Abstract

Chronic exposure to cadmium impairs various renal functions, including phosphate (Pi) transport. To further investigate the mechanism of cadmium-induced alterations in renal Pitransport, kinetics of Na+-dependent Piuptake were studied in renal cortical brush-border membrane vesicles (BBMV) exposed to CdCl2in vitro.BBMVs isolated from rabbit renal outer cortex were preincubated in a buffer containing CdCl2(50 μmin most cases) for 60 min at 37°C and then tested for Piuptake at 25°C. CdCl2treatment resulted in a marked attenuation of Na+-dependent Piuptake with no changes in Na+-independent Piuptake and membrane permeability to Na+. CdMt treatment induced no changes in Pitransport. The inhibition required preincubation of vesicles with CdCl2for more than 30 min and was not reversed by extravesicular EDTA, suggesting that cadmium affects the transport system at the internal side of the membrane. Kinetic analysis indicated that two sodium ions and one phosphate ion interact with a carrier, and this stoichiometry was not altered by cadmium treatment. Cadmium treatment did not change the apparentKmfor Na+(KNa) and that for phosphate (KPi), but it markedly reduced theVmaxof the Na+-dependent Pitransport. These results indicate that exposure of proximal tubular brush border membranes to cadmium impairs the Pitransport capacity, probably by reducing the effective number of Na–Picotransporter units without altering substrate affinities of the carrier.

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