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6. Associations between Maternal Tobacco Smoke Exposure and the Cord Blood [CD4.sup.+] DNA Methylome

Author

Howe, Caitlin G., Zhou, Meng, Wang, Xuting, Pittman, Gary S., Thompson, Isabel J., Campbell, Michelle R., Bastain, Theresa M., Grubbs, Brendan H., Salam, Muhammad T., Hoyo, Cathrine, Bell, Douglas A., Smith, Andrew D., and Breton, Carrie V.

Subjects
United States. National Institute of Environmental Health Sciences -- Analysis, STEMCELL Technologies Inc., Smoking -- Analysis, Genetic research -- Analysis, Diagnostic reagents industry -- Analysis, Child health -- Analysis, Methylation -- Analysis, DNA -- Analysis, Genomes -- Analysis, Pregnancy -- Analysis, Sulfites -- Analysis, EDTA -- Analysis, Genomics -- Analysis, Hispanic Americans, Newborn infants, Regression analysis, Children, Environmental issues, Health, Gene Ontology. Gene Ontology Consortium
Abstract

Background: Maternal tobacco smoke exposure has been associated with altered DNA methylation. However, previous studies largely used methylation arrays, which cover a small fraction of CpGs, and focused on whole cord blood. Objectives: The current study examined the impact of in utero exposure to maternal tobacco smoke on the cord blood [CD4.sup.+] DNA methylome. Methods: The methylomes of 20 Hispanic white newborns (n = 10 exposed to any maternal tobacco smoke in pregnancy; n = 10 unexposed) from the Maternal and Child Health Study (MACHS) were profiled by whole-genome bisulfite sequencing (median coverage: 6.5 X). Statistical analyses were conducted using the Regression Analysis of Differential Methylation (RADMeth) program because it performs well on low-coverage data (minimizes false positives and negatives). Results: We found that 10,381 CpGs were differentially methylated by tobacco smoke exposure [neighbor-adjusted p-values that are additionally corrected for multiple testing based on the Benjamini-Hochberg method for controlling the false discovery rate (FDR) ([p.sub.FDR]) Conclusions: Maternal tobacco smoke exposure in pregnancy is associated with cord blood [CD4.sup.+] DNA methylation in key regulatory regions, including enhancers. While we used a method that performs well on low-coverage data, we cannot exclude the possibility that some results may be false positives. However, we identified a differentially methylated CpG in amino acid transporter SLC7A8 that is highly reproducible, which may be sensitive to cigarette smoke in both cord blood and adult [CD4.sup.+] cells. https://doi.org/10.1289/EHP3398, Introduction Maternal smoking during pregnancy is one of the most prevalent and modifiable risk factors affecting newborn health (Curtin and Matthews 2016). In the United States, >8% of women smoke [...]

Published
2019
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10. Identification of Smoking-Associated Differentially Methylated Regions Using Reduced Representation Bisulfite Sequencing and Cell type-Specific Enhancer Activation and Gene Expression

Author

Wan, Ma, Bennett, Brian D., Pittman, Gary S., Campbell, Michelle R., Reynolds, Lindsay M., Porter, Devin K., Crowl, Christopher L., Wang, Xuting, Su, Dan, Englert, Neal A., Thompson, Isabel J., Liu, Yongmei, and Bell, Douglas A.

Subjects
Osteoporosis -- Care and treatment, Lymphocytes -- Analysis, Smoking -- Research -- Health aspects, Genetic research -- Research, Transcription (Genetics) -- Research, Environmental issues, Health
Abstract

