The purpose of this study was to investigate the time course of the volume-regulatory response and intracellular sodium concentration ([Na+]i) in the principal cells of rat kidney outer medulla collecting duct (OMCD) epithelia during acute swelling in hypotonic medium. Hypotonic shock was created by PBS diluted with 50% of water. Changes in cell volume were measured with calcein quenching method. Intracellular sodium concentration was studied with fluorescence dye Sodium Green. Principal cells of microdissected OMCD fragments swelled very fast. The characteristic time of swelling (τ
1) was 0.65 ± 0.05 seconds, and the volume increased more than 60% (92.9 ± 5.6 and 151.3 ± 9.8 μm3 control and peak volumes correspondently, P < .01). After cell volume reached the peak of swelling, the RVD began without lag period. The characteristic time of volume decreasing to new steady-state level (τ
2) was 8.9 ± 1.1 seconds. In hypoosmotic medium, cell volume stabilized on higher level in comparison with control (110.3 ± 8.3 μm3, P < .01). After restoration of the medium osmolality to normotonic, cell volume stabilized on significantly low level in comparison with control level (71.4 ± 6.1 μm3, P < .01). During the hypoosmotic shock, [Na+]i decreased from control level in isotonic PBS to the low level in hypoosmotic solution (27.7 ± 1.4 and 5.8 ± 0.23 mM, P < .01). Calculation of sodium content per cell has shown the significant sodium entry into the cells, which caused a temporary increase correlated with the peak of cell volume caused by swelling. The conclusion is made that in our model of hypoosmotic shock, swelling activates transporters with high permeability for Na+ that provides sodium flux into the cells.
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