Regulation of the adrenal androgen biosynthesis

Rainey, William E.; Nakamura, Yasuhiro

doi:10.1016/j.jsbmb.2007.09.015

Cited by 145 publications

(114 citation statements)

References 44 publications

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“…The physiological role of circulation DHEA and DHEA-S as sources of bulk androgen cannot be overlooked (Rainey et al 2004, Rainey & Nakamura 2008, Rege & Rainey 2012, because a source of androgen is required to rapidly produce the sex-related hormones during adrenarche and parturition. Our studies of DHEA metabolism and the biological action of DHEA and its metabolites on hepatic metabolism have provided evidence that induction of the enzymes normally involved in foreign compound metabolism by DHEA is common to those induced by drugs and chemical toxicants (Webb et al 2006).…”

Section: Discussionmentioning

confidence: 99%

“…DHEA synthesis mainly occurs in the adrenal zona reticularis: the inner zone of the adrenal cortex (Parker Jr 1999;Rainey & Nakamura 2008). All steroid hormones are derived from cholesterol with the first enzymatic reaction occurring in the mitochondria.…”

Section: Dhea Synthesis and Metabolism Overviewmentioning

confidence: 99%

“…DHEA is modified at the 3βʹ-hydroxyl group to generate DHEA sulfate (DHEA-S). DHEA and DHEA-S synthesis are developmentally and hormonally regulated (reviewed in Rainey & Nakamura 2008). Regeneration of active DHEA occurs in tissues via the action of steroid sulfatase, and this is an important biological function of adipose in postmenopausal women in whom the major source of estradiol is from adrenal DHEA-S conversion to estrogens in fat tissue (Labrie et al 2007).…”

Section: Dhea Synthesis and Metabolism Overviewmentioning

confidence: 99%

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Novel mechanisms for DHEA action

Prough

Clark

Klinge

2016

Journal of Molecular Endocrinology

134

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Dehydroepiandrosterone (3β-hydroxy-5-androsten-17-one, DHEA), secreted by the adrenal cortex, gastrointestinal tract, gonads, and brain, and its sulfated metabolite DHEA-S are the most abundant endogeneous circulating steroid hormones. DHEA actions are classically associated with age-related changes in cardiovascular tissues, female fertility, metabolism, and neuronal/CNS functions. Early work on DHEA action focused on the metabolism to more potent sex hormones, testosterone and estradiol, and the subsequent effect on the activation of the androgen and estrogen steroid receptors. However, it is now clear that DHEA and DHEA-S act directly as ligands for many hepatic nuclear receptors and G-protein-coupled receptors. In addition, it can function to mediate acute cell signaling pathways. This review summarizes the molecular mechanisms by which DHEA acts in cells and animal models with a focus on the 'novel' and physiological modes of DHEA action.

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Section: Discussionmentioning

confidence: 99%

Section: Dhea Synthesis and Metabolism Overviewmentioning

confidence: 99%

Section: Dhea Synthesis and Metabolism Overviewmentioning

confidence: 99%

See 1 more Smart Citation

Novel mechanisms for DHEA action

Prough

Clark

Klinge

2016

Journal of Molecular Endocrinology

134

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“…If TBC inhibited cortisol and aldosterone synthesis, it could possibly disturb cortical hormone balance and may cause health problems related with glycometabolism (Løvås and Husebye 2007). 3bHSD2 play a vital role in the adrenal biosynthesis of mineralocorticoids (aldosterone) and glucocorticoids (cortisol), but its expression is oppositely correlated with adrenal androgens synthesis such as dehydroepiandrosterone (DHEA), dehydroepiandrosterone sulfate (DHEAS) and androstenedione (Rainey and Nakamura 2008). CYP17 is a dual-functional enzyme that catalyzes the synthesis of both cortisol and androgens.…”

Section: Discussionmentioning

confidence: 99%

Effects of tris(2,3-dibromopropyl) isocyanurate on steroidogenesis in H295R cells

