mTORC2 regulates renal tubule sodium uptake by promoting ENaC activity

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Abstract

The epithelial Na⁺ channel (ENaC) is essential for Na⁺ homeostasis, and dysregulation of this channel underlies many forms of hypertension. Recent studies suggest that mTOR regulates phosphorylation and activation of serum/glucocorticoid regulated kinase 1 (SGK1), which is known to inhibit ENaC internalization and degradation; however, it is not clear whether mTOR contributes to the regulation of renal tubule ion transport. Here, we evaluated the effect of selective mTOR inhibitors on kidney tubule Na⁺ and K⁺ transport in WT and Sgk1^–/– mice, as well as in isolated collecting tubules. We found that 2 structurally distinct competitive inhibitors (PP242 and AZD8055), both of which prevent all mTOR-dependent phosphorylation, including that of SGK1, caused substantial natriuresis, but not kaliuresis, in WT mice, which indicates that mTOR preferentially influences ENaC function. PP242 also substantially inhibited Na⁺ currents in isolated perfused cortical collecting tubules. Accordingly, patch clamp studies on cortical tubule apical membranes revealed that mTOR inhibition markedly reduces ENaC activity, but does not alter activity of K⁺ inwardly rectifying channels (ROMK channels). Together, these results demonstrate that mTOR regulates kidney tubule ion handling and suggest that mTOR regulates Na⁺ homeostasis through SGK1-dependent modulation of ENaC activity.

Authors

Catherine E. Gleason, Gustavo Frindt, Chih-Jen Cheng, Michael Ng, Atif Kidwai, Priyanka Rashmi, Florian Lang, Michel Baum, Lawrence G. Palmer, David Pearce