Search

Your search keyword '"Vokonas, P."' showing total 504 results
Start Over Author "Vokonas, P."
504 results on '"Vokonas, P."'

3. Intermediate and long-term exposure to air pollution and temperature and the extracellular microRNA profile of participants in the normative aging study (NAS)

Author

Danesh Yazdi, Mahdieh, Nassan, Feiby L, Kosheleva, Anna, Wang, Cuicui, Xu, Zongli, Di, Qian, Requia, Weeberb J, Comfort, Nicole T, Wu, Haotian, Laurent, Louise C, DeHoff, Peter, Vokonas, Pantel, Baccarelli, Andrea A, and Schwartz, Joel D

Subjects
Environmental Sciences, Pollution and Contamination, Aging, Genetics, Biotechnology, Climate-Related Exposures and Conditions, Aetiology, 2.2 Factors relating to the physical environment, Good Health and Well Being, Humans, Air Pollutants, Nitrogen Dioxide, Temperature, Particulate Matter, Air Pollution, MicroRNAs, Environmental Exposure, Ozone, Particulate matter, Nitrogen dioxide, Ambient temperature, microRNA, Air pollution, Chemical Sciences, Biological Sciences, Toxicology, Biological sciences, Chemical sciences, Environmental sciences
Abstract

BackgroundThe molecular effects of intermediate and long-term exposure to air pollution and temperature, such as those on extracellular microRNA (ex-miRNA) are not well understood but may have clinical consequences.ObjectivesTo assess the association between exposure to ambient air pollution and temperature and ex-miRNA profiles.MethodsOur study population consisted of 734 participants in the Normative Aging Study (NAS) between 1999 and 2015. We used high-resolution models to estimate four-week, eight-week, twelve-week, six-month, and one-year moving averages of PM2.5, O3, NO2, and ambient temperature based on geo-coded residential addresses. The outcome of interest was the extracellular microRNA (ex-miRNA) profile of each participant over time. We used a longitudinal quantile regression approach to estimate the association between the exposures and each ex-miRNA. Results were corrected for multiple comparisons and ex-miRNAs that were still significantly associated with the exposures were further analyzed using KEGG pathway analysis and Ingenuity Pathway Analysis.ResultsWe found 151 significant associations between levels of PM2.5, O3, NO2, and ambient temperature and 82 unique ex-miRNAs across multiple quantiles. Most of the significant results were associations with intermediate-term exposure to O3, long-term exposure to PM2.5, and both intermediate and long-term exposure to ambient temperature. The exposures were most often associated with the 75th and 90th percentile of the outcomes. Pathway analyses of significant ex-miRNAs revealed their involvement in biological pathways involving cell function and communication as well as clinical diseases such as cardiovascular disease, respiratory disease, and neurological disease.ConclusionOur results show that intermediate and long-term exposure to all our exposures of interest were associated with changes in the ex-miRNA profile of study participants. Further studies on environmental risk factors and ex-miRNAs are warranted.

Published
2023

4. Short-term air pollution and temperature exposure and changes in the extracellular microRNA profile of Normative Aging Study (NAS) participants

Author

Danesh Yazdi, Mahdieh, Nassan, Feiby L, Kosheleva, Anna, Wang, Cuicui, Xu, Zongli, Di, Qian, Requia, Weeberb J, Comfort, Nicole T, Wu, Haotian, Laurent, Louise C, DeHoff, Peter, Vokonas, Pantel, Baccarelli, Andrea A, and Schwartz, Joel D

Subjects
Genetics, Aging, Climate-Related Exposures and Conditions, Biotechnology, Good Health and Well Being, Humans, Air Pollutants, Air Pollution, Environmental Exposure, MicroRNAs, Nitrogen Dioxide, Ozone, Particulate Matter, Temperature, Air pollution, microRNA, Particulate matter, Nitrogen dioxide, Ambient temperature, Environmental Sciences
Abstract

BackgroundWhile the health effects of air pollution and temperature are widely studied, the molecular effects are poorly understood. Extracellular microRNAs (ex-miRNAs) have the potential to serve as diagnostic or prognostic biomarkers and/or to act as intercellular signaling molecules that mediate the effects of environmental exposures on health outcomes.MethodsWe examined the relationship between short-term exposure to air pollution and ambient temperature and the ex-miRNA profiles of participants in the Normative Aging Study (NAS) from 1999 to 2015. Our exposures were defined as same-day, two-day, three-day, one-week, two-week, and three-week moving averages of PM2.5, NO2, O3, and temperature which were derived from high-resolution spatio-temporal models. The ex-miRNA profiles of the subjects were obtained during follow-up visits. We analyzed the data using a longitudinal quantile regression model adjusted for individual covariates, batch effects, and time trends. We adjusted for multiple comparisons using a false discovery rate (FDR) correction. Ex-miRNAs that were significantly associated with exposures were further investigated using pathway analyses.ResultsWe found that all the examined exposures were associated with changes in ex-miRNA profiles in our study, particularly PM2.5 which was responsible for most of the statistically significant results. We found 110 statistically significant exposure-outcome relationships that revealed associations with the levels of 52 unique ex-miRNAs. Pathway analyses showed these ex-miRNAs have been linked to target mRNAs, genes, and biological mechanisms that could affect virtually every organ system, and as such may be linked to multiple clinical disease presentations such as cardiovascular disease, respiratory disease, and neurological disease.ConclusionsAir pollution and temperature exposures were significantly associated with alterations in the ex-miRNA profiles of NAS subjects with possible biological consequences.

Published
2023

5. Extracellular Vesicle-Encapsulated microRNAs as Novel Biomarkers of Lung Health.

Author

Eckhardt, Christina M, Gambazza, Simone, Bloomquist, Tessa R, De Hoff, Peter, Vuppala, Aishwarya, Vokonas, Pantel S, Litonjua, Augusto A, Sparrow, David, Parvez, Faruque, Laurent, Louise C, Schwartz, Joel, Baccarelli, Andrea A, and Wu, Haotian

Subjects
Genetics, Lung, Clinical Research, Prevention, Biotechnology, Respiratory, Good Health and Well Being, Humans, MicroRNAs, Lung Injury, Longitudinal Studies, Prospective Studies, Biomarkers, Extracellular Vesicles, extracellular vesicles, microRNAs, lung function, spirometry, Medical and Health Sciences, Respiratory System
Abstract

Rationale: Early detection of respiratory diseases is critical to facilitate delivery of disease-modifying interventions. Extracellular vesicle-enriched microRNAs (EV-miRNAs) may represent reliable markers of early lung injury. Objectives: Evaluate associations of plasma EV-miRNAs with lung function. Methods: The prospective NAS (Normative Aging Study) collected plasma EV-miRNA measurements from 1996-2015 and spirometry every 3-5 years through 2019. Associations of EV-miRNAs with baseline lung function were modeled using linear regression. To complement the individual miRNA approach, unsupervised machine learning was used to identify clusters of participants with distinct EV-miRNA profiles. Associations of EV-miRNA profiles with multivariate latent longitudinal lung function trajectories were modeled using log binomial regression. Biological functions of significant EV-miRNAs were explored using pathway analyses. Results were replicated in an independent sample of NAS participants and in the HEALS (Health Effects of Arsenic Longitudinal Study). Measurements and Main Results: In the main cohort of 656 participants, 51 plasma EV-miRNAs were associated with baseline lung function (false discovery rate-adjusted P value

