Basolateral potassium membrane permeability of A6 cells and cell volume regulation

The K⁺ permeabilities (⁸⁶Rb(K) transport) of the basolateral membranes (J_bK) of a renal cell line (A6) were compared under isosmotic and hypo-osmotic conditions (serosal side) to identify the various components involved in cell volume regulation.Changing the serosal solution to a hypo-osmotic one (165 mOsm) induced a fast transient increase in Ca _i (max <1 min) and cell swelling (max at 3–5 min) followed by a regulatory volume decrease (5–30 min) and rise in the SCC (stabilization at 30 min). In isosmotic conditions (247 mOsm), the ⁸⁶Rb(K) transport and the SCC were partially blocked by Ba²⁺, quinidine, TEA and glibenclamide, the latter being the least effective. Changing the osmolarity from isosmotic to hypo-osmotic resulted in an immediate (within the first 3–6 min) stimulation of the ⁸⁶Rb(K) transport followed by a progressive decline to a stable value higher than that found in isosmotic conditions. A serosal Ca²⁺-free media or quinidine addition did not affect the initial osmotic stimulation of J_bK but prevented its secondary regulation, whereas TEA, glibenclamide and DIDS completely blocked the initial J_bK increase. Under hypo-osmotic conditions, the initial J_bK increase was enhanced by the presence of 1 mm of barium and delayed with higher concentrations (5 mm). In addition, cell volume regulation was fully blocked by quinidine, DIDS, NPPB and glibenclamide, while partly inhibited by TEA and calcium-free media.We propose that a TEA- and glibenclamide-sensitive but quinidine-insensitive increase in K⁺ permeability is involved in the very first phase of volume regulation of A6 cells submitted to hypo-osmotic media. In achieving cell volume regulation, it would play a complementary role to the quinidine-sensitive K⁺ permeability mediated by the observed calcium rise.This work was supported by grants from the Commissariat à l'Energie Atomique and the Centre National de Recherche Scientifique URA 638.