DCCD partially inhibits the transport of SCN-; however, in Mg2+-containing mitochondria and at low pH, no inhibition is observed. Furthermore, in DCCD-treated mitochondria, even following depletion of Mg2+, the transport of SCN- is independent of pH. These results lead us to conclude that two pathways for anion uniport exist: a specific, regulated pathway which can conduct a wide variety of anions and a nonregulated pathway through the lipid bilayer which only conducts lipid-soluble ions.
Highlights
EVIDENCE FOR A SPECIFICTRANSPORT PATHWAY*We presented evidence that an anion uniport pathway can be opened at pH 7.4 by depleting the matrix of divalent cations [8].In addition, we demonstrated that thispathway can transport a ber of other transportprocesses in mitochondria
Electrophoretic uniport of anions through the inner wide variety of anions andthat itis regulated by protons
DCCD Blocks Anion Uniport Induced by Depletion of Divalent Cations-Fig. 1shows typicalL.S. traces of control and DCCD-treated mitochondria suspended in a KC1 assay medium.Addition of A23187 depletes the matrix of divalent cations and induces a small increase in@ which reflects the increase ivnolume associated with the net exchanogfeosmotically inactive matrixM8' for ence between the traces obtained with normal and DCCDtreated mitochondria
Summary
We presented evidence that an anion uniport pathway can be opened at pH 7.4 by depleting the matrix of divalent cations [8].In addition, we demonstrated that thispathway can transport a ber of other transportprocesses in mitochondria. The results indicate that DCCD completely blocks anion uniport through the putative pore buthas no effect on uniport of SCNthrough the lipid bilayer or electroneutral phosphateand dicarboxylate transport via the classical anion carriers These findings provide further supportfor the proposal that the pHdependent pore and the divalent cation-regulated pathway are identical and suggest that these transport processes do not reflect leakage through the lipid bilayer. Some of these data have been presented elsewhere in a preliminary report [24]. If DCCD could block either of thesepathwaysp, hosphate-dependent swelling
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