Published
2023

6. Extracellular microRNA and cognitive function in a prospective cohort of older men: The Veterans Affairs Normative Aging Study

Author

Comfort, Nicole, Wu, Haotian, De Hoff, Peter, Vuppala, Aishwarya, Vokonas, Pantel S, Spiro, Avron, Weisskopf, Marc, Coull, Brent A, Laurent, Louise C, Baccarelli, Andrea A, and Schwartz, Joel

Subjects
Mental Health, Dementia, Neurosciences, Aging, Biotechnology, Alzheimer's Disease, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Brain Disorders, Neurodegenerative, Infectious Diseases, Acquired Cognitive Impairment, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Aged, Cognition, Cognitive Dysfunction, Cross-Sectional Studies, Fatty Acids, Humans, Male, MicroRNAs, Prospective Studies, Veterans, plasma, extracellular RNA, RNA-seq, microRNA, cognitive decline, cognitive impairment, Biochemistry and Cell Biology, Physiology, Oncology and Carcinogenesis, Developmental Biology
Abstract

BackgroundAging-related cognitive decline is an early symptom of Alzheimer's disease and other dementias, and on its own can have substantial consequences on an individual's ability to perform important everyday functions. Despite increasing interest in the potential roles of extracellular microRNAs (miRNAs) in central nervous system (CNS) pathologies, there has been little research on extracellular miRNAs in early stages of cognitive decline. We leverage the longitudinal Normative Aging Study (NAS) cohort to investigate associations between plasma miRNAs and cognitive function among cognitively normal men.MethodsThis study includes data from up to 530 NAS participants (median age: 71.0 years) collected from 1996 to 2013, with a total of 1,331 person-visits (equal to 2,471 years of follow up). Global cognitive function was assessed using the Mini-Mental State Examination (MMSE). Plasma miRNAs were profiled using small RNA sequencing. Associations of expression of 381 miRNAs with current cognitive function and rate of change in cognitive function were assessed using linear regression (N = 457) and linear mixed models (N = 530), respectively.ResultsIn adjusted models, levels of 2 plasma miRNAs were associated with higher MMSE scores (p < 0.05). Expression of 33 plasma miRNAs was associated with rate of change in MMSE scores over time (p < 0.05). Enriched KEGG pathways for miRNAs associated with concurrent MMSE and MMSE trajectory included Hippo signaling and extracellular matrix-receptor interactions. Gene targets of miRNAs associated with MMSE trajectory were additionally associated with prion diseases and fatty acid biosynthesis.ConclusionsCirculating miRNAs were associated with both cross-sectional cognitive function and rate of change in cognitive function among cognitively normal men. Further research is needed to elucidate the potential functions of these miRNAs in the CNS and investigate relationships with other neurological outcomes.

Published
2022

7. Blood DNA methylation biomarkers of cumulative lead exposure in adults.

Author

Colicino, Elena, Just, Allan, Kioumourtzoglou, Marianthi-Anna, Vokonas, Pantel, Cardenas, Andres, Sparrow, David, Weisskopf, Marc, Nie, Linda H, Hu, Howard, Schwartz, Joel D, Wright, Robert O, and Baccarelli, Andrea A

Subjects
DNA methylation, Epidemiology, Exposure Modeling, Metals, Methods, Personal exposure, Chemical Sciences, Environmental Sciences, Medical and Health Sciences
Abstract

BackgroundLead is a ubiquitous toxicant following three compartment kinetics with the longest half-life found in bones. Patella and tibia lead levels-validated measures of cumulative exposure-require specialized X-ray-fluorescence-spectroscopy available only in a few centers worldwide. We developed minimally invasive biomarkers reflecting individual cumulative lead exposure using blood DNA methylation profiles-obtainable via Illumina 450K or IlluminaEPIC bead-chip assays.MethodsWe developed and tested two methylation-based biomarkers from 348 Normative Aging Study (NAS) elderly men. We selected methylation sites with strong associations with bone lead levels via robust regressions analysis and constructed the biomarkers using elastic nets. Results were validated in a NAS subset, reporting specificity, and sensitivity.FindingsParticipants were 73 years old on average (standard deviation, SD = 6), with moderate lead levels of (mean ± SD patella: 27 ± 18 µg/g; tibia:21 ± 13 µg/g). Methylation-based biomarkers for lead in patella and tibia included 59 and 138 DNA methylation sites, respectively. Estimated lead levels were significantly correlated with actual measured values, (r = 0.62 patella, r = 0.59 tibia) and had low mean square error (MSE) (MSE = 0.68 patella, MSE = 0.53 tibia). Means and distributions of the estimated and actual lead levels were not significantly different across patella and tibia bones (p > 0.05). Methylation-based biomarkers discriminated participants highly exposed (>median) to lead with a specificity of 74 and 73% for patella and tibia lead levels, respectively, with 70% sensitivity.InterpretationDNA methylation-based lead biomarkers are novel tools that can be used to reconstruct decades' worth of individual cumulative lead exposure using only blood DNA methylation profiles and may help identify the consequences of cumulative exposure.

Published
2021

8. Increasing access to clinical research using an innovative mobile recruitment approach: The (MoRe) concept

Author

Beck, Danielle, Asghar, Aliya, Kenworthy-Heinige, Tawni, Johnson, Marcus R, Willis, Cyenthia, Kantorowicz, Alexandra S, Condon, Debra L, Huang, Grant D, Sites, the VA Cooperative Studies Program Network of Dedicated Enrollment, Keane, Terence M, Vokonas, Pantel S, Darroch, Dan, LePage, James, Compton, Jennifer, Leehey, David, McBurney, Conor, Keen, Stephanie, Kougias, Panagiotis, Perusich, Sarah, DeBakey, Michael E, Morgan, Timothy, Isip, Karyn, Adabag, Selcuk, Donaire, Marti, Johnson, Debra K, Suppes, Trisha, Bratcher, Karen, Roseman, Ann N, Raitt, Merritt, Clegg, Daniel, Romesser, Jennifer, Velarde, Kandi, Velarde, Cicilia, Nessler, Christina, Mudaliar, Sunder, Stein, Murray, and DeLue, Catherine

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Health Services, HIV/AIDS, Clinical Trials and Supportive Activities, Prevention, Clinical Research, Cancer, Good Health and Well Being, VA Cooperative Studies Program (CSP) Network of Dedicated Enrollment Sites, Access to research, Innovative enrollment strategies, Mobile recruitment, Recruitment barriers, Veteran research, Biomedical and clinical sciences
Abstract

