Histone 3 modifications and blood pressure in the Beijing Truck Driver Air Pollution Study

Kresovich, Jacob K.; Zhang, Zhou; Fang, Fang; Zheng, Yinan; Sánchez-Guerra, Marco; Joyce, Brian T.; Zhong, Jia; Chervona, Yana; Wang, Sheng; Chang, Dou; McCracken, John P.; Díaz, Anaité; Bonzini, Matteo; Carugno, Michele; Koutrakis, Petros; Kang, Choong-Min; Bian, Shurui; Gao, Tao; Byun, Hyang‐Min; Schwartz, Joel; Baccarelli, Andrea A.; Hou, Lifang

doi:10.1080/1354750x.2017.1347961

Cited by 15 publications

(5 citation statements)

References 70 publications

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“…GWAS most frequently detects non-coding variants, and variants affecting gene expression have been shown to have pervasive effects on most diseases [46]. Histone markers like h3k9ac and h3k4me3 are some of the most essential modification markers involved in arterial pressure [47] and development of bronchial epithelial cells influencing COPD [48]. Super enhancer regions have multiple enhancers that drive transcription of genes involved in cell identity in diseases and heart development [49].…”

Section: Discussionmentioning

confidence: 99%

Genetic overlap of chronic obstructive pulmonary disease and cardiovascular disease-related traits: a large-scale genome-wide cross-trait analysis

Zhu

Wang

et al. 2019

Respir Res

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Background A growing number of studies clearly demonstrate a substantial association between chronic obstructive pulmonary disease (COPD) and cardiovascular diseases (CVD), although little is known about the shared genetics that contribute to this association. Methods We conducted a large-scale cross-trait genome-wide association study to investigate genetic overlap between COPD (N case = 12,550, N control = 46,368) from the International COPD Genetics Consortium and four primary cardiac traits: resting heart rate (RHR) ( N = 458,969), high blood pressure (HBP) (N case = 144,793, N control = 313,761), coronary artery disease (CAD)(N case = 60,801, N control = 123,504), and stroke (N case = 40,585, N control = 406,111) from UK Biobank, CARDIoGRAMplusC4D Consortium, and International Stroke Genetics Consortium data. Results RHR and HBP had modest genetic correlation, and CAD had borderline evidence with COPD at a genome-wide level. We found evidence of local genetic correlation with particular regions of the genome. Cross-trait meta-analysis of COPD identified 21 loci jointly associated with RHR, 22 loci with HBP, and 3 loci with CAD. Functional analysis revealed that shared genes were enriched in smoking-related pathways and in cardiovascular, nervous, and immune system tissues. An examination of smoking-related genetic variants identified SNPs located in 15q25.1 region associated with cigarettes per day, with effects on RHR and CAD. A Mendelian randomization analysis showed a significant positive causal effect of COPD on RHR (causal estimate = 0.1374, P = 0.008). Conclusion In a set of large-scale GWAS, we identify evidence of shared genetics between COPD and cardiac traits. Electronic supplementary material The online version of this article (10.1186/s12931-019-1036-8) contains supplementary material, which is available to authorized users.

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Section: Discussionmentioning

confidence: 99%

Genetic overlap of chronic obstructive pulmonary disease and cardiovascular disease-related traits: a large-scale genome-wide cross-trait analysis

Zhu

Wang

et al. 2019

Respir Res

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“…An imbalance in the regulation of these mechanisms can disturb the equilibrium, which in turn may result in generation of specific disease associated proteomes. Studies suggest that exposure to PM and its components can alter a number of such processes including increase in the methylation (di and tri) and acetylation mark on the histone H3 and H4 (Liu et al, 2015; Kresovich et al, 2017). Both these (H3 and H4) modifications are important, as they are considered as biomarkers of different diseases including cancer.…”

Section: Discussionmentioning

confidence: 99%

Comparative profiling of epigenetic modifications among individuals living in different high and low air pollution zones: A pilot study from India

Mishra¹,

Bunkar²,

Singh

et al. 2020

Preprint

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Epigenetic modifications act as an important bridge to regulate the complex network of gene-environment interaction. As these mechanisms determines the gene-expression patterns via regulating the transcriptomic machinery, environmental stress induced epigenetic modifications may interrupt distinct cellular functions resulting into generation of diseased phenotypes. In the present study, we used a multi-city approach to compare the epigenomic signatures of individuals living in two tiers of Indian cities categorized as low-risk and high-risk air pollution zones. The high-risk group reported marked changes in the expression levels of epigenetic modifiers (DNMT1, DNMT3a, EZH2, EHMT2 and HAT), that maintains the levels of specific epigenetic marks essential for appropriate gene functioning. These results also coincided with the observed alterations in the levels of DNA methylation (LINE-1 and % 5mC), and histone modifications (H3 and H4), among the high-risk group. In addition, higher degree of changes reported in the expression profile of a selected miRNA panel in the high-risk group indicated the probability of deregulated transcriptional machinery. This was further confirmed by the analysis of a target gene panel involved in various signalling pathways, which revealed differential expression of the gene transcripts regulating cell cycle, inflammation, cell survival, apoptosis and cell adhesion. Together, our results provide first insights of epigenetic modifications among individuals living in different high and low levels of air pollution zones of India. However, further steps to develop a point-of-care epigenomic assay for human bio-monitoring may be immensely beneficial to reduce the health burden of air pollution especially in lower-middle-income countries.

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“…In addition, chromium and/or arsenic can affect ascorbate levels, necessary to reduce Fe and thus attenuate demethylase enzymatic activity in cells. In addition to heavy metals, hypoxic conditions can also catalyze ROS to increase histone methylation marks [ 130 , 132 ].…”

Section: Relationship Between Epigenetics and Oxidative Stress In The...mentioning

confidence: 99%

Nutriepigenomics in Environmental-Associated Oxidative Stress

et al. 2023

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Complex molecular mechanisms define our responses to environmental stimuli. Beyond the DNA sequence itself, epigenetic machinery orchestrates changes in gene expression induced by diet, physical activity, stress and pollution, among others. Importantly, nutrition has a strong impact on epigenetic players and, consequently, sustains a promising role in the regulation of cellular responses such as oxidative stress. As oxidative stress is a natural physiological process where the presence of reactive oxygen-derived species and nitrogen-derived species overcomes the uptake strategy of antioxidant defenses, it plays an essential role in epigenetic changes induced by environmental pollutants and culminates in signaling the disruption of redox control. In this review, we present an update on epigenetic mechanisms induced by environmental factors that lead to oxidative stress and potentially to pathogenesis and disease progression in humans. In addition, we introduce the microenvironment factors (physical contacts, nutrients, extracellular vesicle-mediated communication) that influence the epigenetic regulation of cellular responses. Understanding the mechanisms by which nutrients influence the epigenome, and thus global transcription, is crucial for future early diagnostic and therapeutic efforts in the field of environmental medicine.

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Histone 3 modifications and blood pressure in the Beijing Truck Driver Air Pollution Study

Cited by 15 publications

References 70 publications

Genetic overlap of chronic obstructive pulmonary disease and cardiovascular disease-related traits: a large-scale genome-wide cross-trait analysis

Genetic overlap of chronic obstructive pulmonary disease and cardiovascular disease-related traits: a large-scale genome-wide cross-trait analysis

Comparative profiling of epigenetic modifications among individuals living in different high and low air pollution zones: A pilot study from India

Nutriepigenomics in Environmental-Associated Oxidative Stress

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