An epithelial high-affinity amiloride-binding site, different from the Na+ channel.

Abstract

Specific binding of the radioactive amiloride analogues [3H]phenamil and [3H]benzamil was studied in plasma membrane from chicken lower intestine. A single population of sites whose affinities and specificities towards pyrazinecarboxamides roughly resemble those of the epithelial Na+ channel, was identified. However, a matched comparison of pyrazinecarboxamide binding and Na+ transport inhibition revealed substantial differences between the high-affinity [3H]phenamil-binding site detected, and the site whose occupancy by phenamil blocks Na+ transport. First, 5-(N-ethyl-N-isopropyl)-amiloride was found to displace bound [3H]phenamil at concentrations that are at least 10-fold lower than those needed to block the channel. Second, the rates at which [3H]phenamil associates and dissociates from this site are lower than the rates at which Na+ channels are inhibited and reactivated, under similar conditions. A site with high affinity to both amiloride and 5-(N-ethyl-N-isopropyl)-amiloride was detected also in membranes from other epithelia. We conclude that tight epithelia contain a major high-affinity amiloride receptor other than the Na(+)-conducting channel, the Na+/H+ antiport or the Na+/Ca2+ exchanger. This site could be associated with a pool of nonconducting channels, another (but structurally related) channel, or a totally unrelated protein.