BackgroundAccess to healthcare delivery programs and systems is a primary correlate to the overall health and well-being of Veterans and the general population. Participation in clinical research is a gateway to novel therapies that are intended to address current global health issues. Meeting or exceeding recruitment goals in clinical research is one of the key determinants of the timely and successful completion of a study. The travel and time burdens experienced by study participants are often considered barriers to their enrollment into clinical research. The Department of Veterans Affairs (VA) Cooperative Studies Program (CSP) established a consortium of nine VA medical centers (VAMCs) called the Network of Dedicated Enrollment Sites (NODES). The NODES program provides study site-level expertise and innovative approaches that address challenges to clinical research execution. In alignment with our mission, our program developed an approach to increase study participant access to clinical research through implementing "Mobile Recruitment (MoRe)" units. This manuscript describes the utility and challenges associated with employing this strategy to address three common barriers to clinical research participation: 1) research participant travel burden, 2) participant access to study opportunities, and 3) low participant enrollment.MethodsA plan to introduce the Mobile Recruitment (MoRe) unit as a recruitment strategy was piloted for a high-volume, observational cohort study and mega biobank in the VA health care system, the "Million Veteran Program (MVP)". MoRe is a recruitment strategy for CSP research integrating mobile technology and atypical research recruitment locations. Recruitment locations include primary or main VA hospitals and their assigned VA Community-Based Outpatient Clinics (CBOCs). Each Node site (n = 9) received components of the MoRe unit including a laptop, printer, portable cart with storage space, cooler/ice packs for specimen storage and transport. Each site's usage of these components varied based on its respective needs. Activities focused on both VA main facilities and CBOC facilities for recruitment.ResultsSeven of the nine Node sites compared the effectiveness of the MoRe unit on MVP study enrollment outcomes over three-time points: pre-intervention period, intervention period, and post-intervention period. The utilization of MoRe in the intervention period demonstrated a 36.9% increase in enrollment compared to the previous six months (pre-intervention period). There was a 2% enrollment increase at the six-month post-intervention period as compared to the intervention period. When comparing the pre-intervention period to the post-intervention period (duration of eighteen months), enrollment increased by 38.9%.ConclusionFive of the seven sites experienced an increase in enrollment during the intervention and post-intervention periods. The two sites without an increase in enrollment experienced various extenuating factors. Characteristics of sites using MoRe included the ability to utilize a smaller, unconventional space, i.e. not a traditional clinical research exam space for recruitment. MoRe was utilized in hospital laboratory space, CBOCs, primary care clinics, and other subspecialty clinics that allowed recruitment activities but did not have dedicated space to offer the research teams for that purpose. This initiative successfully demonstrated the benefit of deploying the unit, proving its utility in cases in where there was a lack of space or alternative workstations for research activities. The implementation of MoRe by NODES as a recruitment strategy for MVP may be transferable to other VA clinical research studies, as well as to other healthcare settings executing similar clinical research activities.

Published
2020

9. Blood Leukocyte DNA Methylation Predicts Risk of Future Myocardial Infarction and Coronary Heart Disease

Author

Agha, Golareh, Mendelson, Michael M, Ward-Caviness, Cavin K, Joehanes, Roby, Huan, TianXiao, Gondalia, Rahul, Salfati, Elias, Brody, Jennifer A, Fiorito, Giovanni, Bressler, Jan, Chen, Brian H, Ligthart, Symen, Guarrera, Simonetta, Colicino, Elena, Just, Allan C, Wahl, Simone, Gieger, Christian, Vandiver, Amy R, Tanaka, Toshiko, Hernandez, Dena G, Pilling, Luke C, Singleton, Andrew B, Sacerdote, Carlotta, Krogh, Vittorio, Panico, Salvatore, Tumino, Rosario, Li, Yun, Zhang, Guosheng, Stewart, James D, Floyd, James S, Wiggins, Kerri L, Rotter, Jerome I, Multhaup, Michael, Bakulski, Kelly, Horvath, Steven, Tsao, Philip S, Absher, Devin M, Vokonas, Pantel, Hirschhorn, Joel, Fallin, M Daniele, Liu, Chunyu, Bandinelli, Stefania, Boerwinkle, Eric, Dehghan, Abbas, Schwartz, Joel D, Psaty, Bruce M, Feinberg, Andrew P, Hou, Lifang, Ferrucci, Luigi, Sotoodehnia, Nona, Matullo, Giuseppe, Peters, Annette, Fornage, Myriam, Assimes, Themistocles L, Whitsel, Eric A, Levy, Daniel, and Baccarelli, Andrea A

Subjects
Epidemiology, Health Sciences, Heart Disease, Heart Disease - Coronary Heart Disease, Clinical Research, Atherosclerosis, Prevention, Aging, Genetics, Human Genome, Cardiovascular, 2.1 Biological and endogenous factors, Adult, Aged, Cohort Studies, Coronary Disease, CpG Islands, DNA Methylation, Europe, Female, Genome-Wide Association Study, Humans, Incidence, Leukocytes, Male, Middle Aged, Myocardial Infarction, Population Groups, Prognosis, Prospective Studies, Risk, United States, coronary artery disease, coronary heart disease, epigenetics, genomics, gene expression regulation, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Public Health and Health Services, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences, Sports science and exercise
Abstract

BackgroundDNA methylation is implicated in coronary heart disease (CHD), but current evidence is based on small, cross-sectional studies. We examined blood DNA methylation in relation to incident CHD across multiple prospective cohorts.MethodsNine population-based cohorts from the United States and Europe profiled epigenome-wide blood leukocyte DNA methylation using the Illumina Infinium 450k microarray, and prospectively ascertained CHD events including coronary insufficiency/unstable angina, recognized myocardial infarction, coronary revascularization, and coronary death. Cohorts conducted race-specific analyses adjusted for age, sex, smoking, education, body mass index, blood cell type proportions, and technical variables. We conducted fixed-effect meta-analyses across cohorts.ResultsAmong 11 461 individuals (mean age 64 years, 67% women, 35% African American) free of CHD at baseline, 1895 developed CHD during a mean follow-up of 11.2 years. Methylation levels at 52 CpG (cytosine-phosphate-guanine) sites were associated with incident CHD or myocardial infarction (false discovery rate

