Litcius/Paper detail

Dissociation of sodium-chloride cotransporter expression and blood pressure during chronic high dietary potassium supplementation

Robert Little, Sathish K. Murali, Søren Brandt Poulsen, P. Richard Grimm, Adrienne Assmus, Lei Cheng, Jessica R. Ivy, Ewout J. Hoorn, Vladimir V. Matchkov, Paul A. Welling, Robert A. Fenton

2023JCI Insight30 citationsDOIOpen Access PDF

Abstract

Dietary potassium (K+) supplementation is associated with a lowering effect in blood pressure (BP), but not all studies agree. Here, we examined the effects of short- and long-term K+ supplementation on BP in mice, whether differences depend on the accompanying anion or the sodium (Na+) intake and molecular alterations in the kidney that may underlie BP changes. Relative to the control diet, BP was higher in mice fed a high NaCl (1.57% Na+) diet for 7 weeks or fed a K+-free diet for 2 weeks. BP was highest on a K+-free/high NaCl diet. Commensurate with increased abundance and phosphorylation of the thiazide sensitive sodium-chloride-cotransporter (NCC) on the K+-free/high NaCl diet, BP returned to normal with thiazides. Three weeks of a high K+ diet (5% K+) increased BP (predominantly during the night) independently of dietary Na+ or anion intake. Conversely, 4 days of KCl feeding reduced BP. Both feeding periods resulted in lower NCC levels but in increased levels of cleaved (active) α and γ subunits of the epithelial Na+ channel ENaC. The elevated BP after chronic K+ feeding was reduced by amiloride but not thiazide. Our results suggest that dietary K+ has an optimal threshold where it may be most effective for cardiovascular health.

Topics & Concepts

Epithelial sodium channelCotransporterEndocrinologyInternal medicineSodiumChemistryThiazidePotassiumDistal convoluted tubuleAmilorideBlood pressureChlorideReabsorptionBiologyMedicineOrganic chemistrySodium Intake and HealthIon Transport and Channel RegulationRenal function and acid-base balance