Zesergio Melo scite author profile

It is widely recognized that the phenotype of familial hyperkalemic hypertension is mainly a consequence of increased activity of the renal Na + -Cl 2 cotransporter (NCC) because of altered regulation by with no-lysine-kinase 1 (WNK1) or WNK4. either by low chloride hypotonic stress or coinjection of oocytes with the solute carrier family 26 (anion exchanger)-member 9 (SLC26A9) cRNA, promoted WNK4 autophosphorylation and increased NCC-dependent Na + transport in a WNK4-dependent manner. Substitution of the leucine with phenylalanine at residue 322 of WNK4, homologous to the chloride-binding pocket in L-WNK1, converted WNK4 into a constitutively autophosphorylated kinase that activated NCC, even without chloride depletion. Elimination of the catalytic activity (D321A or D321K-K186D) or the autophosphorylation site (S335A) in mutant WNK4-L322F abrogated the positive effect on NCC. These observations suggest that WNK4 can exert differential effects on NCC, depending on the intracellular chloride concentration.

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Molecular evidence for a role for K⁺-Cl⁻ cotransporters in the kidney

Melo

Cruz-Rangel

Bautista

et al. 2013

American Journal of Physiology-Renal Physiology

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K+-Cl− cotransporter (KCC) isoforms 3 (KCC3) and 4 (KCC4) are expressed at the basolateral membrane of proximal convoluted tubule cells, and KCC4 is present in the basolateral membrane of the thick ascending loop of Henle's limb and α-intercalated cells of the collecting duct. Little is known, however, about the physiological roles of these transporters in the kidney. We evaluated KCC3 and KCC4 mRNA and protein expression levels and intrarenal distribution in male Wistar rats or C57 mice under five experimental conditions: hyperglycemia after a single dose of streptozotocin, a low-salt diet, metabolic acidosis induced by ammonium chloride in drinking water, and low- or high-K+ diets. Both KCC3 mRNA and protein expression were increased during hyperglycemia in the renal cortex and at the basolateral membrane of proximal tubule cells but not with a low-salt diet or acidosis. In contrast, KCC4 protein expression was increased by a low-sodium diet in the whole kidney and by metabolic acidosis in the renal outer medulla, specifically at the basolateral membrane of α-intercalated cells. The increased protein expression of KCC4 by a low-salt diet was also observed in WNK4 knockout mice, suggesting that upregulation of KCC4 in these circumstances is not WNK4 dependent. No change in KCC3 or KCC4 protein expression was observed under low- or high-K+ diets. Our data are consistent with a role for KCC3 in the proximal tubule glucose reabsorption mechanism and for KCC4 in salt reabsorption of the thick ascending loop of Henle's loop and acid secretion of the collecting duct.

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N-terminal Serine Dephosphorylation Is Required for KCC3 Cotransporter Full Activation by Cell Swelling

Melo

Heros

Cruz-Rangel

et al. 2013

Journal of Biological Chemistry

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Background: KCC3 lacking the two known phosphorylation sites is still regulated by cell swelling and WNK3.Results: Dephosphorylation of serine 96 is necessary for full activation of the cotransporter.Conclusion: Serine 96 is a third phospho-site involved in KCC3 regulation.Significance: The finding of new phosphorylation sites sheds light on an increasingly complex regulation of K+:Cl− cotransporters.

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Zesergio Melo

The Effect of WNK4 on the Na+–Cl− Cotransporter Is Modulated by Intracellular Chloride

Molecular evidence for a role for K⁺-Cl⁻ cotransporters in the kidney

N-terminal Serine Dephosphorylation Is Required for KCC3 Cotransporter Full Activation by Cell Swelling

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Zesergio Melo

The Effect of WNK4 on the Na+–Cl− Cotransporter Is Modulated by Intracellular Chloride

Molecular evidence for a role for K+-Cl− cotransporters in the kidney

N-terminal Serine Dephosphorylation Is Required for KCC3 Cotransporter Full Activation by Cell Swelling

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Molecular evidence for a role for K⁺-Cl⁻ cotransporters in the kidney