Regulation of Gonadotropin Receptors on Cultured Porcine Leydig and Sertoli Cells: Effect of Potassium Depletion*

Abstract

We have examined the role of the NaK-ATPase pump activity on the ligand-induced down-regulation of gonadotropin receptors in cultured porcine Leydig and Sertoli cells. In both cells, inhibition of the NaK pump by ouabain produced a depletion of intracellular K⁺ levels (ID₅₀, 10⁻⁷m) after a lag period of about 8 h. In the absence of ligand, the number of FSH receptors in ouabain-treated Sertoli cells was unaffected or slightly reduced, whereas a 2-fold increase in the number of human CG (hCG)/LH receptors with small changes in the binding affinity was observed in Leydig cells treated by ouabain. The effect of ouabain was dose dependent. Differences were also observed in the down-regulation process of gonadotropin receptors in ouabain-treated cells. The hCG-induced receptor loss in Leydig cells was completely reversed by ouabain whereas the drug had no effect on ligand-induced loss of FSH receptors in Sertoli cells. Similar results were observed when the cells were incubated in K⁺-free medium. Kinetics studies with labeled hCG have shown that ouabain treatment slows down significantly the rate of [¹²⁵I]iodo-hCG internalization (t_½, 18 h; control cells, t_½, 6 h), but had no effect on the degradation of internalized hormone. The internalization of receptor-bound [¹²⁵I]iodo-hCG was also reduced when Leydig cells were incubated in K⁺-free medium, but was restored when this medium was supplemented with rubidium. The influence of the NaK pump on the receptor regulation of a ligand common to both types of cells, such as epidermal growth factor, was studied under the same experimental conditions. Neither ouabain nor K⁺-free medium were able to prevent the epidermal growth factor-induced reduction of receptor levels in Leydig and Sertoli cells. Thus, it appears that modulation of ligand-induced receptor loss by depletion of cellular K⁺ levels is not dependent on the cell type, but on the ligand-receptor complex. The data also show a striking difference in the dynamics of gonadotropin-receptor interaction of two structurally related hormones. (Endocrinology118: 2254–2261, 1986)