Background: Cigarette smoke is a causal factor in cancers and cardiovascular disease. Smoking-associated differentially methylated regions (SMDMRs) have been observed in disease studies, but the causal link between altered DNA methylation and transcriptional change is obscure. Objective: Our objectives were to finely resolve SM-DMRs and to interrogate the mechanistic link between SM-DMRs and altered transcription of enhancer noncoding RNA (eRNA) and mRNA in human circulating monocytes. Method: We integrated SM-DMRs identified by reduced representation bisulfite sequencing (RRBS) of circulating CD14+ monocyte DNA collected from two independent human studies [n = 38 from Clinical Research Unit (CRU) and n = 55 from the Multi-Ethnic Study of Atherosclerosis (MESA), about half of whom were active smokers] with gene expression for protein-coding genes and noncoding RNAs measured by RT-PCR or RNA sequencing. Candidate SM-DMRs were compared with RRBS of purified CD4+ T cells, CD8 + T cells, CD15+ granulocytes, CD19+ B cells, and CD56+ NK cells (n = 19 females, CRU). DMRs were validated using pyrosequencing or bisulfite amplicon sequencing in up to 85 CRU volunteers, who also provided saliva DNA. Results: RRBS identified monocyte SM-DMRs frequently located in putative gene regulatory regions. The most significant monocyte DMR occurred at a poised enhancer in the aryl-hydrocarbon receptor repressor gene (AHRR) and it was also detected in both granulocytes and saliva DNA. To our knowledge, we identify for the first time that SM-DMRs in or near AHRR, C5orf55-EXOC-AS, and SASH1 were associated with increased noncoding eRNA as well as mRNA in monocytes. Functionally, the AHRR SM-DMR appeared to up-regulate AHRR mRNA through activating the AHRR enhancer, as suggested by increased eRNA in the monocytes, but not granulocytes, from smokers compared with nonsmokers. Conclusions: Our findings suggest that AHRR SM-DMR up-regulates AHRR mRNA in a monocyte-specific manner by activating the AHRR enhancer. Cell type-specific activation of enhancers at SM-DMRs may represent a mechanism driving smoking-related disease. https://doi.org/10.1289/EHP2395, Introduction Tobacco smoke exposure is associated with a variety of human diseases including cancers of the lung, head and neck, and bladder; chronic obstructive pulmonary disease; osteoporosis; and cardiovascular disease [...]

Published
2018
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13. Associations between Maternal Tobacco Smoke Exposure and the Cord Blood CD4+ DNA Methylome.

Author

Howe, Caitlin G., Meng Zhou, Xuting Wang, Pittman, Gary S., Thompson, Isabel J., Campbell, Michelle R., Bastain, Theresa M., Grubbs, Brendan H., Salam, Muhammad T., Hoyo, Cathrine, Bell, Douglas A., Smith, Andrew D., and Breton, Carrie V.

Subjects
DNA analysis, COMPARATIVE studies, DIAGNOSTIC errors, CORD blood, FISHER exact test, GENETICS, GENOMES, HISPANIC Americans, REGRESSION analysis, SMOKING, STEM cells, T cells, TOBACCO, WHITE people, DNA methylation, DESCRIPTIVE statistics, MATERNAL exposure, FETUS, PREGNANCY
Abstract

BACKGROUND: Maternal tobacco smoke exposure has been associated with altered DNA methylation. However, previous studies largely used methylation arrays, which cover a small fraction of CpGs, and focused on whole cord blood. OBJECTIVES: The current study examined the impact of in utero exposure to maternal tobacco smoke on the cord blood CD4+ DNA methylome. METHODS: The methylomes of 20 Hispanic white newborns (n=10 exposed to any maternal tobacco smoke in pregnancy; n=10 unexposed) from the Maternal and Child Health Study (MACHS) were profiled by whole-genome bisulfite sequencing (median coverage: 6:5 x). Statistical analyses were conducted using the Regression Analysis of Differential Methylation (RADMeth) program because it performs well on low-coverage data (minimizes false positives and negatives). RESULTS: We found that 10,381 CpGs were differentially methylated by tobacco smoke exposure [neighbor-adjusted p-values that are additionally corrected for multiple testing based on the Benjamini-Hochberg method for controlling the false discovery rate (FDR) (pFDR)<0:05]. From these CpGs, RADMeth identified 557 differentially methylated regions (DMRs) that were overrepresented (p<0:05) in important regulatory regions, including enhancers. Of nine DMRs that could be queried in a reduced representation bisulfite sequencing (RRBS) study of adult CD4+ cells (n=9 smokers; n=10 nonsmokers), four replicated (p<0:05). Additionally, a CpG in the promoter of SLC7A8 (percent methylation difference: -9:4% comparing exposed to unexposed) replicated (p<0:05) in an EPIC (Illumina) array study of cord blood CD4+ cells (n=14 exposed to sustained maternal tobacco smoke; n=16 unexposed) and in a study of adult CD4+ cells across two platforms (EPIC: n=9 smokers; n=11 nonsmokers; 450K: n=59 smokers; n=72 nonsmokers). CONCLUSIONS: Maternal tobacco smoke exposure in pregnancy is associated with cord blood CD4+ DNA methylation in key regulatory regions, including enhancers. While we used a method that performs well on low-coverage data, we cannot exclude the possibility that some results may be false positives. However, we identified a differentially methylated CpG in amino acid transporter SLC7A8 that is highly reproducible, which may be sensitive to cigarette smoke in both cord blood and adult CD4+ cells. [ABSTRACT FROM AUTHOR]

