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Endocrinology, Vol 132, 86-93, Copyright © 1993 by Endocrine Society
ARTICLES |
GC Desjardins, JR Brawer and A Beaudet
Department of Anatomy, Montreal Neurological Institute, McGill University, Quebec, Canada.
The neurotoxic effects of estradiol on hypothalamic arcuate neurons were examined in a model of chronic estrogenization induced by means of a single injection of estradiol valerate (EV). Eight weeks after EV treatment, a 60% decrease in the total number of beta-endorphin- immunoreactive neurons was detected in the arcuate nucleus. In contrast, the numbers of neurotensin-, somatostatin-, and tyrosine hydroxylase-immunoreactive neurons were unchanged, suggesting that the effects of estradiol were selective for beta-endorphin neurons. Further evidence for the selectivity of estradiol's actions was provided by RIAs indicating decreases in hypothalamic beta-endorphin concentrations, but not in Metenkephalin or neuropeptide-Y concentrations. Cell counts performed in Nissl-stained material using unbiased stereological methods revealed a reduction in the total number of neurons in the EV-treated group compared to that in the controls. The estimated number of neurons lost (approximately 3500) corresponded precisely with the total number of beta-endorphin neurons lost (approximately 3600), as estimated using quantitative immunocytochemistry. These results confirm the selectivity of estradiol's effect on the beta-endorphin cell population and demonstrate that the observed decrease in beta-endorphin immunoreactivity reflects actual cell loss. The evidence indicates that the selective neurotoxic effect of estradiol on hypothalamic beta- endorphin neurons contributes to reproductive senescence, suggesting that steroids may participate in disruption of the biological functions that they normally facilitate.
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