Regulation of Na channels in the rat cortical collecting tubule: effects of cAMP and methyl donors.

Overview

The whole cell patch-clamp technique was used to investigate the interactions of the amiloride-sensitive Na channel of the rat cortical collecting tubule (CCT) with adenosine 3',5'-cyclic monophosphate (cAMP) and with methyl donors. The amiloride-sensitive whole cell current (INa) was measured in principal cells of dissected, split-open tubules from rats maintained either on a control diet or on a low-Na diet to increase endogenous aldosterone secretion. With Na-depleted animals, INa was highest immediately after rupture of the membrane patch and averaged 325 pA at a membrane potential of -60 mV. INa declined over 15 min to approximately 35% of the initial value. With 8-(4-chlorophenylthio)-cAMP in the pipette, INa increased within 5 min of membrane rupture and was maintained for 15 min at levels three- to fourfold higher than the corresponding control values. With Na-replete animals, INa was undetectable (< 10 pA) without cAMP. With cAMP in the pipette, INa averaged 40 pA. In cell-attached patches on tubules from Na-replete rats exposed to cAMP, single Na channels were observed with conductive and kinetic properties similar to those from Na-depleted rats but at lower density. Inclusion of the methyl donor S-adenosyl methionine to the pipette solution did not increase INa in CCTs from Na-replete rats, either in the presence or absence of cAMP. The methylation inhibitor S-adenosyl homocysteine did not affect INa in CCT from Na-depleted animals.