Published
2019
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14. Identification of Smoking-Associated Differentially Methylated Regions Using Reduced Representation Bisulfite Sequencing and Cell type–Specific Enhancer Activation and Gene Expression.

Author

Ma Wan, Bennett, Brian D., Pittman, Gary S., Campbell, Michelle R., Reynolds, Lindsay M., Porter, Devin K., Crowl, Christopher L., Xuting Wang, Dan Su, Englert, Neal A., Thompson, Isabel J., Yongmei Liu, and Bell, Douglas A.

Abstract

Background: Cigarette smoke is a causal factor in cancers and cardiovascular disease. Smoking-associated differentially methylated regions (SM-DMRs) have been observed in disease studies, but the causal link between altered DNA methylation and transcriptional change is obscure. Objective: Our objectives were to finely resolve SM-DMRs and to interrogate the mechanistic link between SM-DMRs and altered transcription of enhancer noncoding RNA (eRNA) and mRNA in human circulating monocytes. Method: We integrated SM-DMRs identified by reduced representation bisulfite sequencing (RRBS) of circulating CD14+ monocyte DNA collected from two independent human studies [n=38 from Clinical Research Unit (CRU) and n=55 from the Multi-Ethnic Study of Atherosclerosis (MESA), about half of whom were active smokers] with gene expression for protein-coding genes and noncoding RNAs measured by RT-PCR or RNA sequencing. Candidate SM-DMRs were compared with RRBS of purified CD4+ T cells, CD8+ T cells, CD15+ granulocytes, CD19+ B cells, and CD56+ NK cells (n=19 females, CRU). DMRs were validated using pyrosequencing or bisulfite amplicon sequencing in up to 85 CRU volunteers, who also provided saliva DNA. Results: RRBS identified monocyte SM-DMRs frequently located in putative gene regulatory regions. The most significant monocyte DMR occurred at a poised enhancer in the aryl-hydrocarbon receptor repressor gene (AHRR) and it was also detected in both granulocytes and saliva DNA. To our knowledge, we identify for the first time that SM-DMRs in or near AHRR, C5orf55-EXOC-AS, and SASH1 were associated with increased noncoding eRNA as well as mRNA in monocytes. Functionally, the AHRR SM-DMR appeared to up-regulate AHRR mRNA through activating the AHRR enhancer, as suggested by increased eRNA in the monocytes, but not granulocytes, from smokers compared with nonsmokers. Conclusions: Our findings suggest that AHRR SM-DMR up-regulates AHRR mRNA in a monocyte-specific manner by activating the AHRR enhancer. Cell type–specific activation of enhancers at SM-DMRs may represent a mechanism driving smoking-related disease. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Tobacco exposure-related alterations in DNA methylation and gene expression in human monocytes: the Multi-Ethnic Study of Atherosclerosis (MESA).