Published
2019

10. DNA Methylation Analysis Identifies Loci for Blood Pressure Regulation

Author

Richard, Melissa A, Huan, Tianxiao, Ligthart, Symen, Gondalia, Rahul, Jhun, Min A, Brody, Jennifer A, Irvin, Marguerite R, Marioni, Riccardo, Shen, Jincheng, Tsai, Pei-Chien, Montasser, May E, Jia, Yucheng, Syme, Catriona, Salfati, Elias L, Boerwinkle, Eric, Guan, Weihua, Mosley, Thomas H, Bressler, Jan, Morrison, Alanna C, Liu, Chunyu, Mendelson, Michael M, Uitterlinden, André G, van Meurs, Joyce B, Consortium, BIOS, Heijmans, Bastiaan T, Hoen, Peter AC ’t, van Meurs, Joyce, Isaacs, Aaron, Jansen, Rick, Franke, Lude, Boomsma, Dorret I, Pool, René, van Dongen, Jenny, Hottenga, Jouke J, van Greevenbroek, Marleen MJ, Stehouwer, Coen DA, van der Kallen, Carla JH, Schalkwijk, Casper G, Wijmenga, Cisca, Zhernakova, Alexandra, Tigchelaar, Ettje F, Slagboom, P Eline, Beekman, Marian, Deelen, Joris, van Heemst, Diana, Veldink, Jan H, van den Berg, Leonard H, van Duijn, Cornelia M, Hofman, Albert, Jhamai, P Mila, Verbiest, Michael, Suchiman, H Eka D, Verkerk, Marijn, van der Breggen, Ruud, van Rooij, Jeroen, Lakenberg, Nico, Mei, Hailiang, van Iterson, Maarten, van Galen, Michiel, Bot, Jan, van ’t Hof, Peter, Deelen, Patrick, Nooren, Irene, Moed, Matthijs, Vermaat, Martijn, Zhernakova, Dasha V, Luijk, René, Bonder, Marc Jan, van Dijk, Freerk, Arindrarto, Wibowo, Kielbasa, Szymon M, Swertz, Morris A, van Zwet, Erik W, Franco, Oscar H, Zhang, Guosheng, Li, Yun, Stewart, James D, Bis, Joshua C, Psaty, Bruce M, Chen, Yii-Der Ida, Kardia, Sharon LR, Zhao, Wei, Turner, Stephen T, Absher, Devin, Aslibekyan, Stella, Starr, John M, McRae, Allan F, Hou, Lifang, Just, Allan C, Schwartz, Joel D, Vokonas, Pantel S, Menni, Cristina, Spector, Tim D, Shuldiner, Alan, Damcott, Coleen M, Rotter, Jerome I, Palmas, Walter, Liu, Yongmei, and Paus, Tomáš

Subjects
Epidemiology, Biological Sciences, Health Sciences, Genetics, Hypertension, Human Genome, 2.1 Biological and endogenous factors, Cardiovascular, Aged, Blood Pressure, CpG Islands, Cross-Sectional Studies, DNA Methylation, Epigenesis, Genetic, Genetic Variation, Genome-Wide Association Study, Humans, Mendelian Randomization Analysis, Middle Aged, Nerve Tissue Proteins, Quantitative Trait Loci, Tetraspanins, BIOS Consortium, DNA methylation, Mendelian randomization, blood pressure, epigenome-wide association study, gene expression, sequence variation, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Genome-wide association studies have identified hundreds of genetic variants associated with blood pressure (BP), but sequence variation accounts for a small fraction of the phenotypic variance. Epigenetic changes may alter the expression of genes involved in BP regulation and explain part of the missing heritability. We therefore conducted a two-stage meta-analysis of the cross-sectional associations of systolic and diastolic BP with blood-derived genome-wide DNA methylation measured on the Infinium HumanMethylation450 BeadChip in 17,010 individuals of European, African American, and Hispanic ancestry. Of 31 discovery-stage cytosine-phosphate-guanine (CpG) dinucleotides, 13 replicated after Bonferroni correction (discovery: N = 9,828, p < 1.0 × 10-7; replication: N = 7,182, p  30%) and independent of known BP genetic variants, explaining an additional 1.4% and 2.0% of the interindividual variation in systolic and diastolic BP, respectively. Bidirectional Mendelian randomization among up to 4,513 individuals of European ancestry from 4 cohorts suggested that methylation at cg08035323 (TAF1B-YWHAQ) influences BP, while BP influences methylation at cg00533891 (ZMIZ1), cg00574958 (CPT1A), and cg02711608 (SLC1A5). Gene expression analyses further identified six genes (TSPAN2, SLC7A11, UNC93B1, CPT1A, PTMS, and LPCAT3) with evidence of triangular associations between methylation, gene expression, and BP. Additional integrative Mendelian randomization analyses of gene expression and DNA methylation suggested that the expression of TSPAN2 is a putative mediator of association between DNA methylation at cg23999170 and BP. These findings suggest that heritable DNA methylation plays a role in regulating BP independently of previously known genetic variants.

Published
2017

12. Empirical comparison of reduced representation bisulfite sequencing and Infinium BeadChip reproducibility and coverage of DNA methylation in humans

Author

Carmona, Juan J, Accomando, William P, Binder, Alexandra M, Hutchinson, John N, Pantano, Lorena, Izzi, Benedetta, Just, Allan C, Lin, Xihong, Schwartz, Joel, Vokonas, Pantel S, Amr, Sami S, Baccarelli, Andrea A, and Michels, Karin B

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Prevention, Medical biotechnology
Abstract

We empirically examined the strengths and weaknesses of two human genome-wide DNA methylation platforms: rapid multiplexed reduced representation bisulfite sequencing and Illumina's Infinium BeadChip. Rapid multiplexed reduced representation bisulfite sequencing required less input DNA, offered more flexibility in coverage, and interrogated more CpG loci at a higher regional density. The Infinium covered slightly more protein coding, cancer-associated and mitochondrial-related genes, both platforms covered all known imprinting clusters, and rapid multiplexed reduced representation bisulfite sequencing covered more microRNA genes than the HumanMethylation450, but fewer than the MethylationEPIC. Rapid multiplexed reduced representation bisulfite sequencing did not always interrogate exactly the same CpG loci, but genomic tiling improved overlap between different libraries. Reproducibility of rapid multiplexed reduced representation bisulfite sequencing and concordance between the platforms increased with CpG density. Only rapid multiplexed reduced representation bisulfite sequencing could genotype samples and measure allele-specific methylation, and we confirmed that Infinium measurements are influenced by nearby single-nucleotide polymorphisms. The respective strengths and weaknesses of these two genome-wide DNA methylation platforms need to be considered when conducting human epigenetic studies.

Published
2017

14. DNA methylation-based measures of biological age: meta-analysis predicting time to death

Author

Chen, Brian H, Marioni, Riccardo E, Colicino, Elena, Peters, Marjolein J, Ward-Caviness, Cavin K, Tsai, Pei-Chien, Roetker, Nicholas S, Just, Allan C, Demerath, Ellen W, Guan, Weihua, Bressler, Jan, Fornage, Myriam, Studenski, Stephanie, Vandiver, Amy R, Moore, Ann Zenobia, Tanaka, Toshiko, Kiel, Douglas P, Liang, Liming, Vokonas, Pantel, Schwartz, Joel, Lunetta, Kathryn L, Murabito, Joanne M, Bandinelli, Stefania, Hernandez, Dena G, Melzer, David, Nalls, Michael, Pilling, Luke C, Price, Timothy R, Singleton, Andrew B, Gieger, Christian, Holle, Rolf, Kretschmer, Anja, Kronenberg, Florian, Kunze, Sonja, Linseisen, Jakob, Meisinger, Christine, Rathmann, Wolfgang, Waldenberger, Melanie, Visscher, Peter M, Shah, Sonia, Wray, Naomi R, McRae, Allan F, Franco, Oscar H, Hofman, Albert, Uitterlinden, André G, Absher, Devin, Assimes, Themistocles, Levine, Morgan E, Lu, Ake T, Tsao, Philip S, Hou, Lifang, Manson, JoAnn E, Carty, Cara L, LaCroix, Andrea Z, Reiner, Alexander P, Spector, Tim D, Feinberg, Andrew P, Levy, Daniel, Baccarelli, Andrea, van Meurs, Joyce, Bell, Jordana T, Peters, Annette, Deary, Ian J, Pankow, James S, Ferrucci, Luigi, and Horvath, Steve

