Serum regulates Na+/H+ exchange in Caco-2 cells by a mechanism which is dependent on F-actin.

Regulation of Na+/H+ exchange by fetal bovine serum was studied in Caco-2 cells, an established cell line derived from a human colon carcinoma. Cells were grown as polarized monolayers on collagen-coated filters and intracellular pH measured fluorometrically with 2',7'-bis(2-carboxymethyl)-5,6-carboxyfluorescein. Na+/H+ exchange was reduced 64% when cells were deprived of serum for 4 h. In contrast to other cell types, readdition of serum for 10 min did not activate Na+/H+ exchange; however, readdition of serum for 4 h restored Na+/H+ exchange to control values. This long-term effect of serum on Na+/H+ exchange activity could not be explained by changes in intracellular buffering capacity or intracellular Na+]. 4-h serum deprivation reduced the K(t) of the exchanger for external Na+ from 21 to 6 mM, and reduced the V(max) by 57%, but did not alter the IC50 for amiloride in the presence of 140 mM Na+. Inhibition of protein synthesis with cycloheximide (5 microM) did not alter the effect of serum removal or readdition on Na+/H+ exchange. Low temperature (13 degrees C) completely prevented the inhibition of Na+/H+ exchange caused by the removal of serum. In addition, once Na+/H+ exchange was inhibited by serum removal at 37 degrees C, maintaining cells at 13 degrees C also blocked the recovery of Na+/H+ exchange caused by serum readdition. Conversely, cytochalasin D (0.1-20 microM) blocked the reduction of Na+/H+ exchange which occurred due to 4-h serum deprivation, but did not block the restoration of Na+/H+ exchange when the cells were re-exposed to serum for a further 4 h. Colchicine (20 microM) did not alter the effect of serum removal or readdition. These data suggest that serum regulates Na+/H+ exchange activity by a posttranslational mechanism which is dependent on F-actin.