Author

Reynolds, Lindsay M., Lohman, Kurt, Pittman, Gary S., Barr, R. Graham, Chi, Gloria C., Kaufman, Joel, Wan, Ma, Bell, Douglas A., Blaha, Michael J., Rodriguez, Carlos J., and Liu, Yongmei

Abstract

Alterations in DNA methylation and gene expression in blood leukocytes are potential biomarkers of harm and mediators of the deleterious effects of tobacco exposure. However, methodological issues, including the use of self-reported smoking status and mixed cell types have made previously identified alterations in DNA methylation and gene expression difficult to interpret. In this study, we examined associations of tobacco exposure with DNA methylation and gene expression, utilizing a biomarker of tobacco exposure (urine cotinine) and CD14+ purified monocyte samples from 934 participants of the community-based Multi-Ethnic Study of Atherosclerosis (MESA). Urine cotinine levels were measured using an immunoassay. DNA methylation and gene expression were measured with microarrays. Multivariate linear regression was used to test for associations adjusting for age, sex, race/ethnicity, education, and study site. Urine cotinine levels were associated with methylation of 176 CpGs [false discovery rate (FDR)<0.01]. Four CpGs not previously identified by studies of non-purified blood samples nominally replicated (Pvalue<0.05) with plasma cotinine-associated methylation in 128 independent monocyte samples. Urine cotinine levels associated with expression of 12 genes (FDR<0.01), including increased expression ofP2RY6(Beta ± standard error = 0.078 ± 0.008,P= 1.99 × 10−22), a gene previously identified to be involved in the release of pro-inflammatory cytokines. No cotinine-associated (FDR<0.01) methylation profiles significantly (FDR<0.01) correlated with cotinine-associated (FDR<0.01) gene expression profiles. In conclusion, our findings i) identify potential monocyte-specific smoking-associated methylation patterns and ii) suggest that alterations in methylation may not be a main mechanism regulating gene expression in monocytes in response to cigarette smoking. [ABSTRACT FROM PUBLISHER]

Published
2017
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16. Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes.

Author

Su, Dan, Wang, Xuting, Campbell, Michelle R., Porter, Devin K., Pittman, Gary S., Bennett, Brian D., Wan, Ma, Englert, Neal A., Crowl, Christopher L., Gimple, Ryan N., Adamski, Kelly N., Huang, Zhiqing, Murphy, Susan K., and Bell, Douglas A.

Subjects
TOBACCO smoke, EPIGENETICS, LEUCOCYTES, DNA methylation, GENE expression, ETIOLOGY of diseases
Abstract

Tobacco smoke exposure dramatically alters DNA methylation in blood cells and may mediate smoking-associated complex diseases through effects on immune cell function. However, knowledge of smoking effects in specific leukocyte subtypes is limited. To better characterize smoking–associated methylation changes in whole blood and leukocyte subtypes, we used Illumina 450K arrays and Reduced Representation Bisulfite Sequencing (RRBS) to assess genome-wide DNA methylation. Differential methylation analysis in whole blood DNA from 172 smokers and 81 nonsmokers revealed 738 CpGs, including 616 previously unreported CpGs, genome-wide significantly associated with current smoking (p <1.2x10-7, Bonferroni correction). Several CpGs (MTSS1, NKX6-2, BTG2) were associated with smoking duration among heavy smokers (>22 cigarettes/day, n = 86) which might relate to long-term heavy-smoking pathology. In purified leukocyte subtypes from an independent group of 20 smokers and 14 nonsmokers we further examined methylation and gene expression for selected genes among CD14+ monocytes, CD15+ granulocytes, CD19+ B cells, and CD2+ T cells. In 10 smokers and 10 nonsmokers we used RRBS to fine map differential methylation in CD4+ T cells, CD8+ T cells, CD14+, CD15+, CD19+, and CD56+ natural killer cells. Distinct cell-type differences in smoking-associated methylation and gene expression were identified. AHRR (cg05575921), ALPPL2 (cg21566642), GFI1 (cg09935388), IER3 (cg06126421) and F2RL3 (cg03636183) showed a distinct pattern of significant smoking-associated methylation differences across cell types: granulocytes> monocytes>> B cells. In contrast GPR15 (cg19859270) was highly significant in T and B cells and ITGAL (cg09099830) significant only in T cells. Numerous other CpGs displayed distinctive cell-type responses to tobacco smoke exposure that were not apparent in whole blood DNA. Assessing the overlap between these CpG sites and differential methylated regions (DMRs) with RRBS in 6 cell types, we confirmed cell-type specificity in the context of DMRs. We identified new CpGs associated with current smoking, pack-years, duration, and revealed unique profiles of smoking-associated DNA methylation and gene expression among immune cell types, providing potential clues to hematopoietic lineage-specific effects in disease etiology. [ABSTRACT FROM AUTHOR]

Published
2016
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17. DNA Methylation of the Aryl Hydrocarbon Receptor Repressor Associations With Cigarette Smoking and Subclinical Atherosclerosis.

