Steroidogenic versus Metabolic Programming of Reproductive Neuroendocrine, Ovarian and Metabolic Dysfunctions

Cardoso, Rodolfo C.; Puttabyatappa, Muraly; Padmanabhan, Vasantha

doi:10.1159/000381830

Cited by 58 publications

(44 citation statements)

References 125 publications

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“…Particularly in female sheep, prenatal exposure to testosterone results in an array of adult reproductive disorders that include disrupted neuroendocrine feedback mechanisms, increased pituitary sensitivity to gonadotropin-releasing hormone (GnRH), luteinizing hormone (LH) hypersecretion, functional hyperandrogenism, and multifollicular ovarian morphology culminating in early reproductive failure (Padmanabhan and Veiga-Lopez, 2013b). Additionally, prenatal testosterone treatment leads to fetal growth retardation, insulin resistance, and hypertension in the female sheep (Padmanabhan et al, 2006, Cardoso et al, 2015). The adult phenotype of many of these animal models meets the established guidelines for diagnosis of PCOS and therefore can aid in understanding early developmental events associated with this syndrome.…”

Section: Animal Modelsmentioning

confidence: 99%

Effect of maternal PCOS and PCOS-like phenotype on the offspring's health

Puttabyatappa

Cardoso

Padmanabhan

2016

Molecular and Cellular Endocrinology

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Polycystic ovary syndrome (PCOS) is a heterogeneous endocrine disorder with both reproductive and metabolic abnormalities affecting women of reproductive age. While the exact origin of PCOS is unknown, observations from clinical and animal studies suggest that maternal hyperandrogenism may be a contributing factor. Because women with PCOS manifest hyperandrogenism during pregnancy, changes in the gestational endocrine milieu may play a role in the vertical transmission of this syndrome. This review discusses the potential developmental origins of PCOS, the impact of maternal PCOS on the offspring’s health and contributions of the postnatal environment, capitalizing on findings from animal models that exhibit a PCOS-like phenotype. In addition, this review highlights the scarcity of data at early gestational stages in humans and the importance of animal experimentation to better understand the cellular and molecular mechanisms involved in the programming of adult diseases, therefore, helping identify therapeutic targets for preventive and treatment strategies.

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Section: Animal Modelsmentioning

confidence: 99%

Effect of maternal PCOS and PCOS-like phenotype on the offspring's health

Puttabyatappa

Cardoso

Padmanabhan

2016

Molecular and Cellular Endocrinology

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“…Each, however, accounts for only a small percentage of the estimated 70% heritability of PCOS, implying a considerable epigenetic contribution to the phenotypic expression of PCOS [9, 10]. The most comprehensive epigenetic phenotypes that mimic PCOS arise from animal models that employ experimentally-induced fetal testosterone(T) excess to permanently induce (‘program’) PCOS-like reproductive and metabolic traits in female rodents [11–13], sheep [14, 15] and nonhuman primates(NHPs) [16, 17]. The absence of a naturally occurring PCOS animal model, however, has hindered progress towards understanding pathogenic mechanisms that may bestow both genetic and epigenetic contributions to the etiology of PCOS.…”

Section: Introductionmentioning

confidence: 99%

Translational Insight Into Polycystic Ovary Syndrome (PCOS) From Female Monkeys with PCOS-like Traits

Abbott

Levine²,

Dumesic³

2016

CPD

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Genetics-based studies of women with polycystic ovary syndrome (PCOS) implicate >20 PCOS risk genes that collectively account for <10% of PCOS. Clinicians now consider that either rare alleles or non-genetic, potentially epigenetic, developmental origins may contribute key pathogenic components to >90% of PCOS cases. Animal models convincingly demonstrate excess fetal testosterone exposure in females as a reliable, epigenetic, developmental origin for PCOS-like traits. In particular, nonhuman primates (NHPs) provide the most faithful emulation of PCOS-like pathophysiology, likely because of close similarities to humans in genomic, developmental, reproductive and metabolic characteristics, as well as aging. Recent appreciation of potential molecular mechanisms contributing to enhanced LH action in both PCOS women (GWAS-based) and PCOS-like monkeys (DNA methylation-based) suggest commonality in pathogenic origins. This review examines the translational relevance of NHP studies to PCOS, identifying characteristics of newborn females at risk for PCOS-like traits and potential prepubertal treatment interventions to ameliorate PCOS onset.

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“…For example, polycystic ovarian syndrome (PCOS), the most common anovulatory cause of infertility 71 affecting >100 million women worldwide, is associated with a dysregulation of the normal pattern of LH secretion 72 . Whether the origin of this multi-factorial disorder is at the level of the hypothalamic-pituitary axis is unknown 73 , but PCOS is characterized by increases in GnRH pulse frequency and sensitivity of the pituitary gland to the neurohormone 74,75 . Consequently, potential interventions that modify the dynamics of GnRH output, its transport to the ME or its 79 .…”

Section: H3] Clinical Relevancementioning

confidence: 99%