Modification of the internal pH sensitivity of the Na+/H+ antiporter by parathyroid hormone in a cultured renal cell line.

Sodium-proton antiporter activity can be modulated through changes Vmax and/or intracellular proton sensitivity of the antiporter. To characterize a parathyroid hormone (PTH)-induced decrease in antiporter activity in a continuous renal cell line (opossum kidney cells), the extracellular sodium and intracellular proton dependence of amiloride-inhibitable 22Na uptake was studied. The Km for extracellular sodium at intracellular pH 6.32 was 28 mM and was unaltered by PTH, whereas the Vmax was decreased by 26%. When intracellular pH was set over the range 5.87-7.57 by the potassium-nigericin method, antiporter activity increased as intracellular pH decreased. Hill analysis revealed Hill coefficients of 1.25 and 1.01 and half-maximal antiporter activity at intracellular pH values of 6.90 and 6.35 for control and PTH-treated cells, respectively. PTH decreased the apparent Vmax at low pH by 15% and the intracellular pH at which Na+/H+ exchange is half-maximal by 0.55 pH units.