Author

Reynolds, Lindsay M., Ma Wan, Jingzhong Ding, Taylor, Jackson R., Lohman, Kurt, Dan Su, Bennett, Brian D., Porter, Devin K., Gimple, Ryan, Pittman, Gary S., Xuting Wang, Howard, Timothy D., Siscovick, David, Psaty, Bruce M., Shea, Steven, Burke, Gregory L., Jacobs, Jr., David R., Rich, Stephen S., Hixson, James E., and Stein, James H.

Subjects
DNA methylation, ARYL hydrocarbon receptors, ATHEROSCLEROSIS
Abstract

Background-Tobacco smoke contains numerous agonists of the aryl hydrocarbon receptor (AhR) pathway, and activation of the AhR pathway was shown to promote atherosclerosis in mice. Intriguingly, cigarette smoking is most strongly and robustly associated with DNA modifications to an AhR pathway gene, the AhR repressor (AHRR). We hypothesized that altered AHRR methylation in monocytes, a cell type sensitive to cigarette smoking and involved in atherogenesis, may be a part of the biological link between cigarette smoking and atherosclerosis. Methods and Results-DNA methylation profiles of AHRR in monocytes (542 CpG sites±150 kb of AHRR, using Illumina 450K array) were integrated with smoking habits and ultrasound-measured carotid plaque scores from 1256 participants of the Multi-Ethnic Study of Atherosclerosis (MESA). Methylation of cg05575921 significantly associated (P=6.1×10-134) with smoking status (current versus never). Novel associations between cg05575921 methylation and carotid plaque scores (P=3.1×10-10) were identified, which remained significant in current and former smokers even after adjusting for self-reported smoking habits, urinary cotinine, and well-known cardiovascular disease risk factors. This association replicated in an independent cohort using hepatic DNA (n=141). Functionally, cg05575921 was located in a predicted gene expression regulatory element (enhancer) and had methylation correlated with AHRR mRNA profiles (P=1.4×10-17) obtained from RNA sequencing conducted on a subset (n=373) of the samples. Conclusions--These findings suggest that AHRR methylation may be functionally related to AHRR expression in monocytes and represents a potential biomarker of subclinical atherosclerosis in smokers. [ABSTRACT FROM AUTHOR]

Published
2015
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18. Genetic Variation and Antioxidant Response Gene Expression in the Bronchial Airway Epithelium of Smokers at Risk for Lung Cancer.

Author

Xuting Wang, Chorley, Brian N., Pittman, Gary S., Kleeberger, Steven R., Brothers II, John, Gang Liu, Spira, Avrum, and Bell, Douglas A.

Subjects
GENE expression, EPITHELIUM, LUNG cancer risk factors, CIGARETTE smokers, HETEROGENEITY, EPITHELIAL cells, BIOMARKERS, GENOMICS, HUMAN genetic variation, BRONCHOSCOPY, GENETIC polymorphisms, DISEASES
Abstract

