Fetal and Neonatal Exposure to the Endocrine Disruptor Methoxychlor Causes Epigenetic Alterations in Adult Ovarian Genes

Zama, Aparna Mahakali; Uzumcu, Mehmet

doi:10.1210/en.2009-0499

Cited by 150 publications

(109 citation statements)

References 101 publications

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“…Studies using transfected cell lines have demonstrated that the active metabolites of MXC are agonists of ESR1, but antagonists for both ESR2 and AR (Gaido et al 2000). Other studies have shown that fetal and neonatal exposure to MXC (20 mg/kg and 100 mg/kg) alters methylation on the promoter region of ESR2 and therefore suppresses the expression of ESR2, causing ovarian dysfunction in the rat (Armenti et al 2008, Zama & Uzumcu 2009). Interestingly, antral follicles overexpressing ESR1 have been shown to be more sensitive to toxicity by MXC and its metabolites in both in vivo and in vitro experiments (Tomic et al 2006.…”

Section: Chemicals That Alter Hormone Receptor Binding and Actionmentioning

confidence: 99%

“…Early studies with BPA showed that it has estrogenic properties and its binding affinity to ESRs is lower than E 2 or DES (Zama & Uzumcu 2009). In vitro, BPA acts as an agonist for both ESR1 and ESR2 on a tissue-specific basis (Kurosawa et al 2002), although in vivo findings suggest that it can also antagonize ESR2 function (Susiarjo et al 2007).…”

Section: Chemicals That Alter Hormone Receptor Binding and Actionmentioning

confidence: 99%

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Endocrine-disrupting chemicals in ovarian function: effects on steroidogenesis, metabolism and nuclear receptor signaling

Craig¹,

Wang²,

Flaws³

2011

Reproduction

225

123

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Endocrine-disrupting chemicals (EDCs) are exogenous agents with the ability to interfere with processes regulated by endogenous hormones. One such process is female reproductive function. The major reproductive organ in the female is the ovary. Disruptions in ovarian processes by EDCs can lead to adverse outcomes such as anovulation, infertility, estrogen deficiency, and premature ovarian failure among others. This review summarizes the effects of EDCs on ovarian function by describing how they interfere with hormone signaling via two mechanisms: altering the availability of ovarian hormones, and altering binding and activity of the hormone at the receptor level. Among the chemicals covered are pesticides (e.g. dichlorodiphenyltrichloroethane and methoxychlor), plasticizers (e.g. bisphenol A and phthalates), dioxins, polychlorinated biphenyls, and polycyclic aromatic hydrocarbons (e.g. benzo[a]pyrene).

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Section: Chemicals That Alter Hormone Receptor Binding and Actionmentioning

confidence: 99%

Section: Chemicals That Alter Hormone Receptor Binding and Actionmentioning

confidence: 99%

Endocrine-disrupting chemicals in ovarian function: effects on steroidogenesis, metabolism and nuclear receptor signaling

Craig¹,

Wang²,

Flaws³

2011

Reproduction

225

123

View full text Add to dashboard Cite

show abstract

“…Methoxychlor (MXC), an organochloride pesticide with oestrogenic activity mediated primarily via ERb (Zama & Uzumcu 2009), caused ovarian dysfunction in the adult rodent following exposure to rats during the foetal or neonatal period. Follicle composition was altered with more preantral and early antral follicles present and fewer CL (Gray et al 1989).…”

Section: Environmental Oestrogensmentioning

confidence: 99%

The importance of ERβ signalling in the ovary

Drummond¹,

Fuller²

2009

Journal of Endocrinology

102

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This review examines the evidence for a central role of oestrogen receptor b (ERb or ESR2 as listed in the MGI Database) in folliculogenesis and hence reproductive biology. Knockout mouse models have been a valuable resource in this respect. The ERb-null mouse exhibits a granulosa cell phenotype associated with the partial arrest of folliculogenesis and ovulatory dysfunction. Phyto-oestrogens such as genistein, which preferentially activate ERb, have been shown to alleviate the ovarian phenotype of the oestrogendepleted aromatase knockout mouse. In normal adult mice, genistein has been shown to cause reproductive defectives following neonatal administration. Studies of ovarian cancer have also informed the literature. A decline in ERb levels in epithelial ovarian cancers has been hypothesised to be associated with severity of disease and prognosis. Whereas the abundant expression of ERb in granulosa cell tumours (GCT) of the ovary and evidence that ERb signalling is transrepressed by the nuclear factor-kB pathway in GCT cell lines suggest a pathogenetic role for ERb in GCT. In recent years, studies into the impact of environmental oestrogens (either in the form of pesticides or plastics) on reproductive function have shown that ERb-selective toxins cause reproductive dysfunction and impair fertility. It remains to be established as to what genes are regulated by ERb in the ovary. Finally, ERb has been shown to be regulated by gonadotrophins, the pituitary hormones mediating ovarian function.

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“…by modulating gene expression without modifying the underlying DNA sequence. The perinatal exposure to MXC has, indeed, been shown to cause an hypermethylation of the ESR2 promoter and of ten other genes in the ovary (Zama & Uzumcu 2009).…”

Section: Introductionmentioning

confidence: 99%

Specific transgenerational imprinting effects of the endocrine disruptor methoxychlor on male gametes

2011

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Endocrine-disrupting chemicals (EDCs), among which methoxychlor (MXC), have been reported to affect the male reproductive system. This study evaluates the possible deleterious effects of MXC on imprinted genes. After administration of the chemical in adult male mice or in pregnant mice we analyzed by pyrosequencing possible methylation defects in two paternally imprinted (H19 and Meg3 (Gtl2)) and three maternally imprinted (Mest (Peg1), Snrpn, and Peg3) genes in the sperm and in the tail, liver, and skeletal muscle DNAs of the adult male mice and of the male offspring. MXC treatment of adult mice decreased the percentages of methylated CpGs of Meg3 and increased those of Mest, Snrpn, and Peg3 in the sperm DNA. MXC treatment of pregnant mice decreased the mean sperm concentrations by 30% and altered the methylation pattern of all the imprinted genes tested in the F1 offspring. In the latter case, MXC effects were transgenerational but disappeared gradually from F1 to F3. MXC did not affect imprinting in the somatic cells, suggesting that it exerts its damaging effects via the process of reprogramming that is unique to gamete development. A systematic analysis at the CpG level showed a heterogeneity in the CpG sensitivity to MXC. This observation suggests that not only DNA methylation but also other epigenetic modifications can explain the transgenerational effects of MXC. The reported effects of EDCs on human male spermatogenesis might be mediated by complex imprinting alterations analogous to those described in this study.

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Fetal and Neonatal Exposure to the Endocrine Disruptor Methoxychlor Causes Epigenetic Alterations in Adult Ovarian Genes

Cited by 150 publications

References 101 publications

Endocrine-disrupting chemicals in ovarian function: effects on steroidogenesis, metabolism and nuclear receptor signaling

Endocrine-disrupting chemicals in ovarian function: effects on steroidogenesis, metabolism and nuclear receptor signaling

The importance of ERβ signalling in the ovary

Specific transgenerational imprinting effects of the endocrine disruptor methoxychlor on male gametes

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