Vanadate treatment can lower glycemia in diabetic rats. This action is generally attributed to vanadate's insulinomimetic properties, but vanadate also inhibits feeding, which could lower blood glucose. We therefore assessed the contribution of hypophagia to vanadate's antihyperglycemic action in a 3-week study of streptozocin-induced (STZ) diabetic rats. Untreated diabetic rats (n = 8) ate 54% more food than nondiabetic control rats (P < 0.001). Diabetic rats given sodium metavanadate (0.5 mg in 0.5 ml of water by gavage twice daily; n = 8) had significantly lower food intakes (P < 0.001) than untreated diabetic rats. In vanadate-treated diabetic rats, blood glucose levels were significantly lower than in untreated diabetic rats (P < 0.001). Untreated diabetic rats pair-fed to the food intake of the vanadate-treated diabetic rats (n = 8) showed virtually identical blood glucose falls (P > 0.05 vs. vanadate-treated diabetic rats). Vanadate treatment did not affect plasma insulin concentrations in diabetic rats. In nondiabetic rats (n = 8), vanadate treatment significantly reduced food intake (P < 0.05) and also lowered plasma insulin concentrations (P < 0.05) without significantly affecting glycemia. To investigate the mechanism of vanadate's hypophagic effect, we also measured regional hypothalamic levels of neuropeptide Y (NPY), a potent central appetite stimulant that is thought to drive hyperphagia in STZ-induced diabetes. Hypothalamic NPY concentrations rise markedly in diabetes and are normalized by insulin replacement. Unlike insulin, vanadate treatment did not normalize regional hypothalamic NPY concentrations in diabetic rats. Vanadate does not therefore appear to exert an insulin-like action at the hypothalamic level; its hypophagic action does not appear to involve inhibition of NPYergic pathways in the hypothalamus. We conclude that the glucose-lowering effect of vanadate in STZ-induced diabetic rats can be explained by its inhibition of feeding. Although vanadate has certain insulinomimetic effects in vitro and in vivo, the role of these effects in vanadate's antidiabetic actions must be critically reexamined.

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