Trypsin can activate the epithelial sodium channel (ENaC) in microdissected mouse distal nephron.

Proteases are involved in the processing and activation of the epithelial sodium channel (ENaC). The aim of the present study was to investigate whether the prototypical serine protease trypsin can activate ENaC in microdissected, split-open mouse renal distal tubules. Whole-cell patch-clamp recordings from principal cells of connecting tubules (CNT) or cortical collecting ducts (CCD) demonstrated that addition of trypsin (20 µg/ml) to the bath solution increased the ENaC-mediated amiloride-sensitive whole cell current (ΔI_Ami) in the majority of cells. In contrast, trypsin applied in the presence of an excess of soybean trypsin inhibitor had no stimulatory effect. The ΔI_Ami response to trypsin was variable, ranging from no apparent effect to a twofold increase in ΔI_Ami with an average stimulatory effect of 31 or 37% in mice on low-Na⁺ or standard Na⁺ diet, respectively. In cultured M-1 mouse collecting duct cells, a robust stimulatory effect of trypsin on ΔI_Ami was only observed in cells pretreated with protease inhibitors. This suggests that endogenous proteases contribute to ENaC activation in renal tubular cells and that the degree of ENaC prestimulation by endogenous proteases determines the magnitude of the stimulatory response to exogenous trypsin. In conclusion, we provide electrophysiological evidence that trypsin can stimulate ENaC activity in native renal mouse tubules. Thus, in the kidney, ENaC stimulation by extracellular proteases may be a relevant regulatory mechanism in vivo. [ABSTRACT FROM AUTHOR]