Subjects
Biological Sciences, Genetics, Clinical Research, Prevention, Good Health and Well Being, Aging, DNA Methylation, Epigenesis, Genetic, Female, Humans, Logistic Models, Male, Mortality, Racial Groups, Risk Factors, Survival Analysis, T-Lymphocyte Subsets, all-cause mortality, lifespan, epigenetics, epigenetic clock, DNA methylation, mortality, Biochemistry and cell biology, Clinical sciences
Abstract

Estimates of biological age based on DNA methylation patterns, often referred to as "epigenetic age", "DNAm age", have been shown to be robust biomarkers of age in humans. We previously demonstrated that independent of chronological age, epigenetic age assessed in blood predicted all-cause mortality in four human cohorts. Here, we expanded our original observation to 13 different cohorts for a total sample size of 13,089 individuals, including three racial/ethnic groups. In addition, we examined whether incorporating information on blood cell composition into the epigenetic age metrics improves their predictive power for mortality. All considered measures of epigenetic age acceleration were predictive of mortality (p≤8.2x10-9), independent of chronological age, even after adjusting for additional risk factors (p

Published
2016

15. DNAm-based signatures of accelerated aging and mortality in blood are associated with low renal function

Author

Matías-García, Pamela R., Ward-Caviness, Cavin K., Raffield, Laura M., Gao, Xu, Zhang, Yan, Wilson, Rory, Gào, Xīn, Nano, Jana, Bostom, Andrew, Colicino, Elena, Correa, Adolfo, Coull, Brent, Eaton, Charles, Hou, Lifang, Just, Allan C., Kunze, Sonja, Lange, Leslie, Lange, Ethan, Lin, Xihong, Liu, Simin, Nwanaji-Enwerem, Jamaji C., Reiner, Alex, Shen, Jincheng, Schöttker, Ben, Vokonas, Pantel, Zheng, Yinan, Young, Bessie, Schwartz, Joel, Horvath, Steve, Lu, Ake, Whitsel, Eric A., Koenig, Wolfgang, Adamski, Jerzy, Winkelmann, Juliane, Brenner, Hermann, Baccarelli, Andrea A., Gieger, Christian, Peters, Annette, Franceschini, Nora, and Waldenberger, Melanie

Published
2021
Full Text
View/download PDF

17. Testing departure from additivity in Tukey's model using shrinkage: application to a longitudinal setting

Author

Ko, Yi‐An, Mukherjee, Bhramar, Smith, Jennifer A, Park, Sung Kyun, Kardia, Sharon LR, Allison, Matthew A, Vokonas, Pantel S, Chen, Jinbo, and Diez‐Roux, Ana V

Subjects
Aged, Aged, 80 and over, Aging, Atherosclerosis, Bone and Bones, Computer Simulation, Environmental Exposure, Ethnicity, Female, Gene-Environment Interaction, Humans, Iron, Lead, Least-Squares Analysis, Likelihood Functions, Longitudinal Studies, Male, Middle Aged, Models, Genetic, United States, United States Department of Veterans Affairs, adaptive shrinkage estimation, gene-environment interaction, longitudinal data, Tukey's one-DF test for non-additivity, Ethnic Groups, Statistics, Public Health and Health Services, Statistics & Probability
Abstract

While there has been extensive research developing gene-environment interaction (GEI) methods in case-control studies, little attention has been given to sparse and efficient modeling of GEI in longitudinal studies. In a two-way table for GEI with rows and columns as categorical variables, a conventional saturated interaction model involves estimation of a specific parameter for each cell, with constraints ensuring identifiability. The estimates are unbiased but are potentially inefficient because the number of parameters to be estimated can grow quickly with increasing categories of row/column factors. On the other hand, Tukey's one-degree-of-freedom model for non-additivity treats the interaction term as a scaled product of row and column main effects. Because of the parsimonious form of interaction, the interaction estimate leads to enhanced efficiency, and the corresponding test could lead to increased power. Unfortunately, Tukey's model gives biased estimates and low power if the model is misspecified. When screening multiple GEIs where each genetic and environmental marker may exhibit a distinct interaction pattern, a robust estimator for interaction is important for GEI detection. We propose a shrinkage estimator for interaction effects that combines estimates from both Tukey's and saturated interaction models and use the corresponding Wald test for testing interaction in a longitudinal setting. The proposed estimator is robust to misspecification of interaction structure. We illustrate the proposed methods using two longitudinal studies-the Normative Aging Study and the Multi-ethnic Study of Atherosclerosis.

Published
2014

19. Meta-analysis of epigenome-wide association studies of cognitive abilities

Author

Marioni, Riccardo E., McRae, Allan F., Bressler, Jan, Colicino, Elena, Hannon, Eilis, Li, Shuo, Prada, Diddier, Smith, Jennifer A, Trevisi, Letizia, Tsai, Pei-Chien, Vojinovic, Dina, Simino, Jeannette, Levy, Daniel, Liu, Chunyu, Mendelson, Michael, Satizabal, Claudia L., Yang, Qiong, Jhun, Min A., Kardia, Sharon L. R., Zhao, Wei, Bandinelli, Stefania, Ferrucci, Luigi, Hernandez, Dena G., Singleton, Andrew B., Harris, Sarah E., Starr, John M., Kiel, Douglas P., McLean, Robert R., Just, Allan C., Schwartz, Joel, Spiro, III, Avron, Vokonas, Pantel, Amin, Najaf, Ikram, M. Arfan, Uitterlinden, Andre G., van Meurs, Joyce B. J., Spector, Tim D., Steves, Claire, Baccarelli, Andrea A., Bell, Jordana T., van Duijn, Cornelia M., Fornage, Myriam, Hsu, Yi-Hsiang, Mill, Jonathan, Mosley, Thomas H., Seshadri, Sudha, and Deary, Ian J.

Published
2018
Full Text
View/download PDF

23. Analysis of repeated leukocyte DNA methylation assessments reveals persistent epigenetic alterations after an incident myocardial infarction

Author

Ward-Caviness, Cavin K., Agha, Golareh, Chen, Brian H., Pfeiffer, Liliane, Wilson, Rory, Wolf, Petra, Gieger, Christian, Schwartz, Joel, Vokonas, Pantel S., Hou, Lifang, Just, Allan C., Bandinelli, Stefania, Hernandez, Dena G., Singleton, Andrew B., Prokisch, Holger, Meitinger, Thomas, Kastenmüller, Gabi, Ferrucci, Luigi, Baccarelli, Andrea A., Waldenberger, Melanie, and Peters, Annette

Published
2018
Full Text
View/download PDF

30. DunedinPACE: A DNA methylation biomarker of the Pace of Aging

Author

Belsky, DW, primary, Caspi, A, additional, Corcoran, DL, additional, Sugden, K, additional, Poulton, R, additional, Arseneault, L, additional, Baccarelli, A, additional, Chamarti, K, additional, Gao, X, additional, Hannon, E, additional, Harrington, HL, additional, Houts, R, additional, Kothari, M, additional, Kwon, D, additional, Mill, J, additional, Schwartz, J, additional, Vokonas, P, additional, Wang, C, additional, Williams, B, additional, and Moffitt, TE, additional

