Mechanisms of Intergenerational Transmission of Polycystic Ovary Syndrome

Overview

Journal Reproduction

Specialty Reproductive Medicine

Date 2019 Aug 4

PMID 31376813

Citations 36

Authors

Daniel A Dumesic

Luis R Hoyos

Gregorio D Chazenbalk

Rajanigandha Naik

Vasantha Padmanabhan

David H Abbott

Affiliations

Soon will be listed here.

Abstract

Developmental origins of adult disease (DoHAD) refers to critical gestational ages during human fetal development and beyond when the endocrine metabolic status of the mother can permanently program the physiology and/or morphology of the fetus, modifying its susceptibility to disease after birth. The aim of this review is to address how DoHAD plays an important role in the phenotypic expression of polycystic ovary syndrome (PCOS), the most common endocrinopathy of women characterized by hyperandrogenism, oligo-anovulation and polycystic ovarian morphology. Clinical studies of PCOS women are integrated with findings from relevant animal models to show how intergenerational transmission of these central components of PCOS are programmed through an altered maternal endocrine-metabolic environment that adversely affects the female fetus and long-term offspring health. Prenatal testosterone treatment in monkeys and sheep have been particularly crucial in our understanding of developmental programming of PCOS because organ system differentiation in these species, as in humans, occurs during fetal life. These animal models, along with altricial rodents, produce permanent PCOS-like phenotypes variably characterized by LH hypersecretion from reduced steroid-negative feedback, hyperandrogenism, ovulatory dysfunction, increased adiposity, impaired glucose-insulin homeostasis and other metabolic abnormalities. The review concludes that DoHAD underlies the phenotypic expression of PCOS through an altered maternal endocrine-metabolic environment that can induce epigenetic modifications of fetal genetic susceptibility to PCOS after birth. It calls for improved maternal endocrine-metabolic health of PCOS women to lower their risks of pregnancy-related complications and to potentially reduce intergenerational susceptibility to PCOS and its metabolic derangements in offspring.

Citing Articles

Effects of the prenatal and postnatal nurturing environment on the phenotype and gut microbiota of mice with polycystic ovary syndrome induced by prenatal androgen exposure: a cross-fostering study.

Kusamoto A, Harada M, Minemura A, Matsumoto A, Oka K, Takahashi M Front Cell Dev Biol. 2024; 12:1365624.

PMID: 38590777 PMC: 10999616. DOI: 10.3389/fcell.2024.1365624.

An Evolutionary Model for the Ancient Origins of Polycystic Ovary Syndrome.

Dumesic D, Abbott D, Chazenbalk G J Clin Med. 2023; 12(19).

PMID: 37834765 PMC: 10573644. DOI: 10.3390/jcm12196120.

Induced Pluripotent Stem Cells as a Possible Approach for Exploring the Pathophysiology of Polycystic Ovary Syndrome (PCOS).

Khatun M, Lundin K, Naillat F, Loog L, Saarela U, Tuuri T Stem Cell Rev Rep. 2023; 20(1):67-87.

PMID: 37768523 PMC: 10799779. DOI: 10.1007/s12015-023-10627-w.

Prenatal Androgen Excess Induces Multigenerational Effects on Female and Male Descendants.

Abruzzese G, Ferreira S, Ferrer M, Silva A, Motta A Clin Med Insights Endocrinol Diabetes. 2023; 16:11795514231196461.

PMID: 37705939 PMC: 10496475. DOI: 10.1177/11795514231196461.

Trends in metabolic dysfunction in polycystic ovary syndrome: a bibliometric analysis.

Xu Y, Cao Z, Chen T, Ren J Front Endocrinol (Lausanne). 2023; 14:1245719.

PMID: 37701893 PMC: 10494444. DOI: 10.3389/fendo.2023.1245719.

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