Increased vasopressinergic activity as a possible compensatory mechanism for a normal hypothalamic-pituitary-adrenal axis response to stress in BALB/c nude mice

A bidirectional relationship between the immune and neuroendocrine systems is now widely accepted. Since it is well known that the thymus plays an important role in the regulation of the immune function, we decided to explore whether a lack of the thymic function may influence hypothalamic-pituitary-adrenal (HPA) axis activity. Eight-week-old female mice of both strains, nude and control BALB/c, were used to study: (a) the in vivo response of the HPA axis to several stress stimuli acting at either the hypothalamic (insulin administration and ether vapor inhalation), pituitary (CRH and vasopressin injections) or adrenal (ACTH treatment) level and (b) the in vitro response of hypothalamic fragments to high KCl (48 mM) stimulation. The results indicate that: (1) basal plasma ACTH and vasopressin levels were significantly (p < 0.05) higher in nude than in control BALB/c mice, whereas basal plasma corticosterone concentrations were similar in both strains of mice; (2) although no significant strain-related difference in the stress-induced ACTH secretion in plasma was found, hypothalamic stimuli were able to induce a significantly (p < 0.05) higher secretion of glucocorticoid in plasma in nude than in control BALB/c mice; (3) the pattern of in vitro hypothalamic CRH release was similar in both strains of animals; however, basal AVP output and that stimulated by 48 mM KCl were significantly (p < 0.05) higher in nude than in control hypothalamic fragments, and (4) whereas hypothalamic CRH, pituitary ACTH and adrenal glucocorticoid contents were similar in both strains, hypothalamic AVP content was significantly (p < 0.05) higher in athymic than in control mice. In summary, our results indicate that nude mice have an increased vasopressinergic function which could contribute to a normal HPA axis activity; thus, adult athymic mice of BALB/c origin could compensate, due to their increased vasopressinergic function, for a robust glucocorticoid release to protect themselves immediately after aggression. It remains to be determined whether this enhanced vasopressinergic function is a result of an early adrenal insufficiency due to congenital deficiency of thymic factors known to stimulate HPA axis function.