Randy L. Jirtle scite author profile

Epidemiological evidence increasingly suggests that environmental exposures early in development have a role in susceptibility to disease in later life. In addition, some of these environmental effects seem to be passed on through subsequent generations. Epigenetic modifications provide a plausible link between the environment and alterations in gene expression that might lead to disease phenotypes. An increasing body of evidence from animal studies supports the role of environmental epigenetics in disease susceptibility. Furthermore, recent studies have demonstrated for the first time that heritable environmentally induced epigenetic modifications underlie reversible transgenerational alterations in phenotype. Methods are now becoming available to investigate the relevance of these phenomena to human disease.

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Transposable Elements: Targets for Early Nutritional Effects on Epigenetic Gene Regulation

Waterland

Jirtle

2003

Molecular and Cellular Biology

1,814

1,359

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Early nutrition affects adult metabolism in humans and other mammals, potentially via persistent alterations in DNA methylation. With viable yellow agouti (A vy ) mice, which harbor a transposable element in the agouti gene, we tested the hypothesis that the metastable methylation status of specific transposable element insertion sites renders them epigenetically labile to early methyl donor nutrition. Our results show that dietary methyl supplementation of a/a dams with extra folic acid, vitamin B 12 , choline, and betaine alter the phenotype of their A vy /a offspring via increased CpG methylation at the A vy locus and that the epigenetic metastability which confers this lability is due to the A vy transposable element. These findings suggest that dietary supplementation, long presumed to be purely beneficial, may have unintended deleterious influences on the establishment of epigenetic gene regulation in humans.

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Maternal nutrient supplementation counteracts bisphenol A-induced DNA hypomethylation in early development

Dolinoy

Huang

Jirtle

2007

Proc. Natl. Acad. Sci. U.S.A.

1,226

890

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The hypothesis of fetal origins of adult disease posits that early developmental exposures involve epigenetic modifications, such as DNA methylation, that influence adult disease susceptibility. In utero or neonatal exposure to bisphenol A (BPA), a high-production-volume chemical used in the manufacture of polycarbonate plastic, is associated with higher body weight, increased breast and prostate cancer, and altered reproductive function. This study shows that maternal exposure to this endocrine-active compound shifted the coat color distribution of viable yellow agouti (A vy ) mouse offspring toward yellow by decreasing CpG (cytosineguanine dinucleotide) methylation in an intracisternal A particle retrotransposon upstream of the Agouti gene. CpG methylation also was decreased at another metastable locus, the CDK5 activator-binding protein (Cabp IAP ). DNA methylation at the A vy locus was similar in tissues from the three germ layers, providing evidence that epigenetic patterning during early stem cell development is sensitive to BPA exposure. Moreover, maternal dietary supplementation, with either methyl donors like folic acid or the phytoestrogen genistein, negated the DNA hypomethylating effect of BPA. Thus, we present compelling evidence that early developmental exposure to BPA can change offspring phenotype by stably altering the epigenome, an effect that can be counteracted by maternal dietary supplements.

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Maternal Genistein Alters Coat Color and Protects A ^vy Mouse Offspring from Obesity by Modifying the Fetal Epigenome

Dolinoy

Weidman

Waterland

et al. 2006

Environ Health Perspect

865

670

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Genistein, the major phytoestrogen in soy, is linked to diminished female reproductive performance and to cancer chemoprevention and decreased adipose deposition. Dietary genistein may also play a role in the decreased incidence of cancer in Asians compared with Westerners, as well as increased cancer incidence in Asians immigrating to the United States. Here, we report that maternal dietary genistein supplementation of mice during gestation, at levels comparable with humans consuming high-soy diets, shifted the coat color of heterozygous viable yellow agouti (Avy/a) offspring toward pseudoagouti. This marked phenotypic change was significantly associated with increased methylation of six cytosine–guanine sites in a retrotransposon upstream of the transcription start site of the Agouti gene. The extent of this DNA methylation was similar in endodermal, mesodermal, and ectodermal tissues, indicating that genistein acts during early embryonic development. Moreover, this genistein-induced hypermethylation persisted into adulthood, decreasing ectopic Agouti expression and protecting offspring from obesity. Thus, we provide the first evidence that in utero dietary genistein affects gene expression and alters susceptibility to obesity in adulthood by permanently altering the epigenome.

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Randy L. Jirtle

Environmental epigenomics and disease susceptibility

Transposable Elements: Targets for Early Nutritional Effects on Epigenetic Gene Regulation

Maternal nutrient supplementation counteracts bisphenol A-induced DNA hypomethylation in early development

Maternal Genistein Alters Coat Color and Protects A ^vy Mouse Offspring from Obesity by Modifying the Fetal Epigenome

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About

Randy L. Jirtle

Environmental epigenomics and disease susceptibility

Transposable Elements: Targets for Early Nutritional Effects on Epigenetic Gene Regulation

Maternal nutrient supplementation counteracts bisphenol A-induced DNA hypomethylation in early development

Maternal Genistein Alters Coat Color and Protects A vy Mouse Offspring from Obesity by Modifying the Fetal Epigenome

Contact Info

Product

Resources

About

Maternal Genistein Alters Coat Color and Protects A ^vy Mouse Offspring from Obesity by Modifying the Fetal Epigenome