Na:K Pump Abundance and Function in MDCK Cells: Effect of Low Ambient Potassium

Abstract

Side-specific expression and activity of Na:K pump was studied in Madin-Darby canine kidney (MDCK) cells, a tissue culture model of distal renal tubular epithelium, exposed to low ambient potassium. Confluent monolayers grown on teflon filters in dual chambers were treated with a low K⁺ medium from 45 min to 72 h. After both acute (45 min) and longer-term (24-72 h) exposure to low K⁺ (0.7 mM), cation cycling rate of existing pump units increased substantially, while there was no significant change in total cell Na-K-ATPase activity or in basolateral surface pump density. Although a small quantity of Na:K pumps ( < 10%) was consistently present apically, it also did not increase after exposure to low K⁺ or when the monolayers were provided K⁺ only from the apical side. In MDCK monolayers low K⁺ enhances the rate of K⁺ uptake by the existing pump units but does not increase the total number of pumps or their deployment on either cell surface.