Stimulation of ATP-driven Ca2+ pump in the basal-lateral plasma membranes of kidney cortex during compensatory renal growth.

During compensatory renal growth 45Ca2+ transport in basal-lateral plasma membrane vesicles isolated from the rat renal cortex have been investigated. Stimulation of Ca2(+)-ATPase activity was observed, without an effect of compensatory renal growth on Na+/Ca2+ exchanger activity and on passive Ca2+ permeability of the vesicles. Twelve hours following unilateral nephrectomy about 40% increase of Ca2(+)-ATPase activity above control value was observed and this effect was present until the end of the experimental period (7 days). When kinetic parameters for Ca2(+)-ATPase were studied in native membranes, an increase of Vmax was observed, whereas the Km for Ca2+ was similar in control vesicles and vesicles isolated from the remnant kidney. Depletion of endogenous calmodulin resulted in a decrease of Vmax and an increase of Km (Ca2+), while its addition reversed these parameters and increased the Hill coefficient from about 1 to about 2. Once again, only a significant increase of Vmax in vesicles isolated from the remnant kidney above the control value was observed. Finally, increase of Ca2(+)-ATPase activity during compensatory renal growth could be abolished by actinomycin D, indicating that its stimulation is due to protein synthesis.