Sex-Specific Placental Responses in Fetal Development

Rosenfeld, Cheryl S.

doi:10.1210/en.2015-1227

Cited by 356 publications

(257 citation statements)

References 146 publications

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“…Finally, if germ cells are exposed to toxic metals and/or endocrine disruptors and undergo epigenomic reprogramming, multi-and transgenerational effects may be noted following prenatal exposure in the F1. Effects of prenatal exposure to endocrine disruptors & toxic metals on the fetal epigenome Review mental differences between placentas derived from male or female fetuses may result in sexually dimorphic responses to environmental exposures [132]. It has recently been shown that gene-specific methylation differs between male and female placentas and these genes are enriched for immune function, transport of substances across the placenta, and transcription factors [133].…”

Section: Review Bommarito Martin and Frymentioning

confidence: 99%

“…Specifically, male placentas have enriched expression of genes related to inflammation and immune functioning, while female placentas have enriched expression of immune-regulating genes [134,135]. These immunologic differences between male and female fetuses may result in greater vulnerability in male fetuses when faced with adverse environmental exposures in utero [132]. Additionally, differences in the expression of glucocorticoid receptors have been observed based on fetal sex, which may result in differential fetal susceptibility to the maternal stress and/or immune response following exposure to environmental contaminants [136,137].…”

Section: Review Bommarito Martin and Frymentioning

confidence: 99%

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Effects of Prenatal Exposure to Endocrine Disruptors and Toxic Metals on The Fetal Epigenome

2017

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Exposure to environmental contaminants during pregnancy has been linked to adverse outcomes at birth and later in life. The link between prenatal exposures and latent health outcomes suggests that these exposures may result in long-term epigenetic reprogramming. Toxic metals and endocrine disruptors are two major classes of contaminants that are ubiquitously present in the environment and represent threats to human health. In this review, we present evidence that prenatal exposures to these contaminants result in fetal epigenomic changes, including altered global DNA methylation, gene-specific CpG methylation and microRNA expression. Importantly, these changes may have functional cellular consequences, impacting health outcomes later in life. Therefore, these epigenetic changes represent a critical mechanism that warrants further study.

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Section: Review Bommarito Martin and Frymentioning

confidence: 99%

Section: Review Bommarito Martin and Frymentioning

confidence: 99%

Effects of Prenatal Exposure to Endocrine Disruptors and Toxic Metals on The Fetal Epigenome

2017

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“…In support of this hypothesis, physiologic differences between male and female placentas have been observed [19]. For example, placentas derived from pregnancies of males and females display variation in the abundance and type of glucocorticoid transporter proteins, the expression of hormones and the production of immune-related proteins including cytokines [12,[19][20][21]. In addition, sex-based differences in response to prenatal stressors have been observed at the levels of the placental proteome, transcriptome and epigenome [3,7,14,20,[22][23][24][25][26][27].…”

mentioning

confidence: 93%

“…We hypothesize that sex-dependent health outcomes in infants may be associated with sexual dimorphism of the placenta. In support of this hypothesis, physiologic differences between male and female placentas have been observed [19]. For example, placentas derived from pregnancies of males and females display variation in the abundance and type of glucocorticoid transporter proteins, the expression of hormones and the production of immune-related proteins including cytokines [12,[19][20][21].…”

mentioning

confidence: 96%

SExual Epigenetic Dimorphism in The Human Placenta: Implications for Susceptibility During The Prenatal Period

et al. 2017

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Aim: Sex-based differences in response to adverse prenatal environments and infant outcomes have been observed, yet the underlying mechanisms for this are unclear. The placental epigenome may be a driver of these differences. Methods: Placental DNA methylation was assessed at more than 480,000 CpG sites from male and female infants enrolled in the extremely low gestational age newborns cohort (ELGAN) and validated in a separate US-based cohort. The impact of gestational age on placental DNA methylation was further examined using the New Hampshire Birth Cohort Study for a total of n = 467 placentas. Results: A total of n = 2745 CpG sites, representing n = 587 genes, were identified as differentially methylated (p < 1 × 10 -7 ). The majority (n = 582 or 99%) of these were conserved among the New Hampshire Birth Cohort. The identified genes encode proteins related to immune function, growth/transcription factor signaling and transport across cell membranes. Conclusion: These data highlight sex-dependent epigenetic patterning in the placenta and provide insight into differences in infant outcomes and responses to the perinatal environment.

