Effect of pH on the transport of Krebs cycle intermediates in renal brush border membranes

Lowering extravesicular pH stimulated Na⁺-dependent citrate transport in renal brush border membrane vesicles: e.g., at pH_out = 5.5, the initial rate of citrate uptake was increased 10-fold compared to parallel control experiments at pH 7.5. The same experimental conditions had little effect on succinate uptake. The influence of pH on citrate transport is a product of the extravesicular H⁺ concentration; pH gradients did not potentiate the effects nor were proton gradients capable of driving transport in the absence of Na⁺. The effect of pH is adequately explained if only the mono- and divalent species of citrate (Cit^1?, Cit^2?) are considered acceptable substrates for transport. The stimulatory influence of pH on transport correlated quite well with pH-related increases in the concentrations of Cit^1? and Cit^2?, and over the same pH range [Cit^3?] was inversely related to citrate uptake. A model of the Na⁺-dependent dicarboxylate transport system is discussed in which three sodium ions are translocated per molecule of dicarboxylic acid.