Enhanced responses to stress induced by fat-feeding in rats: relationship between hypothalamic noradrenaline and blood glucose

WS Pascoe, GA Smythe, LH Storlien - Brain research, 1991 - Elsevier
WS Pascoe, GA Smythe, LH Storlien
Brain research, 1991Elsevier
High-fat-feeding in rats has been reported to enhance stress reactions, as assessed by
elevation of blood glucose and corticosterone levels. This study was designed to investigate
the relationship between changes in blood glucose and hypothalamic neuronal
noradrenaline activity (HNNA), as indexed by the ratio of dihydroxyphenylethynyleneglycol
(DHPG) to noradrenaline (NA), following physiological stress in high-fat-fed rats. Two groups
of adult male Wistar rats were fed isocaloric diets high in fat (59% of calories) or starch (70 …
Abstract
High-fat-feeding in rats has been reported to enhance stress reactions, as assessed by elevation of blood glucose and corticosterone levels. This study was designed to investigate the relationship between changes in blood glucose and hypothalamic neuronal noradrenaline activity (HNNA), as indexed by the ratio of dihydroxyphenylethynyleneglycol (DHPG) to noradrenaline (NA), following physiological stress in high-fat-fed rats. Two groups of adult male Wistar rats were fed isocaloric diets high in fat (59% of calories) or starch (70% of calories). After 3 weeks each of these groups was further subdivided into (a) control, (b) 2 min ambient temperature (20°C) swim or (c) 2 swim in ice-cold water. Animals were decapitated 20 min after commencing the swim; trunk blood and sample of medial basal hypothalamus were obtained. Computerized gas chromatography/mass spectrometry was used to measure hypothalamic DHPG and NA concentrations. There were no differences between fat- and starch-fed rats in basal levels of serum glucose, insulin or corticosterone and no differences in DHPG, NA or DHPG/NA ratio. Compared to starch-fed rats, ambients swim stress in the fat-fed group produced significantly larger serum glucose (P < 0.01), serum corticosterone (P < 0.05), DHPG (P < 0.05), and DHPG/NA (< 0.01) responses. Following cold swim stress similar differences between fat- and starch-fed animals were observed. In addition, serum insulin was found to be significantly suppressed in the fat-fed group (P < 0.05) following cold swim. Serum glucose, insulin and corticosterone levels correlated significantly with the DHPG/NA ratio across all groups (R = 0.54, P < 0.001; R = −0.36, P < 0.01;and, R = 0.53 P < 0.01, respectively). In conclusion, these studies provide further evidence for enhancement of stress responses in fat-fed rats and suggest these responses may be mediated through increased hypothalamic noradrenergic activity.
Elsevier
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