Renal tubular NEDD4-2 deficiency causes NCC-mediated salt-dependent hypertension
Caroline Ronzaud, … , Johannes Loffing, Olivier Staub
Caroline Ronzaud, … , Johannes Loffing, Olivier Staub
Published January 25, 2013
Citation Information: J Clin Invest. 2013;123(2):657-665. https://doi.org/10.1172/JCI61110.
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Research Article

Renal tubular NEDD4-2 deficiency causes NCC-mediated salt-dependent hypertension

Abstract

The E3 ubiquitin ligase NEDD4-2 (encoded by the Nedd4L gene) regulates the amiloride-sensitive epithelial Na+ channel (ENaC/SCNN1) to mediate Na+ homeostasis. Mutations in the human β/γENaC subunits that block NEDD4-2 binding or constitutive ablation of exons 6–8 of Nedd4L in mice both result in salt-sensitive hypertension and elevated ENaC activity (Liddle syndrome). To determine the role of renal tubular NEDD4-2 in adult mice, we generated tetracycline-inducible, nephron-specific Nedd4L KO mice. Under standard and high-Na+ diets, conditional KO mice displayed decreased plasma aldosterone but normal Na+/K+ balance. Under a high-Na+ diet, KO mice exhibited hypercalciuria and increased blood pressure, which were reversed by thiazide treatment. Protein expression of βENaC, γENaC, the renal outer medullary K+ channel (ROMK), and total and phosphorylated thiazide-sensitive Na+Cl cotransporter (NCC) levels were increased in KO kidneys. Unexpectedly, Scnn1a mRNA, which encodes the αENaC subunit, was reduced and proteolytic cleavage of αENaC decreased. Taken together, these results demonstrate that loss of NEDD4-2 in adult renal tubules causes a new form of mild, salt-sensitive hypertension without hyperkalemia that is characterized by upregulation of NCC, elevation of β/γENaC, but not αENaC, and a normal Na+/K+ balance maintained by downregulation of ENaC activity and upregulation of ROMK.

Authors

Caroline Ronzaud, Dominique Loffing-Cueni, Pierrette Hausel, Anne Debonneville, Sumedha Ram Malsure, Nicole Fowler-Jaeger, Natasha A. Boase, Romain Perrier, Marc Maillard, Baoli Yang, John B. Stokes, Robert Koesters, Sharad Kumar, Edith Hummler, Johannes Loffing, Olivier Staub

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Figure 4

NCC is overactivated in Nedd4LPax8/LC1 KO mice.

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NCC is overactivated in Nedd4LPax8/LC1 KO mice. (A) Immunofluorescence...
(A) Immunofluorescence for NCC on kidney sections of control and KO mice under high-Na+ diet. NCC expression is increased in DCT of KO. Scale bars: ∼20 μm. (B) Western blot analysis for total NCC and phosphorylated pT53-, pT58-, pS71-, and pT43/53/58-NCC. A representative blot on 5 controls and 5 KO is shown. For pS71-NCC and pT43/53/58-NCC, lanes that were run on the same gel but noncontiguous are indicated with a vertical black line. (C) Graphs show quantification of Western blots for phosphorylated NCC and the corresponding total NCC from 2 independent experiments (pT53-NCC and pT58-NCC: n = 5 per genotype; pS71-NCC and p43/53/58-NCC: n = 11 per genotype). Protein expression was normalized to the amount of β-actin or β-tubulin and expressed relative to control values. (D) Urine Ca2+ measurement in control and KO mice under high-Na+ diet (10 days). Nedd4LPax8/LC1 KO are hypercalciuric as shown by the 3-fold increased urine Ca2+/creatinine (Cr) ratio, which can be corrected by thiazide (n = 4 per group). Vh, vehicle; Tz, thiazide. (E) Plot showing telemetric measurement on controls versus KO under high-Na+ diet. The increased SBP and DBP observed in KO after 5 weeks of high-Na+ diet can be prevented by thiazide, but not by amiloride (n = 4 per group). *P < 0.05, **P < 0.01, KO versus controls. P < 0.05, ††P < 0.01, thiazide versus vehicle.