Prior microarray studies of smokers at high risk for lung cancer have demonstrated that heterogeneity in bronchial airway epithelial cell gene expression response to smoking can serve as an early diagnostic biomarker for lung cancer. As a first step in applying functional genomic analysis to population studies, we have examined the relationship between gene expression variation and genetic variation in a central molecular pathway (NRF2-mediated antioxidant response) associated with smoking exposure and lung cancer. We assessed global gene expression in histologically normal airway epithelial cells obtained at bronchoscopy from smokers who developed lung cancer (SC, n = 20), smokers without lung cancer (SNC, n = 24), and never smokers (NS, n = 8). Functional enrichment analysis showed that the NRF2-mediated, antioxidant response element (ARE)-regulated genes, were significantly lower in SC, when compared with expression levels in SNC. Importantly, we found that the expression of MAFG (a binding partner of NRF2) was correlated with the expression of ARE genes, suggesting MAFG levels may limit target gene induction. Bioinformatically we identified single nucleotide polymorphisms (SNPs) in putative ARE genes and to test the impact of genetic variation, we genotyped these putative regulatory SNPs and other tag SNPs in selected NRF2 pathway genes. Sequencing MAFG locus, we identified 30 novel SNPs and two were associated with either gene expression or lung cancer status among smokers. This work demonstrates an analysis approach that integrates bioinformatics pathway and transcription factor binding site analysis with genotype, gene expression and disease status to identify SNPs that may be associated with individual differences in gene expression and/or cancer status in smokers. These polymorphisms might ultimately contribute to lung cancer risk via their effect on the airway gene expression response to tobacco-smoke exposure. [ABSTRACT FROM AUTHOR]

Published
2010
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19. Probing the Functional Impact of Sequence Variation on p53-DNA Interactions Using a Novel Microsphere Assay for Protein-DNA Binding with Human Cell Extracts.

Author

Noureddine, Maher A., Menendez, Daniel, Campbell, Michelle R., Bandele, Omari J., Horvath, Monica M., Xuting Wang, Pittman, Gary S., Chorley, Brian N., Resnick, Michael A., and Bell, Douglas A.

Subjects
DNA-protein interactions, P53 antioncogene, GENETIC polymorphisms, OLIGONUCLEOTIDES, TUMOR genetics, BINDING sites, CARRIER proteins, BIOINFORMATICS
Abstract

The p53 tumor suppressor regulates its target genes through sequence-specific binding to DNA response elements (REs). Although numerous p53 REs are established, the thousands more identified by bioinformatics are not easily subjected to comparative functional evaluation. To examine the relationship between RE sequence variation-including polymorphismsand p53 binding, we have developed a multiplex format microsphere assay of protein-DNA binding (MAPD) for p53 in nuclear extracts. Using MAPD we measured sequence-specific p53 binding of doxorubicin-activated or transiently expressed p53 to REs from established p53 target genes and p53 consensus REs. To assess the sensitivity and scalability of the assay, we tested 16 variants of the p21 target sequence and a 62-multiplex set of single nucleotide (nt) variants of the p53 consensus sequence and found many changes in p53 binding that are not captured by current computational binding models. A group of eight single nucleotide polymorphisms (SNPs) was examined and binding profiles closely matched transactivation capability tested in luciferase constructs. The in vitro binding characteristics of p53 in nuclear extractsrecapitulated the cellular in vivo transactivation capabilities for eight well-established human REs measured by luciferase assay. Using a set of 26 bona fide REs, we observed distinct binding patterns characteristic of transiently expressed wild type and mutant p53s. This microsphere assay system utilizes biologically meaningful cell extracts in a multiplexed, quantitative, in vitro format that provides a powerful experimental tool for elucidating the functional impact of sequence polymorphism and protein variation on protein/DNA binding in transcriptional networks. [ABSTRACT FROM AUTHOR]

Published
2009
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20. Variation in genes relevant to aromatic hydrocarbon metabolism and the risk of adult brain tumors.

Author

De Roos, Anneclaire J., Rothman, Nathaniel, Brown, Merideth, Bell, Douglas A., Pittman, Gary S., Shapiro, William R., Selker, Robert G., Fine, Howard A., Black, Peter M., and Inskip, Peter D.

