Characterization and subtype identification of the Na+-H+exchanger in bovine corneal epithelium

Abstract

Amiloride analogues with N5-alkyl substitutions are specific high-affinity ligands for the Na(+)-H+ exchanger in various tissues. As a means to characterize the Na(+)-H+ exchanger in the bovine corneal epithelium, we determined the binding properties of [3H] methylisobutylamiloride (MIA) to a fraction enriched in plasma membrane from this tissue. [3H]MIA bound to these membranes in a time, -a temperature-, and -a pH-dependent manner. The binding was optimal at 4 degrees C and at pH 8.5 and it reached equilibrium at 60 min. Under these conditions, specific binding, which was inhibitable by excess unlabeled MIA, was about 85%. Scatchard analysis of this specific binding revealed a single saturable binding component with a Kd of 61 nM and a Bmax of 271 pmoles/mg protein. Inhibition of [3H]MIA specific binding by amiloride analogues showed the following order of potency: MIA > dimethylamiloride (DMA) > benzamil > amiloride. Na+ did not compete with MIA for binding. The effectiveness of clonidine, an alpha 2 agonist, and cimetidine, an H2 receptor antagonist, as inhibitors of Na(+)-H+ exchange activity was also determined because these compounds are used to distinguish between the exchanger subtypes. At concentrations higher than those needed for receptor interaction, clonidine was more effective than cimetidine in decreasing MIA binding. The activity of Na(+)-H+ exchanger, which was measured as the uptake of 22Na+ in the presence of an outwardly directly H+ gradient, was also inhibited by DMA, benzamil and amiloride with the same order of potency as obtained in the binding studies.(ABSTRACT TRUNCATED AT 250 WORDS)