Early weaning disrupts feeding patterns in female juvenile rats through 5HT-system modulations.

Convergent evidence in literature shows that rapid disruption of maternal care and breastfeeding due to an early weaning protocol changes the development of several neurobehavioral patterns in rodents, including the circadian pattern of feeding. The serotoninergic system has been associated with the control of feeding patterns. Therefore, we aim to evaluate the patterns of feeding, the mRNA expression of 5 H T-1b, 5 H T-2c, and SERT on the hypothalamus, brainstem, and the body weight of female juvenile Wistar rats, submitted to early (PND15) or regular (PND30) weaning. The results demonstrate that early weaning promotes an increase in food intake in a 24 -h period, in the dark phase of the circadian cycle and in the four-hour time intervals at the beginning of the dark and light phases. Also, early weaning decreases the mRNA expression of 5 H T-1b, 5 H T-2c, and SERT on the hypothalamus, but increases it on the brainstem. Additionally, early weaning promotes an increase in body weight. Therefore, the present data demonstrate that early weaning changes the patterns of feeding in juvenile female rats and suggests that this behavioral modification is due to the modulations promoted in the 5 H T-system.

Effects of perinatal protein malnutrition and fenfluramine action on food intake and neuronal activation in the hypothalamus and raphe nuclei of neonate rats.

In neonatal rats, hunger and satiety responses occur particularly via dehydration and gastric distention, respectively. The control of food intake in newborns is yet to be fully consolidated, particularly with respect to the participation of the hypothalamic nuclei and their relationship with the serotonergic pathway. Moreover, it is unclear how the environmental stressors in early life, like undernutrition, interfere in these events. Therefore, this study examined the serotonin-system's impact on food intake in rat neonates at postnatal day (P) 10 and P18 and the manner in which protein undernutrition during pregnancy and lactation interferes in this behavior. To accomplish this, Wistar rats were used, nutritionally manipulated by a diet having two protein levels, (8% and 17%) during pregnancy and lactation, to form the Control (n=10) and Low protein groups (n=10). At 10 and 18 postnatal days pups received an acute dose of fenfluramine (3mg/kg) or saline (0.9% NaCl) and subjected to milk consumption testing and then perfused to obtain the brains for the analysis of cell activation of the immunoreactive c-Fos in the hypothalamic and raphe nuclei. At 10days a reduction in weight gain was observed in both groups. On comparison of the neuronal activation for the paraventricular nucleus, an increased activation in response to fenfluramine was observed. At 18days, the weight gain percentage differed between the groups according to the nutritional manipulation, in which the control animals had no significant change while the undernourished presented increased weight gain with the use of fenfluramine. The marking of c-Fos in response to fenfluramine in the hypothalamic and raphe nuclei revealed, an especially lower activation of the PVN, MnR and DR compared intra-group. However when evaluating the effect of undernutrition, marking activation was observed to increase in all the nuclei analyzed, in the hypothalamus and raphe. Data from this study indicate that the action of serotonin via food intake in the neonates may have been delayed by early protein undernutrition.