Subjects
GENES, BRAIN tumors, MENINGIOMA, ACOUSTIC neuroma, GENOTYPE-environment interaction, GLIOMAS
Abstract

Genes involved in phase I and phase II regulation of aromatic hydrocarbon-induced effects exhibit sequence variability that may mediate the risk of adult brain tumors. We evaluated associations between gene variants in CYP1A1, CYP1B1, GSTM3, EPHX1, and NQO1 and adult brain tumor incidence. Cases were patients with glioma (n = 489), meningioma (n = 197), or acoustic neuroma (n = 96) diagnosed from 1994 to 1998 at three U.S. hospitals. Controls were 799 patients admitted to the same hospitals for nonmalignant conditions. DNA was extracted from blood samples collected from 1277 subjects, and genotyping was conducted for CYP1A1 I462V, CYP1B1 V432L, EPHX1 Y113H, GSTM3 *A/*B (intron 6 deletion), and NQO1 P187S. The CYP1B1 V432L homozygous variant was associated with decreased risk of meningioma (odds ratio [OR] 5 0.6; 95% CI, 0.3–1.0) but not the other tumor types. The GSTM3 *B/*B genotype was associated with increased risk of glioma (OR 5 2.3; 95% CI, 1.0–5.2) and meningioma (OR 5 3.6; 95% CI, 1.3–9.8). Increased risks associated with GSTM3 *B/*B were observed in younger subjects (age < 50) and older subjects (age ≥ 50), in men and women, and within each study site. The magnitude of association for GSTM3 with glioma and meningioma was greater among ever-smokers than among those who had never smoked. None of the other genotypes showed consistent associations with any tumor type. The association with the GSTM3 *B allele, while intriguing, requires replication, and additional research is needed to clarify the function of the GSTM3 alleles studied here. [ABSTRACT FROM AUTHOR]

Published
2006
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21. Dioxin-like compound exposures and DNA methylation in the Anniston Community Health Survey Phase II.

Author

Pittman, Gary S., Wang, Xuting, Campbell, Michelle R., Coulter, Sherry J., Olson, James R., Pavuk, Marian, Birnbaum, Linda S., and Bell, Douglas A.

Abstract

The Anniston Community Health Survey (ACHS-I) was initially conducted from 2005 to 2007 to assess polychlorinated biphenyl (PCB) exposures in Anniston, Alabama residents. In 2014, a follow-up study (ACHS-II) was conducted to measure the same PCBs as in ACHS-I and additional compounds e.g., polychlorinated dibenzo-p-dioxins (PCDDs), polychlorinated dibenzofurans (PCDFs), and dioxin-like non-ortho (cPCBs) substituted PCBs. In this epigenome-wide association study (EWAS), we examined the associations between PCDD, PCDF, and PCB exposures and DNA methylation. Whole blood DNA methylation was measured using Illumina EPIC arrays (n =292). We modeled lipid-adjusted toxic equivalencies (TEQs) for: ΣDioxins (sum of 28 PCDDs, PCDFs, cPCBs, and mPCBs), PCDDs, PCDFs, cPCBs, and mPCBs using robust multivariable linear regression adjusting for age, race, sex, smoking, bisulfite conversion batch, and estimated percentages of six blood cell types. Among all exposures we identified 10 genome-wide (Bonferroni p ≤6.74E−08) and 116 FDR (p ≤5.00E−02) significant associations representing 10 and 113 unique CpGs, respectively. Of the 10 genome-wide associations, seven (70%) occurred in the PCDDs and four (40%) of these associations had an absolute differential methylation ≥1.00%, based on the methylation difference between the highest and lowest exposure quartiles. Most of the associations (six, 60%) represented hypomethylation changes. Of the 10 unique CpGs, eight (80%) were in genes shown to be associated with dioxins and/or PCBs based on data from the 2019 Comparative Toxicogenomics Database. In this study, we have identified a set of CpGs in blood DNA that may be particularly susceptible to dioxin, furan, and dioxin-like PCB exposures. Unlabelled Image • Anniston, Alabama has high levels of environmental dioxin-like compounds. • Using 850K arrays, we found 10 genome-wide significant exposure/DNA CpG methylation associations. • Seven methylation associations were with polychlorinated dibenzo-p-dioxins. • Four methylation associations had an absolute differential methylation ≥1.00%. • Eight associations were in genes reported to interact with dioxin exposures. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Discovery and verification of functional single nucleotide polymorphisms in regulatory genomic regions: Current and developing technologies

Author

Chorley, Brian N., Wang, Xuting, Campbell, Michelle R., Pittman, Gary S., Noureddine, Maher A., and Bell, Douglas A.

