LPLRFamide causes anorexigenic effects in broiler chicks and Bobwhite quail.

Although LPLRFamide was the first member of the RFamide family to be isolated from a vertebrate species, its effects on hunger and satiety-related processes are poorly documented. Thus, we intracerebroventricularly administered LPLRFamide (3.0-15.0 nmol) to both Cobb-500 (a broiler type of Gallus gallus) and Bobwhite quail (Colinus virginianus) chicks and measured their food intake. The threshold of anorexigenic response was 7.0 nmol in Cobb-500 chicks and the effect had diminished by 30 min post-injection. In Bobwhite quail all doses of LPLRFamide tested caused anorexia that remained throughout the 60 min observation period. A comprehensive behavior analysis was conducted and Cobb-500 chicks had increased food pecks early in the observation period and spent a greater amount of time in deep rest. Although food pecks were increased pecking efficiency was decreased. In Bobwhite quail, feeding pecks and the number of jumps were reduced after LPLRFamide treatment. We judged that these behaviors in both species were likely not competitive with ingestion and thus did not secondarily contribute to anorexia. These results demonstrate that LPLRFamide is associated with satiety-related processes in Cobb-500 chicks and Bobwhite quail, while threshold of responses are different.

Central calcitonin exerts anorectic effects via the hypothalamus in chicks.

Calcitonin (CT) causes satiety in mammals, but the mechanisms that mediate this effect are poorly understood. Additionally, there are no reports on CT-induced satiety within the avian class. Therefore, the purpose of this study was to elucidate some of the central mechanisms regulating CT-induced satiety in a non-mammalian vertebrate, the chick. Broiler-type chicks, at 4 days of age, responded to central CT (0.3, 1.0 and 3.0 nmol) with both reduced food and water intake. The effect on water intake was secondary to that of food. An increased number of c-Fos immunoreactive cells were found in hypothalamic nuclei associated with satiety including the arcuate nucleus, dorsomedial nucleus and ventromedial hypothalamus after central CT injection. Increased jumps, distance traveled and time spent perching on food containers were also observed, and these behaviors are likely not competitive with ingestion. Also, central CT injection was associated with reduced food pecks, but increased pecking efficiency. Blockage of corticotrophin releasing factor receptors did not prevent central CT-induced satiety. Central CT appears to be a regulator of satiety in chicks and this effect is likely mediated via interactions within the hypothalamus.