Abstract
A 48-h period of fasting inhibits estrous cycles in Syrian hamsters, and fasting-induced anestrus can be prevented by intracerebroventricular treatment with leptin during the fasting period. In the present experiment, the effects of intracerebroventricular leptin were blocked by systemic treatment with inhibitors of metabolic fuel oxidation. Leptin was infused continuously into the lateral ventricles (1 microgram/day) during fasting on days 1 and 2 of the estrous cycle. Intraperitoneal injection of 2-deoxy-D-glucose (2DG) was used to block both central and peripheral glucose oxidation, and intragastric treatment with methyl palmoxirate (MP) was used to inhibit peripheral long-chain fatty acid oxidation during the fasting and leptin-treatment period. 2DG or MP were administered at doses that did not induce anestrus in ad libitum-fed hamsters. Despite elevated central levels of leptin, fasting-induced anestrus occurred in hamsters treated with either 2DG or MP. Thus an elevated intracerebroventricular leptin concentration is not a sufficient condition for normal estrous cycles when fuel oxidation is inhibited. These results raise the possibility that central leptin influences reproduction by indirect effects on peripheral fuel metabolism.
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