Subjects
*GENETIC polymorphisms, *NUCLEOTIDES, *GENETIC regulation, *GENOMES
Abstract

Abstract: The most common form of genetic variation, single nucleotide polymorphisms or SNPs, can affect the way an individual responds to the environment and modify disease risk. Although most of the millions of SNPs have little or no effect on gene regulation and protein activity, there are many circumstances where base changes can have deleterious effects. Non-synonymous SNPs that result in amino acid changes in proteins have been studied because of their obvious impact on protein activity. It is well known that SNPs within regulatory regions of the genome can result in disregulation of gene transcription. However, the impact of SNPs located in putative regulatory regions, or rSNPs, is harder to predict for two primary reasons. First, the mechanistic roles of non-coding genomic sequence remain poorly defined. Second, experimental validation of the functional consequences of rSNPs is often slow and laborious. In this review, we summarize traditional and novel methodologies for candidate rSNPs selection, in particular in silico techniques that aid in candidate rSNP selection. Additionally we will discuss molecular biological techniques that assess the impact of rSNPs on binding of regulatory machinery, as well as functional consequences on transcription. Standard techniques such as EMSA and luciferase reporter constructs are still widely used to assess effects of rSNPs on binding and gene transcription; however, these protocols are often bottlenecks in the discovery process. Therefore, we highlight novel and developing high-throughput protocols that promise to aid in shortening the process of rSNP validation. Given the large amount of genomic information generated from a multitude of re-sequencing and genome-wide SNP array efforts, future focus should be to develop validation techniques that will allow greater understanding of the impact these polymorphisms have on human health and disease. [Copyright &y& Elsevier]

Published
2008
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23. CYP1A1 and CYP1B1 genotypes, haplotypes, and TCDD-induced gene expression in subjects from Seveso, Italy

Author

Landi, Maria Teresa, Bergen, Andrew W., Baccarelli, Andrea, Patterson, Donald G., Grassman, Jean, Ter-Minassian, Monica, Mocarelli, Paolo, Caporaso, Neil, Masten, Scott A., Pesatori, Angela C., Pittman, Gary S., and Bell, Douglas A.

Subjects
*GENETIC polymorphisms, *GENE expression, *MESSENGER RNA, *LYMPHOCYTES
Abstract

Abstract: 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) is highly toxic in experimental animals, and is known to induce cytochrome P450 (CYP) gene expression. We investigated the effect of CYP1A1 and CYP1B1 variant genotypes and haplotypes on CYP1A1 and CYP1B1 mRNA expression and ethoxyresorufin-O-deethylase (EROD) activity in lymphocytes from 121 subjects from the Seveso population, Italy, accidentally exposed to TCDD in 1976. The 3′UTR 3801T>C and I462V variants of CYP1A1 were present in 16% and 6% of the subjects, respectively. The frequency of CYP1B1 variants was 85.2% for L432V, 49.6% for R48G and A119S, and 28.7% for N453S. There was complete linkage disequilibrium (LD) among the CYP1B1 variant loci (D′=-1) and high LD among the CYP1A1 loci (D′=0.86). Gene expression measured by RT-PCR did not vary by CYP1B1 genotype in uncultured lymphocytes. However, when lymphocytes were treated in vitro with 10nM TCDD, CYP1B1 and CYP1A1 mRNA expression was strongly induced and modified by CYP variant alleles. Specifically, the CYP1B1*3 haplotype (L432V) was associated with increased CYP1B1 mRNA expression (P=0.03), following an additive model; the CYP1A1 I462V polymorphism was positively, although not significantly, associated with CYP1A1 expression. The CYP1B1*3 variant may have affected CYP1B1 expression in subjects highly and acutely exposed to dioxin at the time of the accident. Although based on small number of subjects, a slight increase in eczema (P=0.05, n=8) and urticaria (P=0.02, n=2) was observed 20 years after the accident in subjects carrying the CYP1B1*3 allele. Genetic variation in cytochrome P450 induction may identify subjects with variable responsiveness to TCDD and potentially increased risk of disease. [Copyright &y& Elsevier]

Published
2005
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