Published
2021
Full Text
View/download PDF

37. The Relationship between Rate and Volume of Intravenous Fluid Administration and Kidney Outcomes after Angiography

Author

Soomro, Qandeel H., Anand, Sonia T., Weisbord, Steven D., Gallagher, Martin P., Ferguson, Ryan E., Palevsky, Paul M., Bhatt, Deepak L., Parikh, Chirag R., Kaufman, James S., Brophy, Mary, Chertow, Glenn, Conner, Todd, Ferguson, Ryan, Fine, M., Kaufman, James, Lew, Robert, McCullough, Peter, Palevsky, Paul, Parikh, Chirag, Ringer, Robert, Shunk, Kendrick, Soliva, Susan, Weisbord, Steven, Bhatt, Deepak, Cass, Alan, Gallagher, Martin, McFalls, Edward, Pirakh, Chirag, Wu, Hongsheng, Ratliff, Michelle, Ketteler, Erika, Goff, James, Snider, Richard, Jones, Debra, Kreuch, Jeannie, Duvernoy, Claire, Thomas, Michael, Willatt, Jonathan, Gurm, Hitinder, Krishnamurthy, Venkat, Nallamothu, Brahmajee, Szymanski, Kendra, Grossman, P. Michael, Menees, Daniel, Rose, Patricia, Mavromatis, Kreton, Kumar, Gautam, Raghavan, Sumati, Dow, Jeanne, Mandawat, Mahendra, Noe, Susan, Alavi, Hossain, Calkins, Joe, McNear, Jennifer, Beals, Donald, Cavalieri, Stuart, Sierzega, Renata, Pearson, Laura, Afaq, Mazhar, Vaitkus, Paul, Kudryk, Bruce, Hall, Dennis, Nadella, Neelima, Corin, William, Woklu, Nina, Inting-Toothman, Stella, Wescott, Lea, Ventura, Nicole, Kinlay, Scott, Croce, Kevin, Faxon, David, Vokonas, Pantel, Raffetto, Joseph, McPhee, James, Gupta, Naren, Nava, Adrianna, Ly, Samantha, My-Do, Jacquelyn, Ostrowski, Simon, Bundy, Mariah, Quinn, Margot, Chin, Melissa, Corbelli, John, Dosluoglu, Hasan, Lohr, James, Rivero, Mariel, Cooke, Beth, Galla, Ann, Cloen, Denise, Fernandes, Valerian, DiBona, Alexander, Nielsen, Christopher, Idleman, Lois, Lee, Bertha, Vidovich, Mladen, Kibbe, Melina, Griza, Decebal, Raicu, Mihai, Rothenberg, Florence, Thakar, Charuhas, Madabhushi, Aditi, Arif, Imran, Bath, Jonathan, Helmy, Tarek, Unterbrink, Kendra, Ross, Stephanie, Bailey, Cathy, Hailes, Myrtle, Goldberg, Jonathan, Jozic, Joseph, Kang, Preet, Kalman, Jeaniene, Rosenthal, Noah, Catania, Deborah, Marlow, Jeanne, Kumaran, Vinay, Krupka, Angela, Zappernick, Taissa, Brilakis, Emmanouil, Tsai, Shirling, Banerjee, Subhash, Modrall, J. Gregory, Roesle, Michele, Hamilton, Marcie, Lusk, Cassie, Compton, Jennifer, Willis, Cyenthia, Atwell, Amy, Soto-Gonzalez, Marilisa, Agarwal, Ajay, Saklayen, Mohammad, Woerner, Donna, Ross, Jeffrey, Turner, Karen, Zheng-Phelan, Ling, Rider, Kamia, Rao, Sunil, Jones, W. Schuyler, Povsic, Thomas, Krucoff, Mitchell, Brennan, James, Miller, Michael, Mureebe, Leila, Aristy, Kathy, Powell, Marilyn, Bavry, Anthony, Choi, Calvin, Park, Ki, Curry, Tempa, Robertson, Debra, Wright, Cila, Jneid, Hani, Paniagua, David, Denktas, Ali, Lara-Smalling, Agueda, Palmer, Leah, Malarchick, Jo Ann, Broussard, Emily, Bolad, Islam, Breall, Jeffrey, Motaganahalli, Raghunandan, English, Beth, Ramkaransingh, Jeffrey, Mukerji, Rita, Subbarao, Roopa, Williams, Vicki, Henson, Sharon, Krier, Connie, Parashara, Deepak, Ciniglio, Ricardo, Barua, Rajat, Roys, Michael, Surineni, Kamalakar, Mendes, Kimberley, Oni, Olurinde, Uretsky, Barry, Ahmed, Zubair, Yousaf, Muhammad, Hakeem, Abdul, Chung, Hui Yong, Miller, Kristin, Dishongh, Katherine, Ramanathan, Kodangudi, Shah, Rahman, McGee, Jesse, Qualls, Zoe, Armstrong, Ashley, Johnson, Lillie, Garcia, Santiago, Adabag, Selcuk, Vakil, Kairav, Nguyen, Jennifer, Berg, Matthew, Herrmann, Rebekah, Condon, Debra, Meyeraan, Tacy, Sedlis, Steven, Lorin, Jeffrey, Keary, Mary, Shah, Binita, Maranan, Leandro, Latif, Faisal, Thadani, Udho, Abu-Fadel, Mazen, Exaire, Jose, Rousan, Talla, Ramirez-Jimenez, Arleen, Pham, Trang, Giacomini, John, Lit, Yiming, Massaband, Payam, Yong, Celina, Fearon, William, Zhou, Wei, Aalami, Oliver, Peters, Theresa, Bratcher, Karen, Monteverde, Edgardo, Rahman, Aref, Bandi, Rupal, Garbelotti, Kelly, Mulukutla, Suresh, Overberger, Pamela, Watnick, Suzanne, Davies, Crispin, Larsen, Greg, Atkinson, Tamara, Walczyk, Jacqueline, Kenworthy-Heinige, Tawni, Guenther, Stephanie, Pitts, Alexandra, Jovin, Ion, Minisi, Anthony, Sumption, Kevin, Feldman, George, Ha, Jonathan, Hendrix, Mack, Maldonado, Maureen, Jeter, Deborah, Klein, Andrew, Forsberg, Michael, Rowe, Caroline, Nasir, Ammar, Mani, Kartik, Vercher, Paul, Waidmann, Kristi, Vargo, Kristin, Chilakapati, Venkata, Jarmukli, Nabil, Tan, Shen-Li, Sherigar, Rathnakara, Bottomley, Sharon, Capuno, Maribeth, Henley, Katherine, Dev, Devasmita, Mathew, Jacob, Ochalek, Tracy, Lui, Charles, Smith, Brigham, Huo, Eugene, Frodsham, Aaron, Eskelson, Noni, Velarde, Kandi, Dulin, Heather, Martinez, Lillian, Zimmet, Jeffrey, Sawhney, Rajiv, Malik, Fady, Chou, Tony, Huynh, Cynthia, Stanley, Kathleen, Garcia, Epifanio, Lehmann, Kenneth, Stadius, Michael, Beatty, Alexis, Naria, Sohilkumar, Galvin, Georgia, Chilton, Robert, Pham, Son, Oliveros, Rene, Hecht, Joan, Thai, Hoang, Truong, Huu