Blocking Dopamine D2 Receptors by Haloperidol Curtails the Beneficial Impact of Calorie Restriction on the Metabolic Phenotype of High-Fat Diet Induced Obese Mice

Calorie restriction is the most effective way of expanding life‐span and decreasing morbidity. It improves insulin sensitivity and delays the age‐related loss of dopamine receptor D2 (DRD2) expression in the brain. Conversely, high‐fat feeding is associated with obesity, insulin resistance and a red...

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Veröffentlicht in:Journal of neuroendocrinology 2011-02, Vol.23 (2), p.158-167
Hauptverfasser: de Leeuw van Weenen, J. E., Auvinen, H. E., Parlevliet, E. T., Coomans, C. P., Schröder-van der Elst, J. P., Meijer, O. C., Pijl, H.
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Sprache:eng
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Zusammenfassung:Calorie restriction is the most effective way of expanding life‐span and decreasing morbidity. It improves insulin sensitivity and delays the age‐related loss of dopamine receptor D2 (DRD2) expression in the brain. Conversely, high‐fat feeding is associated with obesity, insulin resistance and a reduced number of DRD2 binding sites. We hypothesised that the metabolic benefit of calorie restriction involves the preservation of appropriate DRD2 transmission. The food intake of wild‐type C57Bl6 male mice was restricted to 60% of ad lib. intake while they were treated with the DRD2 antagonist haloperidol or vehicle using s.c. implanted pellets. Mice with ad lib. access to food receiving vehicle treatment served as controls. All mice received high‐fat food throughout the experiment. After 10 weeks, an i.p. glucose tolerance test was performed and, after 12 weeks, a hyperinsulinaemic euglycaemic clamp. Hypothalamic DRD2 binding was also determined after 12 weeks of treatment. Calorie‐restricted (CR) vehicle mice were glucose tolerant and insulin sensitive compared to ad lib. (AL) fed vehicle mice. CR mice treated with haloperidol were slightly heavier than vehicle treated CR mice. Haloperidol completely abolished the beneficial impact of calorie restriction on glucose tolerance and partly reduced the insulin sensitivity observed in CR vehicle mice. The metabolic differences between AL and CR vehicle mice were not accompanied by alterations in hypothalamic DRD2 binding. In conclusion, blocking DRD2 curtails the metabolic effects of calorie restriction. Although this suggests that the dopaminergic system could be involved in the metabolic benefits of calorie restriction, restricting access to high‐fat food does not increase (hypothalamic) DRD2 binding capacity, which argues against this inference.
ISSN:0953-8194
1365-2826
DOI:10.1111/j.1365-2826.2010.02092.x