Altered ventilatory and thermoregulatory control in male and female adult Pet-1 null mice

The integrity of the serotonin (5-HT) system is essential to normal respiratory and thermoregulatory control. Male and female transgenic mice lacking central 5-HT neurons (Lmx1b(f/f/p) mice) show a 50% reduction in the hypercapnic ventilatory response and insufficient heat generation when cooled (Hodges and Richerson, 2008a; Hodges et al., 2008b). Lmx1b(f/f/p) mice also show reduced body temperatures (T(body)) and O(2) consumption (V) over dot(O2), and breathe less at rest and during hypoxia and hypercapnia when measured below thermoneutrality (24 degrees C), suggesting a role for 5-HT neurons in integrating ventilatory, thermal and metabolic control. Here, the hypothesis that Pet-1 null mice, which retain 30% of central 5-HT neurons, will demonstrate similar deficits in temperature and ventilatory control was tested. Pet-1 null mice had fewer medullary tryptophan hydroxylase-immunoreactive (TRH(+)) neurons compared to wild type (WT) mice, particularly in the midline raphe. Female (but not male) Pet-1 null mice had lower baseline ventilation ((V) over dot(E)), breathing frequency (f), (V) over dot(O2) and T(body) relative to female WT mice (P < 0.05). In addition, (V) over dot(E) and (V) over dot(E)/(V) over dot(O2) were decreased in male and female Pet-1 null mice during hypoxia and hypercapnia (P < 0.05), but only male Pet-1 null mice showed a significant deficit in the hypercapnic ventilatory response when expressed as % of control (P < 0.05). Finally, male and female Pet-1 null mice showed significant decreases in T(body) when externally cooled to 4 degrees C. These data demonstrate that a moderate loss of 5-HT neurons leads to a modest attenuation of mechanisms defending body temperature, and that there are gender differences in the contributions of 5-HT neurons to ventilatory and thermoregulatory control. (C) 2011 Elsevier B.V. All rights reserved.