Tam, Goldman, Steven, Thal, Sergio, Juneman, Elizabeth, Kapoor, Divya, Tsuda, Ryan, Kipps, Juliana, Mikhail, Amani, Sandoval, Michael, Currier, Jesse, Lee, Hsin-Yi, Chang, Donald, Walsworth, Matthew, Warner, Alberta, Chen, Alice, Lendvai, Dora, Johnson, Janet, Lee, Joanne, Coggan, Sarah, Kumar, Namrata Nath, Dempsey, Erika, Kotwal, Sradha, Smyth, Brendan, Yianni, Alexia, Lee, Li Hui, Cheong, Siew Yan, Yates, Casey, James, Earl, Talaulikar, Girish, Farshid, Ahmad, Johnson, Patricia, Taverner, Pearle, Chadwick, Heather, Stewart, Ralph, Benatar, Jocelyne, Stone, Louise, Howell, Leah, Anderson, Sue, Lehnhard, Siobhan, Patten, Cathrine, Farouque, Omar, Bellomo, Rinaldo, Horrigan, Mark, Scott, Peter, Jones, Nicolas, Yudi, Matias, Huq, Rafi, Al-Fiadh, Ali, Brown, Louise, Brieger, David, Hillis, Graham, Cherry, Jonathan, Aitken, Sarah, Anastasius, Malcom, Lau, Jerrett, Lowe, Harry, Ayoub, Chadi, Jardine, Meg, O?Connor, Jody, Wong, Christopher, Wu, June, Xu, Kitty, Webster, Julie, Mwaijele, Liliang, Hand, Samantha, Chew, Derek, Alyward, Philip, Balakrishnan, Deepu, Prakash, Roshan, Pathik, Bhupesh, Kinatra, Vineet, Jones, Dylan, Singh, Arun, Ratib, Karim, Hammad, Nassser Al, Gunton, James, Mazhar, Jawad, Musameh, Muntaser, O?Shea, Catherine, Judd, Jo, Raman, Betty, Wollaston, Fiona, Felice, Kerri Ann, Hincks, Christine, Harrison, Timothy, Fawcett, Malcolm, Wright, Therese, Horsfall, Lee-Anne, Kissajukian, Francis, Murphy, Diedre, Bartlett, Pamela, Stockle, Paul, William, Maged, Elsokkari, Ihab, Rangasamy, Karthikeyan, Roy, Probal, Tran, David, Hayat, Muhammed Umair, May, Austin, Nyakudarika, Elijah, Phang, Calvin, Conway, Bets, O?Donoghue, Michelle, Ellis, Katrina, Kanna, Rajesh, Hendriks, Randall, Forrest, Nicole, Tulloch, Gill, Greenwell, Della, Ghapar, Abd Kahar, Ghani, Abdul Raqib Abd, Sundaralingam, Shamini, Fuah, K., Habizal, Nor Halwani, Daud, Siti Rohaya, Haq, Hafsah Begum binti Abdul, Mohammad, Masliza Binti, Hassan, Faizah Che, Hashim, Hanani, Ismail, Omar, Kong, Poi Keong, Ma, Soot Keng, Wahab, Mohamed Jahangir Abdul, Abdulla, Zarina Banu, Kader, Mohamad Ali Sheikh Abdul, Goh, Chong Aik, Ahmadsha, Shahul Hamid, Naser, Mohamad Nazrulhisham Mad, Yusuf, Azizah, Govindasamy, Paramesveri, Ibrahim, Nur Azliati Binti, Yahaya, Normilah, Juergens, Craig, French, John, Mussap, C., Lo, Sidney, Burgess, S., Mallard, Trevor, Huang, Justin, Kumar, Manish, Lee, Adam, Leung, Dominic, Badie, Tamar, Xu, James, Terluk, Andrew, Croucher, Alexandria, O?Brien, Kelsey, Raynes, Suzanne, Plotz, Maria, Hallani, Hisham, Fernandes, Clyne, Fitzpatrick, Drew, Parikh, Devang, Coulshed, David, Pathan, Faraz, Ganda, Prashil, Chandrala, Pavan, Barry, Lisa, Mackenzie, Michele, VanGaal, William, Hyat, Umair, Tsay, It Men, Subiakto, Ivan, Cresp, Damian, Nelson, Gregory, Mau, James, Shaw, Elizabeth, Yan, Warren, Arena, Frank, Danson, Edward, Vernon, S., Ward, Michael, Allahwala, U., Reid, Emma, Straiton, Nicola, Whitley, Alexandra, Loxton, Annie, Erickson, Royal Perth Hospital: Matthew, Ihdayid, Abdul-Rhman, Dias, Peter, Atique, Syed, Bonner, Michelle, Venn-Edmonds, Clare, Prasan, Ananth, Sader, Mark, Ramsay, David, Ford, Tom, Weaver, James, Binnekamp, Maurits, Barrett, David, Roy, James, Ng, Ben, Youssef, George, Shrestha, Prakriti, Vrachas, Deborah, Dobinson, Kate, Ternouth, Ian, Lumb, Nicky, Sebastian, Jeffrey, Jackson, Carolyn, Vickers, Cathy, Prideaux, Jan, Ahmad, Wan Azman Wan, Abidin, Imran Zainal, Zuhdi, Ahmad Syadi Mahmood, Ismail, Muhammad Dzafir, Sridhar, Ganiga Srinivasaiah, Lim, Soo Kun, Hadi, Moud Firdaus, Adnan, Wan Ahmad Hafiz Wan Md, Kassim, Zainab Abu, Mansor, Syed Mukhtar Syed, Lee, Vin-Zhen, Harding, Scott, Ranchord, Anil, Matsis, Philip, Aitken, Andrew, Simmonds, Mark Bernard, Fairley, Sarah, Wolbinski, Mariusz, Plunkett, Susan, Sinan, Ali Al, Ferrier, Katherine, O?Meeghan, Tim, Wilkins, Ben, Anscomise, Russell, Sasse, Alexander, Kirby, Alyssa, Ershad, Shakiya, Smyth, Duncan, Lim, Ren Yik, Middleditch, Diane, and Davies, Bronwyn

