Thermoregulatory dysfunction in post‐weaning congenic corpulent rats

Abstract

To assess the capacity for cold induced thermoregulation in congenic corpulent rats, groups of normally fed post‐weaning lean and obese LA/Ntul//‐cp rats 6‐9 weeks of age were subjected to a 24°C vs. 4°C environment for < 14 hours. Measures of resting VO2 (RMR) and the thermoregulatory responses to cold exposure, the thermic response to noradrenaline, thyroidal parameters, and measures of core and peripheral body temperatures following cold exposure were obtained. Body weights of obese were greater than in lean rats (p=<0.01), and 14 hours of 4°C exposure demonstrated phenotype effects on both core and rectal temperatures (lean > obese, rectal p=0.0012, core p= 0.0038). The RMR at thermal neutrality and the thermic response to 45 minutes of acute 4°C cold exposure was greater in lean than obese phenotype at all time points measured. The thermic responses to 100 vs 200 µg NE s.c. were greater in lean than in obese rats. Cold exposure induced a significant increase in circulating T3 and the T3:T4 ratios but T4 concentrations were unchanged by cold exposure challenge. Phenotype effects on outer ring T4‐5’ deiodinase activity/mg protein were present in Kidney and Liver (Lean > Obese) while Interscapular brown adipose tissue (IBAT) demonstrated both phenotype and cold induced effects (Obese > Lean). In contrast, T4‐5’deiodinase activity in gastrocnemius muscle tissue was similar in both phenotypes and lacked cold induced effects (p= n.s.). The results of this study indicate that an impaired capacity for thermoregulation occurs early in the lifespan of the corpulent rat, despite a robust increase in total IBAT 5’deiodinase activity and in circulating T3 concentrations following cold exposure in both lean and obese phenotypes. While the physiologic basis for the elevated T3 concentrations following cold exposure remains unclear and are likely secondary to the combined effects of optimizing peripheral T4 to T3 conversion rates in both phenotypes, and possible changes in kinetics of T3 receptor binding and clearance in IBAT and other tissues and which may contribute to a greater caloric efficiency and propensity for weight gain in the obese phenotype.