Developmental Programming: Effect of Prenatal Steroid Excess on Intraovarian Components of Insulin Signaling Pathway and Related Proteins in Sheep1

Ortega, Hugo Héctor; Rey, Florencia; Velázquez, Melisa María del Luján; Padmanabhan, Vasantha

doi:10.1095/biolreprod.109.082719

Cited by 62 publications

(48 citation statements)

References 73 publications

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“…Developmental changes in insulin sensitivity across the life span discussed above (Figure 4) emphasize the need for considering homogeneity of the study population and importantly the age of testing in addressing the controversy in this field. Furthermore, the positive correlation found between serum and follicular fluid FFAs, specifically palmitic and stearic, and the reduced in vitro fertilization outcomes with increased FFAs in women with PCOS (72), suggest that the disruption in ovarian (73,74) and reproductive function (75) evidenced in prenatal T-treated females, may be mediated in part via disruption in FFA metabolism evidenced in this study.…”

Section: Translational Relevancementioning

confidence: 62%

Developmental Programming: Impact of Prenatal Testosterone Excess on Insulin Sensitivity, Adiposity, and Free Fatty Acid Profile in Postpubertal Female Sheep

et al. 2013

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Prenatal T excess causes reproductive and metabolic disruptions including insulin resistance, attributes of women with polycystic ovary syndrome. This study tested whether increases in visceral adiposity, adipocyte size, and total free fatty acids underlie the insulin resistance seen in prenatal T-treated female sheep. At approximately 16 months of age, insulin resistance and adipose tissue partitioning were determined via hyperinsulinemic euglycemic clamp and computed tomography, respectively, in control and prenatal T-treated females. Three months later, adipocyte size and free fatty acid composition were determined. Results revealed that at the postpubertal time points tested, insulin sensitivity was increased, visceral adiposity and adipocyte size in both the sc and the visceral compartments were reduced, and circulating palmitic acid was increased in prenatal T-treated females relative to controls. In parallel studies, 20-month-old prenatal T-treated females tended to have increased basal insulin to glucose ratio. Relative to earlier findings of reduced insulin sensitivity of prenatal T-treated females during early life and adulthood, these findings of increased insulin sensitivity and reduced adiposity postpubertally are suggestive of a period of developmental adaptation. The disruption observed in free fatty acid metabolism a few months later correspond to a time point when the insulin sensitivity indices of prenatal T-treated animals appear to shift toward insulin resistance. In summary, current findings of improved insulin sensitivity and reduced visceral adiposity in postpubertal prenatal T-treated sheep relative to our earlier findings of reduced insulin sensitivity during early postnatal life and adulthood are indicative of a period of developmental adaptation.

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Section: Translational Relevancementioning

confidence: 62%

Developmental Programming: Impact of Prenatal Testosterone Excess on Insulin Sensitivity, Adiposity, and Free Fatty Acid Profile in Postpubertal Female Sheep

et al. 2013

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“…However, gestational T increases AR in these follicles supporting functional hyperandrogenism [39]. The reduced adiponectin in granulosa cells of prenatal T sheep may affect follicular insulin sensitivity and compromise growth [99]. Findings that prenatal T-treatment reduces anti-apoptotic protein BCL2 and the apoptosis effector protein caspase-3 in granulosa cells of antral follicles [81] support a shift in the balance of the pro- versus anti-apoptotic genes that likely arrest the follicle from undergoing atresia or developing further.…”

Section: Ovarian Disruptionsmentioning

confidence: 99%

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

2015

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The susceptibility of the reproductive system to early exposure to steroid hormones has become a major concern in our modern societies. Human fetuses are at risk of abnormal programming via exposure to endocrine disrupting chemicals, inadvertent use of contraceptive pills during pregnancy, as well as from excess exposure to steroids due to disease states. Animal models provide an unparalleled resource to understand the developmental origin of diseases. In female sheep, prenatal exposure to testosterone excess results in an array of adult reproductive disorders that recapitulate those seen in women with polycystic ovary syndrome (PCOS), including disrupted neuroendocrine feedback mechanisms, increased pituitary sensitivity to gonadotropin-releasing hormone, luteinizing hormone excess, functional hyperandrogenism, and multifollicular ovarian morphology culminating in early reproductive failure. Prenatal testosterone treatment also leads to fetal growth retardation, insulin resistance, and hypertension. Mounting evidence suggests that developmental exposure to an improper steroidal/metabolic environment may mediate the programming of adult disorders in prenatal testosterone-treated females, and these defects are maintained or amplified by the postnatal sex steroid and metabolic milieu. This review addresses the steroidal and metabolic contributions to the development and maintenance of the PCOS phenotype in the prenatal testosterone-treated sheep model, including the effects of prenatal and postnatal treatment with an androgen antagonist or insulin sensitizer as potential strategies to prevent/ameliorate these dysfunctions. Insights obtained from these intervention strategies on the mechanisms underlying these defects are likely to have translational relevance to human PCOS.

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“…the brown label). The positive controls were used as interassay controls to maximize the levels of accuracy and robustness of the method (Ranefall et al, 1998;Ortega et al, 2010). The methodological details of image analysis as a valid method to quantify protein expression have been described previously Ortega et al, 2010).…”

Section: Immunohistochemical Localization and Quantification Of Cytokmentioning

confidence: 99%

Altered Expression of Pro-inflammatory Cytokines in Ovarian Follicles of Cows with Cystic Ovarian Disease

Baravalle

Stassi

Velázquez

et al. 2015

Journal of Comparative Pathology

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Developmental Programming: Effect of Prenatal Steroid Excess on Intraovarian Components of Insulin Signaling Pathway and Related Proteins in Sheep1

Cited by 62 publications

References 73 publications

Developmental Programming: Impact of Prenatal Testosterone Excess on Insulin Sensitivity, Adiposity, and Free Fatty Acid Profile in Postpubertal Female Sheep

Developmental Programming: Impact of Prenatal Testosterone Excess on Insulin Sensitivity, Adiposity, and Free Fatty Acid Profile in Postpubertal Female Sheep

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

Altered Expression of Pro-inflammatory Cytokines in Ovarian Follicles of Cows with Cystic Ovarian Disease

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