Rac1 GTPase in rodent kidneys is essential for salt-sensitive hypertension via a mineralocorticoid receptor–dependent pathway
Shigeru Shibata, … , Miki Nagase, Toshiro Fujita
Shigeru Shibata, … , Miki Nagase, Toshiro Fujita
Published July 18, 2011
Citation Information: J Clin Invest. 2011;121(8):3233-3243. https://doi.org/10.1172/JCI43124.
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Research Article Nephrology

Rac1 GTPase in rodent kidneys is essential for salt-sensitive hypertension via a mineralocorticoid receptor–dependent pathway

Abstract

Hypertension is a leading contributor to cardiovascular mortality worldwide. Despite this, its underlying mechanism(s) and the role of excess salt in cardiorenal dysfunction are unclear. Previously, we have identified cross-talk between mineralocorticoid receptor (MR), a nuclear transcription factor regulated by the steroid aldosterone, and the small GTPase Rac1, which is implicated in proteinuric kidney disease. We here show that high-salt loading activates Rac1 in the kidneys in rodent models of salt-sensitive hypertension, leading to blood pressure elevation and renal injury via an MR-dependent pathway. We found that a high-salt diet caused renal Rac1 upregulation in salt-sensitive Dahl (Dahl-S) rats and downregulation in salt-insensitive Dahl (Dahl-R) rats. Despite a reduction of serum aldosterone levels, salt-loaded Dahl-S rats showed increased MR signaling in the kidneys, and Rac1 inhibition prevented hypertension and renal damage with MR repression. We further demonstrated in aldosterone-infused rats as well as adrenalectomized Dahl-S rats with aldosterone supplementation that salt-induced Rac1 and aldosterone acted interdependently to cause MR overactivity and hypertension. Finally, we confirmed the key role of Rac1 in modulating salt susceptibility in mice lacking Rho GDP–dissociation inhibitor α. Therefore, our data identify Rac1 as a determinant of salt sensitivity and provide insights into the mechanism of salt-induced hypertension and kidney injury.

Authors

Shigeru Shibata, ShengYu Mu, Hiroo Kawarazaki, Kazuhiko Muraoka, Ken-ichi Ishizawa, Shigetaka Yoshida, Wakako Kawarazaki, Maki Takeuchi, Nobuhiro Ayuzawa, Jun Miyoshi, Yoshimi Takai, Akira Ishikawa, Tatsuo Shimosawa, Katsuyuki Ando, Miki Nagase, Toshiro Fujita

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Figure 1

Effects of high-salt loading on Rac1 activity and MR signaling activity in Dahl-R and Dahl-S rats.

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Effects of high-salt loading on Rac1 activity and MR signaling activity ...
(A) Systolic blood pressure, (B) urinary albumin excretion, and (C) serum aldosterone concentration in Dahl-R and Dahl-S rats fed a 0.3%- or 8%-salt diet for 3 weeks. (D) Expression of GTP-bound, active Rac1 and total Rac1 in the kidneys. The bar graph shows the results of densitometric analysis. (E) Expression of Sgk1 and GAPDH in the kidneys. The bar graph shows the results of densitometric analysis. (F) Nuclear expression of MR in the kidneys. Nucleophosmin (NPM) served as a loading control. The bar graph shows the results of densitometric analysis. (G) An immunofluorescence study for MR in salt-loaded Dahl-R and Dahl-S rats. Arrows indicate nuclear staining of MR in distal nephron. The MR staining was also noted in glomeruli (arrowheads). Scale bar: 50 μm. Data are expressed as mean ± SEM; n = 9 rats per group in AC; n = 4 or 5 rats per group in D; and n = 6 rats per group in E. *P < 0.05, **P < 0.01.