Cardiometabolic Effects of DOCA-Salt in Mice Depend on Ambient Temperature

• Published in: Hypertension (Dallas, Tex. 1979) Vol. 80; no. 9; pp. 1871 - 1880
• Main Authors: Grobe, Connie C, Reho, John J, Brown-Williams, Daeleon, Ziegler, Alisha A, Mathieu, Natalia M, Lawton, Samuel B R, Fekete, Eva M, Brozoski, Daniel T, Wackman, Kelsey K, Burnett, Colin M L, Nakagawa, Pablo, Sigmund, Curt D, Segar, Jeffrey L, Grobe, Justin L
• Format: Journal Article
• Language: English
• Published: United States 01.09.2023
• Subjects: Animals; Blood Pressure - physiology; Desoxycorticosterone - pharmacology; Desoxycorticosterone Acetate - pharmacology; Humans; Hypertension - chemically induced; Mice; Mice, Inbred C57BL; Temperature; metabolism; animals; electrolytes; body water
• ISSN: 0194-911X; 1524-4563; 1524-4563
• DOI: 10.1161/HYPERTENSIONAHA.122.20415

Mice prefer warmer environments than humans. For this reason, behavioral and physiological thermoregulatory responses are engaged by mice in response to a standard room temperature of 22 to 24 °C. Autonomic mechanisms mediating thermoregulatory responses overlap with mechanisms activated in hypertension, and, therefore, we hypothesized that housing at thermoneutral temperatures (TNs; 30 °C) would modify the cardiometabolic effects of deoxycorticosterone acetate (DOCA)-salt in mice. The effects of DOCA-salt treatment upon ingestive behaviors, energy expenditure, blood pressure, heart rate (HR), and core temperature were assessed in C57BL/6J mice housed at room temperature or TN. Housing at TN reduced food intake, energy expenditure, blood pressure, and HR and attenuated HR responses to acute autonomic blockade by chlorisondamine. At room temperature, DOCA-salt caused expected increases in fluid intake, sodium retention in osmotically inactive pools, blood pressure, core temperature, and also caused expected decreases in fat-free mass, total body water, and HR. At TN, the effects of DOCA-salt upon fluid intake, fat gains, hydration, and core temperature were exaggerated, but effects on energy expenditure and HR were blunted. Effects of DOCA-salt upon blood pressure were similar for 3 weeks and exaggerated by TN housing in the fourth week. Ambient temperature robustly influences behavioral and physiological functions in mice, including metabolic and cardiovascular phenotype development in response to DOCA-salt treatment. Studying cardiometabolic responses of mice at optimal ambient temperatures promises to improve the translational relevance of rodent models.