Abstract
The epithelial Na(+) channel (ENaC) functions as a pathway for Na(+) absorption in the kidney and lung, where it is crucial for Na(+) homeostasis and blood pressure regulation. ENaC is regulated in part through signaling pathways that control the ubiquitination state of ENaC lysines. A defect in ubiquitination causes Liddle syndrome, an inherited form of hypertension. Here we determined that α-, β-, and γENaC are also substrates for lysine acetylation. Trichostatin A (TSA), a histone deacetylase inhibitor, enhanced ENaC acetylation and increased ENaC abundance in the total cell lysate and at the cell surface. Moreover, TSA increased ENaC current in Fischer rat thyroid and kidney collecting duct epithelia. We found that HDAC7 is expressed in the kidney collecting duct, supporting a potential role for this histone deacetylase in ENaC regulation. HDAC7 overexpression reduced ENaC abundance and ENaC current, whereas ENaC abundance and current were increased by silencing of HDAC7. ENaC and HDAC7 form a complex, as detected by coimmunoprecipitation. We observed a reciprocal relationship between acetylation and ubiquitination; TSA reduced ENaC ubiquitination, whereas HDAC7 increased ubiquitination. By reducing ENaC ubiquitination, TSA decreased the rate of ENaC degradation. Thus, acetylation increases epithelial Na(+) absorption by antagonizing ENaC ubiquitination. This stabilizes ENaC, and hence, increases its abundance at the cell surface.
Highlights
The epithelial Naϩ channel epithelial Na؉ channel (ENaC) plays an important role in epithelial Naϩ absorption
Lysine modification plays a central role in ENaC regulation, where it may contribute to the control of Naϩ homeostasis and blood pressure
We found that HDAC7 is expressed in the kidney collecting duct, supporting a potential role for this histone deacetylase in ENaC regulation
Summary
The epithelial Naϩ channel ENaC plays an important role in epithelial Naϩ absorption. Acetylation increases epithelial Na؉ absorption by antagonizing ENaC ubiquitination This stabilizes ENaC, and increases its abundance at the cell surface. An inherited form of hypertension, Liddle syndrome, is caused by mutations that disrupt PY motifs located in the C termini of - or ␥ENaC [3, 5] These motifs function as binding sites for the E3 ubiquitin ligase Nedd4-2 [6, 7]. When bound to ENaC, Nedd catalyzes ubiquitination of lysines within the N termini of all three ENaC subunits [8] This reduces ENaC expression at the cell surface by increasing ENaC endocytosis and by targeting ENaC to lysosomes for degradation [9, 10]. Because lysines play a critical role in ENaC trafficking, we asked whether they might be targets for acetylation, and we investigated a potential role for lysine acetylation in ENaC regulation
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