Abstract

The purpose of this study was to investigate the mechanism of inorganic mercury (Hg) uptake in LLC-PK1cells, a renal tubular epithelial cell line, and to compare the results with those reported previously by us in rat renal cortical epithelial (RCE) cells in primary culture. The LLC-PK1cells were cultured for 3–12 days, incubated with 1 μmHgCl2in Hanks' balanced salt solution at 4 or 37°C for 30 min, and washed with phosphate-buffered saline containing BAL to remove the cell membrane-bound Hg. The uptake of Hg was higher in nonconfluent cultures than in confluent cultures and higher at 37 than at 4°C. In confluent culture (Day 8) Hg uptake at 4°C was only 27% of that at 37°C. The initial accumulation of Hg (5 min) from different concentrations of HgCl2(0.5–50 μm) was linear and did not show a tendency toward saturation, suggesting that a carrier-mediated process was not involved. Pretreatment of cells with 10 μmFCCP, a metabolic inhibitor and a proton ionophore, 0.5 mmDIDS, an anion transport inhibitor, or 0.5 mmouabain, a Na+/K+-ATPase inhibitor, resulted in 72, 60, and 57% reduction in Hg uptake, respectively. Furthermore, replacement of 137 mmNaCl in the incubation medium with 137 mmKCl or LiCl or 274 mmmannitol caused 30, 45, and 87% reduction in Hg uptake, respectively. These results suggest that in LLC-PK1cells, as in RCE cells, Hg uptake is inversely related to cell density and is influenced by membrane fluidity, membrane potential, and HCO3−/Cl−transporter.

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