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“…Alternatively, upregulation or maintenance of labyrinth growth may aid in maintaining nutrient transfer to help ensure fetal survival. Changes to the labyrinthine vasculature are also likely to contribute to the observed sex specific alterations in gene expression of glucose and nutrient transporters, glucocorticoid responsive genes, growth factors, as well as inflammatory responses, see reviews by Clifton (2010) and Rosenfeld (2015). Further research into sexual dimorphism of labyrinthine differentiation, vasculogenesis and branching morphogenesis, interhemal membrane thickness, and functional nutrient transport assays may shed light on sex differences in placental efficiency and adaptation to maternal perturbations.…”

Section: Sexually Dimorphic Programming Of the Labyrinthmentioning

confidence: 99%

The Effects of Maternal Periconceptional Ethanol Exposure on the Development of the Pre-Implantation Embryo, Placenta, and the Influence of the Uterine Environment

Kalisch-Smith¹

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Exposure of the embryo or fetus to perturbations in utero can result in intrauterine growth restriction (IUGR), a primary risk factor for the development of adult disease.One critical window that can result in developmental programming, is the periconceptional period which comprises maturation of the oocyte, conception and the formation of the blastocyst prior to embryo implantation. Alcohol is a common exposure during this period, as it is consumed prior to pregnancy recognition, and often ceases soon after. Maternal periconceptional alcohol exposure (PC-EtOH) in rat dams has been previously shown to cause fetal growth restriction and changes to the late gestation placenta. PC-EtOH also results in the development of adult onset disease, including insulin insensitivity, often in a sexually dimorphic manner. However, the mechanisms by which PC-EtOH can cause programming are relatively unexplored. This thesis aimed to characterise the effects of alcohol on 1. sex-specific pre-implantation development and trophoblast differentiation using in vitro (cell culture) and in vivo (rodent model) techniques, 2. alterations to the early uterine environment and 3. the interactions and communication between the embryo and uterus, and the resultant impacts on placental development across gestation.The direct effect of EtOH on in vitro differentiation was assessed in mouse trophoblast stem cells (Chapter 4). Results demonstrated that doses of 0.2% and 1% EtOH reduced total cell count and expression of trophoblast subtype markers at terminal differentiation (day 6 of culture). Using our in vivo rat model, we also examined basal sex differences in blastocyst and placental development from pre-implantation to lategestation in naturally cycling dams (Chapter 3). Although there were no significant differences between sexes in pre-implantation development (blastocyst cell numbers, trophoblast differentiation), by mid-gestation (E15) placentas from males were heavier and had increased blood space volume and surface area (to both maternal and fetal compartments) than those from females. This likely contributed to the greater fetal body weight in males at E20. This study confirmed the need to examine the effects of PC-EtOH in a sexually dimorphic manner across all of pregnancy.To study the effects of PC-EtOH in vivo, Sprague-Dawley rat dams were given a liquid diet containing either control (0% v/v EtOH) or EtOH (12.5% v/v EtOH) from embryonic (E) day -4 to E4. The following day dams were returned to chow for the remainder of 3 gestation. Dams were sacrificed at E5 to determine cell number of the pre-implantation embryo and its capacity to differentiate into cells required for invasion (Chapter 5).Pre-implantation studies showed PC-EtOH altered inner cell mass count, trophoblast differentiation to trophoblast giant cells (TGCs) and trophoblast behaviour in a sexually dimorphic manner, with females showing the most deleterious outcomes. PC-EtOH females also showed reduced expression of Prl4a1, a gene exclusively expressed by TGCs...

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Sex-Specific Placental Responses in Fetal Development

Cited by 356 publications

References 146 publications

Effects of Prenatal Exposure to Endocrine Disruptors and Toxic Metals on The Fetal Epigenome

Effects of Prenatal Exposure to Endocrine Disruptors and Toxic Metals on The Fetal Epigenome

SExual Epigenetic Dimorphism in The Human Placenta: Implications for Susceptibility During The Prenatal Period

The Effects of Maternal Periconceptional Ethanol Exposure on the Development of the Pre-Implantation Embryo, Placenta, and the Influence of the Uterine Environment

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