Dehydroepiandrosterone: Biosynthesis and Metabolism in the Brain

doi:10.1210/en.140.2.880

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Dehydroepiandrosterone: Biosynthesis and Metabolism in the Brain

Ismail H. Zwain and Samuel S. C. Yen

Department of Reproductive Medicine, University of California-San Diego School of Medicine, La Jolla, California 92093-0633

Address all correspondence and requests for reprints to: Dr. Ismail H. Zwain, Department of Reproductive Medicine, University of California-San Diego School of Medicine, La Jolla, California 92093-0633. E-mail: izwain{at}ucsd.edu

Dehydroepiandrosterone (DHEA) is abundantly found in brain tissuesof several species, including human. However, the cellular originand pathway by which DHEA is synthesized in brain are not yetknown. We have, therefore, initiated pilot experiments to exploregene expression of cytochrome P450 17 ${alpha}$ -hydroxylase (P450c17), thekey steroidogenic enzyme for androgen synthesis, and evaluate DHEAproduction by highly purified astrocytes, oligodendrocytes,and neurons. Using RT-PCR, we have demonstrated for the firsttime that astrocytes and neurons in the cerebral cortex of neonatalrat brain express P450c17. The presence of P450c17 in astrocytesand neurons was supported by the ability of these cells to metabolizepregnenolone to DHEA in a dose-dependent manner as determinedby RIA. These data were further confirmed by production of androstenedioneby astrocytes using progesterone as a substrate. However, corticalneurons express a low transcript of P450c17 messenger RNA andproduce low levels of DHEA and androstenedione compared withastrocytes. Oligodendrocytes neither express the messenger RNAnor produce DHEA. The production of DHEA by astrocytes is notlimited to cerebral cortex, as hypothalamic astrocytes produceDHEA at a level 3 times higher than that produced by corticalastrocytes. Cortical and hypothalamic astrocytes also have thecapacity to metabolize DHEA to testosterone and estradiol ina dose-dependent manner. However, hypothalamic astrocytes were3 times more active than cortical astrocytes in the metabolismof DHEA to estradiol. In conclusion, our data presented evidencethat astrocytes and neurons express P450c17 and synthesize DHEAfrom pregnenolone. Astrocytes also have the capacity to metabolize DHEAinto sex steroid hormones. These data suggest that as in gonadsand adrenal, DHEA is biosynthesized in the brain by a P450c17-dependentmechanism.

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