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Structural basis for inhibition of the Cation-chloride cotransporter NKCC1 by the diuretic drug bumetanide

Yongxiang Zhao, Kasturi Roy, Pietro Vidossich, Laura Cancedda, Marco De Vivo, Biff Forbush, Erhu Cao

2022Nature Communications50 citationsDOIOpen Access PDF

Abstract

secretion and regulates excitability of some neurons and NKCC2 is critical to renal salt reabsorption. Both transporters are inhibited by the so-called loop diuretics including bumetanide, and these drugs are a mainstay for treating edema and hypertension. Here, our single-particle electron cryo-microscopy structures supported by functional studies reveal an outward-facing conformation of NKCC1, showing bumetanide wedged into a pocket in the extracellular ion translocation pathway. Based on these and the previously published inward-facing structures, we define the translocation pathway and the conformational changes necessary for ion translocation. We also identify an NKCC1 dimer with separated transmembrane domains and extensive transmembrane and C-terminal domain interactions. We further define an N-terminal phosphoregulatory domain that interacts with the C-terminal domain, suggesting a mechanism whereby (de)phosphorylation regulates NKCC1 by tuning the strength of this domain association.

Topics & Concepts

BumetanideCotransporterBiophysicsReabsorptionChemistryTransmembrane domainSymporterExtracellularEpithelial sodium channelChromosomal translocationTransporterCell biologyBiochemistrySodiumBiologyMembraneOrganic chemistryGeneIon Transport and Channel RegulationIon channel regulation and functionReceptor Mechanisms and Signaling