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Structural bases for Na+-Cl− cotransporter inhibition by thiazide diuretic drugs and activation by kinases

Yongxiang Zhao, Heidi Schubert, Alan Blakely, Biff Forbush, Micholas Dean Smith, Jesse Rinehart, Erhu Cao

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

The Na+-Cl− cotransporter (NCC) drives salt reabsorption in the kidney and plays a decisive role in balancing electrolytes and blood pressure. Thiazide and thiazide-like diuretics inhibit NCC-mediated renal salt retention and have been cornerstones for treating hypertension and edema since the 1950s. Here we determine NCC co-structures individually complexed with the thiazide drug hydrochlorothiazide, and two thiazide-like drugs chlorthalidone and indapamide, revealing that they fit into an orthosteric site and occlude the NCC ion translocation pathway. Aberrant NCC activation by the WNKs-SPAK kinase cascade underlies Familial Hyperkalemic Hypertension, but it remains unknown whether/how phosphorylation transforms the NCC structure to accelerate ion translocation. We show that an intracellular amino-terminal motif of NCC, once phosphorylated, associates with the carboxyl-terminal domain, and together, they interact with the transmembrane domain. These interactions suggest a phosphorylation-dependent allosteric network that directly influences NCC ion translocation. The Na+-Cl− cotransporter (NCC) drives salt reabsorption in the kidney. Here the authors determine NCC co-structures individually complexed with the thiazide drug hydrochlorothiazide, and two thiazide-like drugs chlorthalidone and indapamide, revealing that they occlude the NCC ion translocation pathway.

Topics & Concepts

ThiazideCotransporterKinasePharmacologyDiureticChemistryMedicineBiochemistrySodiumOrganic chemistryPhenothiazines and Benzothiazines Synthesis and ActivitiesIon channel regulation and functionEnzyme function and inhibition
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