Integrated compensatory network is activated in the absence of NCC phosphorylation
P. Richard Grimm, … , James B. Wade, Paul A. Welling
P. Richard Grimm, … , James B. Wade, Paul A. Welling
Published April 20, 2015
Citation Information: J Clin Invest. 2015;125(5):2136-2150. https://doi.org/10.1172/JCI78558.
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Research Article Nephrology

Integrated compensatory network is activated in the absence of NCC phosphorylation

Abstract

Thiazide diuretics are used to treat hypertension; however, compensatory processes in the kidney can limit antihypertensive responses to this class of drugs. Here, we evaluated compensatory pathways in SPAK kinase–deficient mice, which are unable to activate the thiazide-sensitive sodium chloride cotransporter NCC (encoded by Slc12a3). Global transcriptional profiling, combined with biochemical, cell biological, and physiological phenotyping, identified the gene expression signature of the response and revealed how it establishes an adaptive physiology. Salt reabsorption pathways were created by the coordinate induction of a multigene transport system, involving solute carriers (encoded by Slc26a4, Slc4a8, and Slc4a9), carbonic anhydrase isoforms, and V-type H+-ATPase subunits in pendrin-positive intercalated cells (PP-ICs) and ENaC subunits in principal cells (PCs). A distal nephron remodeling process and induction of jagged 1/NOTCH signaling, which expands the cortical connecting tubule with PCs and replaces acid-secreting α-ICs with PP-ICs, were partly responsible for the compensation. Salt reabsorption was also activated by induction of an α-ketoglutarate (α-KG) paracrine signaling system. Coordinate regulation of a multigene α-KG synthesis and transport pathway resulted in α-KG secretion into pro-urine, as the α-KG–activated GPCR (Oxgr1) increased on the PP-IC apical surface, allowing paracrine delivery of α-KG to stimulate salt transport. Identification of the integrated compensatory NaCl reabsorption mechanisms provides insight into thiazide diuretic efficacy.

Authors

P. Richard Grimm, Yoskaly Lazo-Fernandez, Eric Delpire, Susan M. Wall, Susan G. Dorsey, Edward J. Weinman, Richard Coleman, James B. Wade, Paul A. Welling

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Figure 9

Induction of PT transport proteins in SPAK KO mice facilitates α-KG production and secretion.

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Induction of PT transport proteins in SPAK KO mice facilitates α-KG prod...
(A) PT-specific gene profile revealed upregulation of 2 glutamine (Gln) transporters (Slc38a3 and Slc38a2) and 2 α-KG transporters (Slc22a13 and Slc13a2). (B and C) Summary of qPCR screen for glutamine and glutamate transporters, α-KG transporters, and Nhe3. Data represent the mean ± SEM. n = 6 animals per group. *P < 0.05 by 2-tailed t test for WT versus KO. (D) Transport model showing that stimulation of Gln and Glu uptake transporters provides a substrate for ammoniagenesis and α-KG production, while the differential regulation of α-KG transporters favors α-KG delivery into the tubular fluid for paracrine activation of OXGR1. BLM, basolateral membrane.