Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes

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 methylatio...

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Autores principales: 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., Bell, Douglas A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147832/
https://www.ncbi.nlm.nih.gov/pubmed/27935972
http://dx.doi.org/10.1371/journal.pone.0166486
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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.
Bell, Douglas A.
author_facet 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.
Bell, Douglas A.
author_sort Su, Dan
collection PubMed
description 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.
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spelling pubmed-51478322016-12-28 Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes 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. Bell, Douglas A. PLoS One Research Article 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. Public Library of Science 2016-12-09 /pmc/articles/PMC5147832/ /pubmed/27935972 http://dx.doi.org/10.1371/journal.pone.0166486 Text en https://creativecommons.org/publicdomain/zero/1.0/ This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 (https://creativecommons.org/publicdomain/zero/1.0/) public domain dedication.
spellingShingle Research Article
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.
Bell, Douglas A.
Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title_full Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title_fullStr Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title_full_unstemmed Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title_short Distinct Epigenetic Effects of Tobacco Smoking in Whole Blood and among Leukocyte Subtypes
title_sort distinct epigenetic effects of tobacco smoking in whole blood and among leukocyte subtypes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147832/
https://www.ncbi.nlm.nih.gov/pubmed/27935972
http://dx.doi.org/10.1371/journal.pone.0166486
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