Jaehyun Park scite author profile

Particulate matter with a diameter of ≤10 µm (PM10) and nitrogen dioxide (NO2) affect the DNA methylation in the fetus, but epigenetic studies regarding prenatal exposure to air pollution in Asia are lacking. Therefore, this study aimed to assess whether there is any association between the ambient concentrations of PM10 and NO2 and CpG methylation in the cord blood DNA by using a Korean birth cohort. The concentrations of the air pollutants were incorporated into the final LUR model by using the maternal address data. The methylation level was determined using HumanMethylationEPIC BeadChip and a linear regression analysis model. A multipollutant model including both PM10 and NO2 and models with single pollutants were used for each trimester exposure. The number of differentially methylated positions was the largest for midpregnancy exposure in both the single pollutant models and the multipollutant regression analysis. Additionally, gene-set analysis regarding midpregnancy exposure revealed four gene ontology terms (cellular response to staurosporine, positive regulation of cytoskeleton organization, neurotransmitter transport, and execution phase of apoptosis). In conclusion, these findings show an association between prenatal PM10 and NO2 exposure and DNA methylation in several CpG sites in cord blood cells, especially for midpregnancy exposure.

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Methylation quantitative trait loci analysis in Korean exposome study

Park

Kwon

Kim

et al. 2020

Mol. Cell. Toxicol.

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Association between prenatal cadmium exposure and cord blood DNA methylation

Park

Kim

et al. 2022

Environmental Research

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Interactions between NCR⁺ILC3s and the Microbiome in the Airways Shape Asthma Severity

et al. 2021

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Asthma is a heterogeneous disease whose development is shaped by a variety of environmental and genetic factors. While several recent studies suggest that microbial dysbiosis in the gut may promote asthma, little is known about the relationship between the recently discovered lung microbiome and asthma. Innate lymphoid cells (ILCs) have also been shown recently to participate in asthma. To investigate the relationship between the lung microbiome, ILCs, and asthma, we recruited 23 healthy controls (HC), 42 patients with non-severe asthma, and 32 patients with severe asthma. Flow cytometry analysis showed severe asthma associated with fewer natural cytotoxicity receptor (NCR) + ILC3s in the lung. Similar changes in other ILC subsets, macrophages, and monocytes were not observed. The asthma patients did not differ from the HC in terms of the alpha and beta-diversity of the lung and gut microbiomes. However, lung function correlated positively with both NCR + ILC3 frequencies and microbial diversity in the lung. Sputum NCR + ILC3 frequencies correlated positively with lung microbiome diversity in the HC, but this relationship was inversed in severe asthma. Together, these data suggest that airway NCR + ILC3s may contribute to a healthy commensal diversity and normal lung function.

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Jaehyun Park

Prenatal lead exposure and cord blood DNA methylation in the Korean Exposome Study

Prenatal Exposure to Traffic-Related Air Pollution and the DNA Methylation in Cord Blood Cells: MOCEH Study

Methylation quantitative trait loci analysis in Korean exposome study

Association between prenatal cadmium exposure and cord blood DNA methylation

Interactions between NCR⁺ILC3s and the Microbiome in the Airways Shape Asthma Severity

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Jaehyun Park

Prenatal lead exposure and cord blood DNA methylation in the Korean Exposome Study

Prenatal Exposure to Traffic-Related Air Pollution and the DNA Methylation in Cord Blood Cells: MOCEH Study

Methylation quantitative trait loci analysis in Korean exposome study

Association between prenatal cadmium exposure and cord blood DNA methylation

Interactions between NCR+ILC3s and the Microbiome in the Airways Shape Asthma Severity

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Interactions between NCR⁺ILC3s and the Microbiome in the Airways Shape Asthma Severity