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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Cardiometabolic effects of DOCA-salt in male C57BL/6J mice are variably dependent on sodium and nonsodium components of diet.

Authors: Patil, Chetan N; Ritter, McKenzie L; Wackman, Kelsey K; Oliveira, Vanessa; Balapattabi, Kirthikaa; Grobe, Connie C; Brozoski, Daniel T; Reho, John J; Nakagawa, Pablo; Mouradian Jr, Gary C; Kriegel, Alison J; Kwitek, Anne E; Hodges, Matthew R; Segar, Jeffrey L; Sigmund, Curt D; Grobe, Justin L

Published In Am J Physiol Regul Integr Comp Physiol, (2022 Jun 01)

Abstract: Hypertension characterized by low circulating renin activity accounts for roughly 25%-30% of primary hypertension in humans and can be modeled experimentally via deoxycorticosterone acetate (DOCA)-salt treatment. In this model, phenotypes develop in progressive phases, although the timelines and relative contributions of various mechanisms to phenotype development can be distinct between laboratories. To explore interactions among environmental influences such as diet formulation and dietary sodium (Na) content on phenotype development in the DOCA-salt paradigm, we examined an array of cardiometabolic endpoints in young adult male C57BL/6J mice during sham or DOCA-salt treatments when mice were maintained on several common, commercially available laboratory rodent "chow" diets including PicoLab 5L0D (0.39% Na), Envigo 7913 (0.31% Na), Envigo 2920x (0.15% Na), or a customized version of Envigo 2920x (0.4% Na). Energy balance (weight gain, food intake, digestive efficiency, and energy efficiency), fluid and electrolyte homeostasis (fluid intake, Na intake, fecal Na content, hydration, and fluid compartmentalization), renal functions (urine production rate, glomerular filtration rate, urine Na excretion, renal expression of renin, vasopressin receptors, aquaporin-2 and relationships among markers of vasopressin release, aquaporin-2 shedding, and urine osmolality), and blood pressure, all exhibited changes that were subject to interactions between diet and DOCA-salt. Interestingly, some of these phenotypes, including blood pressure and hydration, were dependent on nonsodium dietary components, as Na-matched diets resulted in distinct phenotype development. These findings provide a broad and robust illustration of an environment × treatment interaction that impacts the use and interpretation of a common rodent model of low-renin hypertension.

PubMed ID: 35348007 Exiting the NIEHS site

MeSH Terms: No MeSH terms associated with this publication

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