Acute phosphate depletion inhibits the Na+/H+ antiporter in a cultured renal cell line

Abstract

We studied the effect of acute Pi depletion on the regulation of intracellular pH (pHi) in the OK opossum kidney cell line by using the pH-sensitive dye 2'7'-bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF). Cell recovery from an NH4Cl acid load in HCO3-free buffer disclosed an Na(+)-dependent component blocked by amiloride and a smaller Na(+)-independent component that increased on exposure of the cells to a high-K+ buffer. After 24-h incubation of the cells in phosphate-free medium, pHi recovery by the Na+/H+ exchanger was markedly inhibited, whereas the Na(+)-independent pHi recovery was not affected. The inhibition of Na+/H+ exchange was reversible on correction of cellular Pi deficit. A similar phenomenon was observed when cellular Pi depletion was induced by acute exposure (min) to fructose. Pi depletion shifted the pHi dependence of the exchanger and also reduced its maximal activity. Time-course studies revealed that the effect of Pi depletion could not be attributed to attenuation of Na(+)-K(+)-adenosinetriphosphatase activity and resultant diminution of the transmembrane gradient for the Na+ influx. We conclude that acute Pi depletion in cultured proximal tubular cells leads to reversible inhibition of the Na+/H+ exchanger. This in vitro finding may relate to the in vivo observation of impaired HCO3 reabsorption and bicarbonaturia in acute Pi depletion.