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Center for Reproductive Sciences Department of Obstetrics & Gynecology & Reproductive Sciences and The Metabolic Research Unit University of California San Francisco, California 94143-0556
Neurosteroids are important endogenous
regulators of 
-aminobutryic acid (GABAA) and
N-methyl-D-aspartate (NMDA) receptors
and also influence neuronal morphology and function.
Neurosteroids are produced in the brain using many of the same enzymes
found in the adrenal and gonad. The crucial enzyme for the synthesis of
DHEA (dehydroepiandrosterone) in the brain is cytochrome
P450c17. The transcriptional strategy for the expression of P450c17 is
clearly different in the brain from that in the adrenal or gonad. We
previously characterized a novel transcriptional regulator from Leydig
MA-10 cells, termed StF-IT-1, that binds at bases -447/-399 of the
rat P450c17 promoter, along with the known transcription factors
COUP-TF (chicken ovalbumin upstream promoter transcription factor),
NGF-IB (nerve growth factor inducible protein B), and SF-1
(steroidogenic factor-1). We have now purified and sequenced
this protein from immature porcine testes, identifying it as the
nuclear phosphoprotein SET; a role for SET in transcription was not
established previously. Binding of bacterially expressed human and rat
SET to the DNA site at -418/-399 of the rat P450c17 gene
transactivates P450c17 in neuronal and in testicular Leydig cells. We
also found SET expressed in human NT2 neuronal precursor cells,
implicating a role in neurosteroidogenesis. Immunocytochemistry and
in situ hybridization in the mouse fetus show that the
ontogeny and distribution of SET in the developing nervous system are
consistent with SET being crucial for initiating P450c17 transcription.
SET’s developmental pattern of expression suggests it may participate
in the early ontogenesis of the nervous, as well as the skeletal and
hematopoietic, systems. These studies delineate an important new factor
in the transcriptional regulation of P450c17 and consequently, in the
production of DHEA and sex steroids.
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