Na+ channel activity in cultured renal (A6) epithelium: Regulation by solution osmolarity

Summary Solution osmolarity is known to affect Na⁺ transport rates across tight epithelia but this variable has been relatively ignored in studies of cultured renal epithelia. Using electrophysiological methods to study A6 epithelial monolayers, we observed a marked effect of solution tonicity on amiloride-sensitive Na⁺ currents (I _sc).I _sc for tissues bathed in symmetrical hyposmotic (170 mOsm), isosmotic (200 mOsm), and hyperosmotic (230 or 290 mOsm) NaCl Ringer's solutions averaged 25±2, 9±2, 3±0.4, and 0.6±0.5 A/cm², respectively. Similar results were obtained following changes in the serosal tonicity; mucosal changes did not significantly affectI _sc. The changes inI _sc were slow and reached steady-state within 30 min. Current fluctuation analysis measurements indicated that single-channel currents and Na⁺ channel blocker kinetics were similar for isosmotic and hyposmotic conditions. However, the number of conducting Na⁺ channels was approximately threefold higher for tissues bathed in hyposmotic solutions. No channel activity was detected during hyperosmotic conditions. The results suggest that Na⁺ channels in A6 epithelia are highly sensitive to relatively small changes in serosal solution tonicity. Consequently, osmotic effects may partly account for the large variability in Na⁺ transport rates for A6 epithelia reported in the literature.