Pan

Wang

et al. 2016

Environ Earth Sci

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Tris(2,3-dibromopropyl) isocyanurate (TBC) is widely used in polymer products. It is ubiquitously found in environmental matrices. Previous studies have shown that TBC has potential endocrine-disrupting effects on aquatic organisms. However, the effects on adrenocortical function and the underlying mechanisms are not well characterized. In present study, the H295R cell line was employed to investigate the potential endocrine-disrupting action of TBC. TBC inhibited basal and forskolin-induced sex hormone production but did not exhibit cytotoxicity. The expression of the steroidogenic genes, StAR, 3bHSD2, CYP17, CYP21, CYP19, HMGR, 17bHSD1, 17bHSD4 and CYP11A, was not changed upon TBC exposure. However, the cAMP inducer forskolin strongly induced the expression of all these genes, except for HMGR, 17bHSD1 and 17bHSD4. TBC blocked forskolin-induced StAR, 3bHSD2, CYP17, CYP21 and CYP19 mRNA expression. Our results indicate that TBC can inhibit sex hormone biosynthesis due to the interference with steroidogenic gene transcription in activated condition.

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“…In men, androgens are produced by testes and adrenals in different amounts (6,7,8). Serum TS levels derive mostly from testes, as well as progesterone (P), androstenedione (AS), and 17-hydroxyprogesterone (17OHP) (∆4 pathway).…”

Section: Introductionmentioning

confidence: 99%

Human chorionic gonadotropin stimulation gives evidence of differences in testicular steroidogenesis in Klinefelter syndrome, as assessed by liquid chromatography–tandem mass spectrometry

Belli

Santi

Leoni

et al. 2016

European Journal of Endocrinology

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Background: Men with Klinefelter syndrome (KS) show hypergonadotropic hypogonadism, but the pathogenesis of hypotestosteronemia remains unclear. Testicular steroidogenesis in KS men was evaluated over three decades ago after human chorionic gonadotropin (hCG) stimulation, but inconclusive results were obtained. Intriguingly, some recent studies show increased intratesticular testosterone concentrations in men with KS. Objective: To analyze serum steroid profile, as a proxy of testicular steroidogenesis, after hCG stimulation in KS compared with control men. Design: A prospective, longitudinal, case-control, clinical trial. Methods: Thirteen KS patients (36 ± 9 years) not receiving testosterone (TS) replacement therapy and 12 eugonadic controls (32 ± 8 years) were enrolled. Serum steroids were measured by liquid chromatography-tandem mass spectrometry (LC-MS/MS) at baseline and for five consecutive days after intramuscular injection of 5000 IU hCG. Results: Progesterone (P), 17-hydroxyprogesterone (17OHP), TS, and estradiol (E2) showed a significant increase (P < 0.001) after hCG stimulation in both groups. On the contrary, androstenedione (AS) and dehydroepiandrosterone did not increase after hCG stimulation. The 17OHP/P ratio increased in both groups (P < 0.001), the TS/AS ratio (17β-hydroxysteroid dehydrogenase type 3 (17βHSD3) activity) did not increase after hCG in any group, and the E2/TS ratio (aromatase activity) increased significantly in both groups (P = 0.009 in KS and P < 0.001 in controls). Luteinizing hormone decreased after hCG in both groups (P = 0.014 in KS and P < 0.001 in controls), whereas follicle-stimulating hormone decreased only in control men (P < 0.001). Conclusion: This study demonstrates for the first time using LC-MS/MS that Leydig cells of KS men are able to respond to hCG stimulation and that the first steps of steroidogenesis are fully functional. However, the TS production in KS men is impaired, possibly related to reduced hydroxysteroid deydrogenase activity due to an unfavorable intratesticular metabolic state.

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Regulation of the adrenal androgen biosynthesis

Cited by 145 publications

References 44 publications

Novel mechanisms for DHEA action

Novel mechanisms for DHEA action

Effects of tris(2,3-dibromopropyl) isocyanurate on steroidogenesis in H295R cells

Human chorionic gonadotropin stimulation gives evidence of differences in testicular steroidogenesis in Klinefelter syndrome, as assessed by liquid chromatography–tandem mass spectrometry

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