Michael Waterman
Faculty Member
Last active: 2/12/2015

Ontogeny of adrenal steroid hydroxylases: evidence for cAMP-independent gene expression.

John ME, Simpson ER, Carr BR, Magness RR, Rosenfeld CR, Waterman MR, Mason JI
Mol Cell Endocrinol. 1987 50 (3): 263-8

PMID: 2436959 · DOI:10.1016/0303-7207(87)90025-6

Total RNA from normal and anencephalic human fetal adrenals was examined by blot analysis for transcripts encoding P-450scc, P-450(11) beta, P-450(17) alpha, P-450C21 and adrenodoxin using bovine cDNA clones specific for these different enzymes. The specific contents of RNA encoding these components of the adrenocortical steroidogenic pathway were found to be similar in both types of adrenal tissue. Likewise, immunoblot analysis showed comparable concentrations of P-450scc, P450(17) alpha and adrenodoxin protein to be present in adrenal tissues from normal and anencephalic human fetuses. Immunoblot analysis of homogenates of fetal sheep adrenals of increasing gestational age (85-145 days) showed constant levels of P-450scc and P-450(11) beta, but increasing P-450(17) alpha content, especially near term. Both sheep fetuses prior to 136 days gestational age and human anencephalic fetuses are known to have extremely low circulating levels of immunoreactive ACTH as well as very low adrenal adenylate cyclase activity. Thus, it is concluded that factors other than pituitary ACTH which operate independent of adenylate cyclase activation are required for the initial expression (imprinting) of steroid hydroxylase genes.

MeSH Terms (12)

Adenylyl Cyclases Adrenal Glands Adrenocorticotropic Hormone Anencephaly Animals Embryonic and Fetal Development Gene Expression Regulation Humans In Vitro Techniques RNA Sheep Steroid Hydroxylases

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