Steroid biosynthesis

About: Steroid biosynthesis is a research topic. Over the lifetime, 1721 publications have been published within this topic receiving 58977 citations.

Presence of immunoreactive corticotropin-releasing hormone in normal and polycystic human ovaries.

Abstract: Recently, we demonstrated the presence of immunoreactive (Ir) CRH and its receptors in the rat ovary. To determine whether CRH is also present in human ovaries, we examined ovaries from normal women and patients with the polycystic ovarian syndrome (PCOS). Immunoreactive CRH in normal human ovaries had a similar distribution to that of rat ovarian IrCRH, as determined by immunohistochemistry. Thus, immunoreactivity was intense in the cytoplasm of thecal cells surrounding the ovarian follicles, in luteinized cells of the stroma, and in a subpopulation of cells within the corpora lutea. No IrCRH was present in oocytes of primordial follicles. Polycystic ovaries also had IrCRH in thecal cells; however, CRH immunostaining was less prominent or completely absent from the stroma or the sparsely present corpora lutea and was clearly detected in oocytes of primordial follicles. Using a specific RIA, the IrCRH content in extracts of normal ovaries was higher than that in polycystic ovaries (mean +/- SD, 0.075 +/- 0.02 vs. 0.038 +/- 0.009 pmol/g wet tissue, respectively; P < 0.05). Human follicular fluid samples collected from women undergoing ovarian hyperstimulation for assisted reproduction had low, but detectable, levels of IrCRH (mean +/- SD, 4.975 +/- 1.179 pmol/L), whereas IrCRH was undetectable in concurrently drawn plasma samples. IrCRH detected in normal and polycystic ovaries and in follicular fluid had similar chromatographic mobility to that of rat/human CRH-(1-41) by reverse phase HPLC. We conclude that IrCRH is present in normal human ovaries and follicular fluid, suggesting that this neuropeptide may play a regulatory role in one or more of the various functions of this gonad, such as ovulation and/or luteolysis, through its proinflammatory properties and/or its auto/paracrine regulation of steroid biosynthesis, in analogy to its action on testosterone secretion by the Leydig cell. Its decreased concentration and localization in primary oocytes of polycystic ovaries may be related to the increased androgen biosynthesis by the theca and stroma and/or to the oocyte dysfunction observed in women with the polycystic ovarian syndrome, respectively.

ACTH is a potent regulator of gene expression in human adrenal cells

Abstract: The adrenal glands are the primary source of minerocorticoids, glucocorticoids, and the so-called adrenal androgens. Under physiological conditions, cortisol and adrenal androgen synthesis are controlled primarily by ACTH. Although it has been established that ACTH can stimulate steroidogenesis, the effects of ACTH on overall gene expression in human adrenal cells have not been established. In this study, we defined the effects of chronic ACTH treatment on global gene expression in primary cultures of both adult adrenal (AA) and fetal adrenal (FA) cells. Microarray analysis indicated that 48 h of ACTH treatment caused 30 AA genes and 84 FA genes to increase by greater than fourfold, with 20 genes common in both cell cultures. Among these genes were six encoding enzymes involved in steroid biosynthesis, the ACTH receptor and its accessory protein, melanocortin 2 receptor accessory protein (ACTH receptor accessory protein). Real-time quantitative PCR confirmed the eight most upregulated and one downregulated common genes between two cell types. These data provide a group of ACTH-regulated genes including many that have not been previously studied with regard to adrenal function. These genes represent candidates for regulation of adrenal differentiation and steroid hormone biosynthesis.