Global DNA Methylation in Cord Blood as a Biomarker for Prenatal Lead and Antimony Exposures

Okamoto, Yoshinori; Iwai-Shimada, Miyuki; Nakai, Kunihiko; Tatsuta, Nozomi; Mori, Yoko; Akira, A.; Kojima, Nakao; Takada, Tatsuyuki; Satoh, Hiroshi; Jinno, Hideto

doi:10.20944/preprints202203.0068.v1

2022

DOI: 10.20944/preprints202203.0068.v1

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Global DNA Methylation in Cord Blood as a Biomarker for Prenatal Lead and Antimony Exposures

Yoshinori Okamoto¹,

Miyuki Iwai-Shimada²,

Kunihiko Nakai³

et al.

Abstract: DNA methylation is an epigenetic mechanism for gene expression modulation and can be used as a predictor of future disease risks. A prospective birth cohort study was performed to clarify the effects of neurotoxicants on child development, namely, the Tohoku Study of Child Development, in Japan. This study aimed to evaluate the association of prenatal exposure to five toxic metals—arsenic, cadmium, mercury, lead (Pb), antimony (Sb), and polychlorinated biphenyls (PCBs, N = 166)—with global … Show more

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Heavy Metals in Umbilical Cord Blood: Effects on Epigenetics and Child Development

Dutta,

Ruden

2024

Cells

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Heavy metals like arsenic, mercury, cadmium, and lead are harmful pollutants that can change how our genes are regulated without altering the DNA sequence, specifically through a process called DNA methylation (DNAm) at 5-methylcytosine, an epigenetic mark that we will focus on in this review. These changes in DNAm are most sensitive during pregnancy, a critical time for development when these modifications can affect how traits are expressed. Historically, most research on these environmental effects has focused on adults, but now there is more emphasis on studying the impacts during early development and childhood. The placenta acts as a protective barrier between the mother and the baby, and by examining it, scientists can identify changes in key genes that might affect long-term health. This review looks at how exposure to heavy metals during pregnancy can cause changes in the gene regulation by DNAm in newborns, as seen in their umbilical cord blood. These changes reflect the baby’s genetic state during pregnancy and can be influenced by the mother’s environment and genetics, as well as the baby’s own genetics.

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Heavy Metals in Umbilical Cord Blood: Effects on Epigenetics and Child Development

Dutta,

Ruden

2024

Cells

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Lupus, DNA Methylation, and Air Pollution: A Malicious Triad

Rasking

Roelens

Sprangers

et al. 2022

IJERPH

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The pathogenesis of systemic lupus erythematosus (SLE) remains elusive to this day; however, genetic, epigenetic, and environmental factors have been implicated to be involved in disease pathogenesis. Recently, it was demonstrated that in systemic lupus erythematosus (SLE) patients, interferon-regulated genes are hypomethylated in naïve CD4+ T cells, CD19+ B lymphocytes, and CD14+ monocytes. This suggests that interferon-regulated genes may have been epigenetically poised in SLE patients for rapid expression upon stimulation by different environmental factors. Additionally, environmental studies have identified DNA (hypo)methylation changes as a potential mechanism of environmentally induced health effects in utero, during childhood and in adults. Finally, epidemiologic studies have firmly established air pollution as a crucial SLE risk factor, as studies showed an association between fine particulate matter (PM2.5) and traditional SLE biomarkers related to disease flare, hospital admissions, and an increased SLEDAI score. In this review, the relationship between aberrant epigenetic regulation, the environment, and the development of SLE will be discussed.

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Global DNA Methylation in Cord Blood as a Biomarker for Prenatal Lead and Antimony Exposures

Cited by 2 publications

References 50 publications

Heavy Metals in Umbilical Cord Blood: Effects on Epigenetics and Child Development

Heavy Metals in Umbilical Cord Blood: Effects on Epigenetics and Child Development

Lupus, DNA Methylation, and Air Pollution: A Malicious Triad

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