Evidence that exercise-induced heat storage is dependent on adrenomedullary secretion

To investigate the influence of medullary adrenal secretion on thermoregulation during exercise, Phy (Eserine, 5 × 10− 3 M) was injected into the lateral cerebral ventricle of normal (INT) or bilaterally adrenodemedullated (ADM) untrained rats. Body temperature (Tb) and metabolic rate were measured in the rats while they were exercising on a treadmill (20 m min− 1, 5% inclination) until fatigue or while they were at rest after drug injection. In resting rats, Phy increased oxygen consumption in both INT or ADM rats without any effect on core temperature. During the dynamic phase of exercise (first 20 min), ADM attenuated the exercise-induced increase in core temperature (0.86 ± 0.12 °C ADM Sal vs 1.48 ± 0.21 °C INT Sal), thus reducing heat storage (HS) levels. Icv injection of Phy in ADM rats significantly reduced the increase in Tb (0.012 ± 0.10 °C min− 1 Phy vs 0.042 ± 0.006 °C min− 1 Sal; p < 0.02) and HS (65.8 ± 56.1 cal Phy vs 207.7 ± 32.7 cal Sal; p < 0.04) compared to ADM Sal rats. In conclusion, the exercise-induced increase in heat storage was attenuated by adrenodemedullation in rats. Furthermore, the activation of heat loss mechanisms by the central cholinergic system during exercise occurs independently of adrenal medullary secretion suppression and can be improved by previous adrenodemedullation. Our data indicate the existence of a dual mechanism of heat loss control during the dynamic phase of exercise: one involving sympathoadrenal system activation that impairs heat loss and another that counteracts the increased sympathoadrenal activity through the hypothalamic cholinergic system to promote heat loss.