Background/Aims: Studies conducted in adult rats have shown that increased fat intake affects brain energy homeostasis and stress response. The neuroendocrine circuits controlling the aforementioned functions continue to mature during puberty. The aim of the present study was to investigate whether post-weaning high-fat consumption can modify the endocrine responses of pubertal rats to an acute stress. Methods: Weaning male and female Wistar rats on postnatal day (P) 22 were fed either a high-fat (HF; 45% calories from fat) or a control (10% calories from fat) diet and were sacrificed on the individual day of puberty onset (between P35 and P42) under basal conditions or 4 h after swimming stress. Plasma insulin, leptin and corticosterone levels were determined by radioimmunoassay and the respective receptors in the hypothalamus and hippocampus were determined by Western blot analysis. Results: Stressed HF-fed males showed a smaller increase in plasma insulin levels than chow-fed males. Their leptin receptor levels were reduced in the hypothalamus, but not in the hippocampus, and their glucocorticoid receptor levels were increased in the hypothalamus compared to stressed chow-fed males. HF-fed females were nonresponsive to stress-induced alterations in plasma glucose and corticosterone levels, as well as to hippocampal insulin receptors following stress. Several sex differences were also revealed in the endocrine responses of HF-fed animals following stress. Conclusions: These data show that consumption of high-fat foods during preadolescence can modify the endocrine responses to an acute stress by affecting both stress and metabolic mediators in a sexually dimorphic manner.
Juvenile obesity is a rising epidemic due largely to consumption of caloric dense, fat-enriched foods. Nevertheless, literature on fat-induced neuroendocrine and metabolic disturbances during adolescence, preceding obesity, is limited. This study aimed to examine early events induced by a fat diet (45% calories from saturated fat) in male rats fed the diet during the pre- and post-pubertal period. The neuroendocrine endpoints studied were the levels of circulating leptin, insulin and corticosterone, as well as their receptors in the hypothalamus and hippocampus. Hormonal levels were determined by radioimmunoassay and receptors' levels by western blot analysis. Leptinemia was increased in pubertal rats and in adult rats fed the fat diet from weaning to adulthood, but not in those fed from puberty to adulthood. Modifications in the developmental pattern from puberty to adulthood were observed for most of the brain receptors studied. In adult animals fed the fat diet from weaning onwards, the levels of leptin receptors in the hypothalamus and glucocorticoid receptors in the hippocampus were decreased compared to chow-fed controls. Switching from fat to normal chow at puberty onset restored the diet-induced alterations on circulating leptin, but not on its hypothalamic receptors. These data suggest that when a fat-enriched diet, resembling those consumed by many teenagers, provided in rats during pubertal growth, it can longitudinally influence the actions of leptin and corticosterone in the brain. The observed alterations at a preobese state may constitute early signs of the disturbed energy balance toward overweight and obesity.
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