Adrenalectomy has been shown to reverse most facets of the syndrome of the genetically obese fa/fa rat. However, a detailed analysis of the hypothalamo-pituitary-adrenal (HPA) axis in these animals is lacking. In the present study, morning corticosteronemia was higher in obese rats of both sexes than in lean ones, whereas evening corticosteronemia was higher only in obese male rats. The HPA axis was further investigated using stressful stimuli. Immobilization, ether, and cold stresses resulted in greater corticosterone levels in obese than in lean animals. These abnormalities consisted in upward shifts of the corticosterone response in obese females and absolute increases in that of obese males, indicating that such alterations were more pronounced in obese male than obese female rats. Due to this, the putative origin of the increased corticosterone output of obese rats was studied in males. Greater levels of ACTH were reached in obese than in lean rats when submitted to a cold stress (6 C). Dexamethasone produced a complete suppression of corticosterone output in both lean and obese rats. During the recovery from such suppression, corticosterone levels rose to higher values in obese than in lean rats. This observation together with the greater cold-induced ACTH output in obese rats suggest that the increased activity of the HPA axis of these animals is of central origin. Whatever its precise etiology within the central nervous system, it is proposed that the increased HPA axis activity in obese rats and its resultant hypercorticism play a role in the establishment and maintenance of their syndrome.
The genetic obesity of the fa/fa rat is due to or accompanied by perturbances in the autonomic nervous control of different target tissues (e.g. endocrine pancreas, brown adipose tissue). These disorders are likely to be secondary to central dysregulation(s), which could lie somewhere within or in relationship with the hypothalamus. In view of the reported effects of CRF in stimulating sympathetic nerve-mediated mechanisms, while inhibiting vagus nerve-mediated ones, ovine CRF (oCRF) was administered for 7 days into the cerebral ventricles of fa/fa rats at a dose (5 micrograms/day) that did not affect the pituitary-adrenal axis. oCRF treatment stopped the excessive weight gain of the obese animals; oCRF-treated animals gained only 1 g over 6 days, while the vehicle-treated ones gained 29 g (P = 0.044). The oCRF effect was unrelated to changes in food intake, as the two groups were pair-fed. oCRF-treated obese rats were characterized by a decrease in basal hyperinsulinemia, increases in brown adipose tissue weight and activity, and decreases in hepatic glycogen content and epididymal fat pad weight. It is suggested that intracerebroventricular oCRF administration to obese fa/fa rats prevents the 10-15% increase in body weight observed in vehicle-infused obese rats within 1 week by modulating the impaired autonomic nervous control of different target tissues. This does not occur in lean rats.
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