Essential role of Kir5.1 channels in renal salt handling and blood pressure control
Oleg Palygin, Vladislav Levchenko, Daria V. Ilatovskaya, Tengis S. Pavlov, Oleh M. Pochynyuk, Howard J. Jacob, Aron M. Geurts, Matthew R. Hodges, Alexander Staruschenko
Oleg Palygin, Vladislav Levchenko, Daria V. Ilatovskaya, Tengis S. Pavlov, Oleh M. Pochynyuk, Howard J. Jacob, Aron M. Geurts, Matthew R. Hodges, Alexander Staruschenko
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Research Article Nephrology

Essential role of Kir5.1 channels in renal salt handling and blood pressure control

Abstract

Supplementing diets with high potassium helps reduce hypertension in humans. Inwardly rectifying K+ channels Kir4.1 (Kcnj10) and Kir5.1 (Kcnj16) are highly expressed in the basolateral membrane of distal renal tubules and contribute to Na+ reabsorption and K+ secretion through the direct control of transepithelial voltage. To define the importance of Kir5.1 in blood pressure control under conditions of salt-induced hypertension, we generated a Kcnj16 knockout in Dahl salt-sensitive (SS) rats (SSKcnj16–/–). SSKcnj16–/– rats exhibited hypokalemia and reduced blood pressure, and when fed a high-salt diet (4% NaCl), experienced 100% mortality within a few days triggered by salt wasting and severe hypokalemia. Electrophysiological recordings of basolateral K+ channels in the collecting ducts isolated from SSKcnj16–/– rats revealed activity of only homomeric Kir4.1 channels. Kir4.1 expression was upregulated in SSKcnj16–/– rats, but the protein was predominantly localized in the cytosol in SSKcnj16–/– rats. Benzamil, but not hydrochlorothiazide or furosemide, rescued this phenotype from mortality on a high-salt diet. Supplementation of high-salt diet with increased potassium (2% KCl) prevented mortality in SSKcnj16–/– rats and prevented or mitigated hypertension in SSKcnj16–/– or control SS rats, respectively. Our results demonstrate that Kir5.1 channels are key regulators of renal salt handling in SS hypertension.

Authors

Oleg Palygin, Vladislav Levchenko, Daria V. Ilatovskaya, Tengis S. Pavlov, Oleh M. Pochynyuk, Howard J. Jacob, Aron M. Geurts, Matthew R. Hodges, Alexander Staruschenko

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Figure 3

Electrophysiological analysis of Kir4.1 homotetrameric and Kir4.1/Kir5.1 heterotetrameric channels in SS and SSKcnj16–/– rats.

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Electrophysiological analysis of Kir4.1 homotetrameric and Kir4.1/Kir5.1...
(A) Double-immunostaining images show Kcnj16 expression (red) in the distal convoluted tubule (DCT) and cortical collecting duct (CCD) cells. Aqp2 (green) was used as a marker of CD principal cells. Proximal tubules (PTs) and glomerulus (G) are also shown. Scale bar: 20 μm. (B) Representative manually isolated distal tubule (note bifurcation) used for the patch-clamp analysis on basolateral membrane. (C and D) Representative current traces (C) and average current-voltage (I/V) relationships (D) of the unitary current amplitude of 25.4 ± 3.9 pS (Kir4.1) and 48.1 ± 0.2 pS (Kir4.1/Kir5.1) K+ channels measured in salt-sensitive (SS) rats. (E and F) Representative current traces and average I/V relationships assessed in SSKcnj16–/– rats (N ≥ 5).