Ubiquitination influences the expression of the epithelial Na+ channel (ENaC). We assessed the mechanisms of selective ubiquitination of the mature, cleaved form of γENaC in both native rodent kidneys and in Fisher Rat Thyroid (FRT) cells expressing the channel heterologously. In both models, singly cleaved and fully cleaved γENaC were both strongly ubiquitinated, implying that the second cleavage releasing an inhibitory peptide was not essential for the process. To see if location of the protein in or near the apical membrane rather than cleavage per se influences ubiquitination we studied mutants of γENaC in which cleavage sites are abolished. These subunits were ubiquitinated only when co-expressed with α and βENaC, facilitating trafficking through the Golgi apparatus. To test whether reaching the apical surface is necessary we performed in situ surface biotinylation and measured ENaC ubiquitination in the apical membrane of rat kidney. Ubiquitination of cleaved γENaC was similar in whole-kidney and surface fractions, implying that both apical and subapical channels could be modified. In FRT cells, inhibiting clathrin-mediated endocytosis with Dyngo-4a increased both total the ubiquitinated γENaC at the cell surface. Finally, we tested the idea that increased intracellular Na+ could stimulate ubiquitination. Administration of amiloride to block Na+ entry through the channels did not affect ubiquitination of γENaC in either FRT cells or rat kidney. However, presumed large increases in cellular Na+ produced by monensin in FRT cells or acute Na+ repletion in rats increased ubiquitination and decreased overall ENaC expression.
