11-Oxygenated C19 Steroids Are the Predominant Androgens in Polycystic Ovary Syndrome

O’Reilly, Michael; Kempegowda, Punith; Jenkinson, Carl; Taylor, Angela E.; Quanson, Jonathan L.; Storbeck, Karl-Heinz; Arlt, Wiebke

doi:10.1210/jc.2016-3285

Cited by 195 publications

(145 citation statements)

References 33 publications

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“…It is becoming apparent that the steroidogenic repertoire of the adrenal and, perhaps, the theca cell include 11-hydroxyandrostenedione, which is ultimately converted to the potent androgen 11-ketotestosterone [14]. Women with PCOS showed higher serum concentrations of the 11-oxygenated androgens 11β-hy droxyandrostenedione, 11-ketoandrostenedione, 11β-hy droxytestosterone, and 11-ketotestosterone concentrations than control women [15]. …”

Section: A Pathophysiologymentioning

confidence: 99%

An International Consortium Update: Pathophysiology, Diagnosis, and Treatment of Polycystic Ovarian Syndrome in Adolescence

Ibáñez¹,

et al. 2017

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This paper represents an international collaboration of paediatric endocrine and other societies (listed in the Appendix) under the International Consortium of Paediatric Endocrinology (ICPE) aiming to improve worldwide care of adolescent girls with polycystic ovary syndrome (PCOS)¹. The manuscript examines pathophysiology and guidelines for the diagnosis and management of PCOS during adolescence. The complex pathophysiology of PCOS involves the interaction of genetic and epigenetic changes, primary ovarian abnormalities, neuroendocrine alterations, and endocrine and metabolic modifiers such as anti-Müllerian hormone, hyperinsulinemia, insulin resistance, adiposity, and adiponectin levels. Appropriate diagnosis of adolescent PCOS should include adequate and careful evaluation of symptoms, such as hirsutism, severe acne, and menstrual irregularities 2 years beyond menarche, and elevated androgen levels. Polycystic ovarian morphology on ultrasound without hyperandrogenism or menstrual irregularities should not be used to diagnose adolescent PCOS. Hyperinsulinemia, insulin resistance, and obesity may be present in adolescents with PCOS, but are not considered to be diagnostic criteria. Treatment of adolescent PCOS should include lifestyle intervention, local therapies, and medications. Insulin sensitizers like metformin and oral contraceptive pills provide short-term benefits on PCOS symptoms. There are limited data on anti-androgens and combined therapies showing additive/synergistic actions for adolescents. Reproductive aspects and transition should be taken into account when managing adolescents.

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Section: A Pathophysiologymentioning

confidence: 99%

An International Consortium Update: Pathophysiology, Diagnosis, and Treatment of Polycystic Ovarian Syndrome in Adolescence

Ibáñez¹,

et al. 2017

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“…Importantly, the in vitro androgen receptor-transactivating activity of 11-keto-T and 11-keto-DHT is similar to that of testosterone and DHT [32, 39-41]. The implications of this additional androgen class are wide-ranging: recent studies have shown that they play a key role in androgen excess states, representing the majority of circulating androgens in polycystic ovary syndrome [42]. In addition, 11-oxygenated androgens are found to be increased in CAH due to CYP21A2 deficiency [43-46].…”

Section: Overview Of Adrenal Steroidogenesismentioning

confidence: 99%

Monogenic Disorders of Adrenal Steroidogenesis

2018

Self Cite

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Disorders of adrenal steroidogenesis comprise autosomal recessive conditions affecting steroidogenic enzymes of the adrenal cortex. Those are located within the 3 major branches of the steroidogenic machinery involved in the production of mineralocorticoids, glucocorticoids, and androgens. This mini review describes the principles of adrenal steroidogenesis, including the newly appreciated 11-oxygenated androgen pathway. This is followed by a description of pathophysiology, biochemistry, and clinical implications of steroidogenic disorders, including mutations affecting cholesterol import and steroid synthesis, the latter comprising both mutations affecting steroidogenic enzymes and co-factors required for efficient catalysis. A good understanding of adrenal steroidogenic pathways and their regulation is crucial as the basis for sound management of these disorders, which in the majority present in early childhood.

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“…Recent evidence has shown that the human adrenal cortex would express the enzymes to complete all the steps in the backdoor pathway to DHT [25-27] and that this pathway would contribute to the androgen production in pathological states in which 17OHP accumulates [21, 22, 24]. Moreover, recent studies have demonstrated that the human adrenal cortex also produces a unique set of 11-oxygenated C19 steroids [19, 20, 23]. The first step of the 11-oxygenated androgen pathway is dependent on the adrenal CYP11B1 -catalyzed 11β-hydroxylation of A4 to 11β-hydroxyandrostenedione, which is a major product of adrenal steroidogenesis [19, 20].…”

Section: Functional Zonation Of the Human Adrenal Cortexmentioning

confidence: 99%

Human Adrenal Cortex: Epigenetics and Postnatal Functional Zonation

Baquedano¹,

Belgorosky²

2018

Horm Res Paediatr

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The human adrenal cortex, involved in adaptive responses to stress, fluid homeostasis, and secondary sexual characteristics, arises from a tightly regulated development of a zone and cell type-specific secretory pattern. However, the molecular mechanisms governing adrenal zonation, particularly postnatal zona reticularis development, which produce adrenal androgens in a lifetime-specific manner, remain poorly understood. Epigenetic events, including DNA and histone modifications as well as regulation by noncoding RNAs, are crucial in establishing or maintaining the expression pattern of specific genes and thus contribute to the stability of a specific differentiation state. Emerging evidence points to epigenetics as another regulatory layer that could contribute to establishing the adrenal zone-specific pattern of enzyme expression. Here, we outline the developmental milestones of the human adrenal cortex, focusing on current advances and understanding of epigenetic regulation of postnatal functional zonation. Numerous questions remain to be addressed emphasizing the need for additional investigations to elucidate the role of epigenetics in the human adrenal gland. Ultimately, improved understanding of the epigenetic factors involved in adrenal development and function could lead to novel therapeutic interventions.

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11-Oxygenated C19 Steroids Are the Predominant Androgens in Polycystic Ovary Syndrome

Cited by 195 publications

References 33 publications

An International Consortium Update: Pathophysiology, Diagnosis, and Treatment of Polycystic Ovarian Syndrome in Adolescence

An International Consortium Update: Pathophysiology, Diagnosis, and Treatment of Polycystic Ovarian Syndrome in Adolescence

Monogenic Disorders of Adrenal Steroidogenesis

Human Adrenal Cortex: Epigenetics and Postnatal Functional Zonation

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