Published
2022
Full Text
View/download PDF

38. Socioeconomic position, lifestyle habits and biomarkers of epigenetic aging: a multi-cohort analysis

Author

Fiorito, G., Mccrory, C., Robinson, O., Carmeli, C., Rosales, C. O., Zhang, Y., Colicino, E., Dugue, P. -A., Artaud, F., Mckay, G. J., Jeong, A., Mishra, P. P., Nost, T. H., Krogh, V., Panico, S., Sacerdote, C., Tumino, R., Palli, D., Matullo, G., Guarrera, S., Gandini, M., Bochud, M., Dermitzakis, E., Muka, T., Schwartz, J., Vokonas, P. S., Just, A., Hodge, A. M., Giles, G. G., Southey, M. C., Hurme, M. A., Young, I., Mcknight, A. J., Kunze, S., Waldenberger, M., Peters, A., Schwettmann, L., Lund, E., Baccarelli, A., Milne, R. L., Kenny, R. A., Elbaz, A., Brenner, H., Kee, F., Voortman, T., Probst-Hensch, N., Lehtimaki, T., Elliot, P., Stringhini, S., Vineis, P., Polidoro, S., Alberts, J., Alenius, H., Avendano, M., Baltar, V., Bartley, M., Barros, H., Bellone, M., Berger, E., Blane, D., Candiani, G., Carra, L., Castagne, R., Chadeau-Hyam, M., Cima, S., Clavel-Chapelon, F., Costa, G., Courtin, E., Delpierre, C., D'Errico, A., Dermitzakis, M., Elovainio, M., Elliott, P., Fagherazzi, G., Fraga, S., Gares, V., Gerbouin-Rerolle, P., Giles, G., Goldberg, M., Greco, D., Guessous, I., Haba-Rubio, J., Heinzer, R., Hodge, A., Joost, S., Karimi, M., Kelly-Irving, M., Kahonen, M., Karisola, P., Khenissi, L., Kivimaki, M., Laine, J., Lang, T., Laurent, A., Layte, R., Lepage, B., Lorsch, D., Macguire, F., Machell, G., Mackenbach, J., Marmot, M., de Mestral, C., Miller, C., Milne, R., Muennig, P., Nusselder, W., Petrovic, D., Pilapil, L., Preisig, M., Pulkki-Raback, L., Raitakari, O., Ribeiro, A. I., Ricceri, F., Recalcati, P., Reinhard, E., Valverde, J. R., Saba, S., Santegoets, F., Satolli, R., Simmons, T., Severi, G., Shipley, M. J., Tabak, A., Terhi, V., Tieulent, J., Vaccarella, S., Vigna-Taglianti, F., Vollenweider, P., Vuilleumier, N., Zins, M., Medical Research Council (MRC), Commission of the European Communities, BIOS Consortium, Lifepath consortium, Epidemiology, Dermitzakis, Emmanouil, and Stringhini, Silvia

Subjects
Male, Aging, Geriatrics & Gerontology, Disease, epigenetic clocks, Bioinformatics, 0601 Biochemistry and Cell Biology, DISEASE, Epigenesis, Genetic, Cohort Studies, 0302 clinical medicine, Risk Factors, DNA METHYLATION, media_common, 0303 health sciences, education, Lifepath consortium, VDP::Medisinske Fag: 700::Helsefag: 800::Samfunnsmedisin, sosialmedisin: 801, CARDIOVASCULAR RISK, Aged, Aging/genetics, Aging/psychology, DNA Methylation, Educational Status, Female, Humans, Life Style, Mutation, Social Class, biological aging, socioeconomic position, Longevity, ASSOCIATION, Biological aging, Education, Epigenetic clocks, Socioeconomic position, 3. Good health, WIDE METHYLATION, Aging/genetics/psychology, DNA methylation, Biomarker (medicine), HEALTH, BIOS Consortium, Life Sciences & Biomedicine, Research Paper, Cohort study, VDP::Medisinske Fag: 700::Basale medisinske, odontologiske og veterinærmedisinske fag: 710::Medisinsk genetikk: 714, media_common.quotation_subject, CANCER-RISK, 610 Medicine & health, VDP::Medical disciplines: 700::Basic medical, dental and veterinary science disciplines: 710::Medical genetics: 714, Biology, PERIPHERAL-BLOOD, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Genetic, 360 Social problems & social services, 1112 Oncology and Carcinogenesis, Epigenetics, ddc:613, 030304 developmental biology, Science & Technology, Mechanism (biology), MUTATIONS, dNaM, Socioeconomic Position, Biological Aging, Epigenetic Clocks, Cell Biology, 0606 Physiology, DRIFT, VDP::Medical disciplines: 700::Health sciences: 800::Community medicine, Social medicine: 801, 030217 neurology & neurosurgery, Epigenesis
Abstract

Source at https://doi.org/10.18632/aging.101900. Differences in health status by socioeconomic position (SEP) tend to be more evident at older ages, suggesting the involvement of a biological mechanism responsive to the accumulation of deleterious exposures across the lifespan. DNA methylation (DNAm) has been proposed as a biomarker of biological aging that conserves memory of endogenous and exogenous stress during life. We examined the association of education level, as an indicator of SEP, and lifestyle-related variables with four biomarkers of age-dependent DNAm dysregulation: the total number of stochastic epigenetic mutations (SEMs) and three epigenetic clocks (Horvath, Hannum and Levine), in 18 cohorts spanning 12 countries. The four biological aging biomarkers were associated with education and different sets of risk factors independently, and the magnitude of the effects differed depending on the biomarker and the predictor. On average, the effect of low education on epigenetic aging was comparable with those of other lifestyle-related risk factors (obesity, alcohol intake), with the exception of smoking, which had a significantly stronger effect. Our study shows that low education is an independent predictor of accelerated biological (epigenetic) aging and that epigenetic clocks appear to be good candidates for disentangling the biological pathways underlying social inequalities in healthy aging and longevity.

Published
2019
Full Text
View/download PDF

41. Metabolomic differences in lung function metrics: evidence from two cohorts

Author

Kelly, Rachel S., Stewart, Isobel D., Bayne, Haley, Kachroo, Priyadarshini, Spiro, Avron, Vokonas, Pantel, Sparrow, David, Weiss, Scott T., Knihtila¨, Hanna M., Litonjua, Augusto A., Wareham, Nicholas J., Langenberg, Claudia, and Lasky-Su, Jessica A.

Abstract

RationaleThe biochemical mechanisms underlying lung function are incompletely understood.ObjectivesTo identify and validate the plasma metabolome of lung function using two independent adult cohorts: discovery—the European Prospective Investigation into Cancer–Norfolk (EPIC-Norfolk, n=10 460) and validation—the VA Normative Aging Study (NAS) metabolomic cohort (n=437).MethodsWe ran linear regression models for 693 metabolites to identify associations with forced expiratory volume in one second (FEV1) and the ratio of FEV1to forced vital capacity (FEV1/FVC), in EPIC-Norfolk then validated significant findings in NAS. Significance in EPIC-Norfolk was denoted using an effective number of tests threshold of 95%; a metabolite was considered validated in NAS if the direction of effect was consistent and p<0.05.Measurements and main resultsOf 156 metabolites that associated with FEV1in EPIC-Norfolk after adjustment for age, sex, body mass index, height, smoking and asthma status, 34 (21.8%) validated in NAS, including several metabolites involved in oxidative stress. When restricting the discovery sample to men only, a similar percentage, 18 of 79 significant metabolites (22.8%) were validated. A smaller number of metabolites were validated for FEV1/FVC, 6 of 65 (9.2%) when including all EPIC-Norfolk as the discovery population, and 2 of 34 (5.9%) when restricting to men. These metabolites were characterised by involvement in respiratory track secretants. Interestingly, no metabolites were validated for both FEV1and FEV1/FVC.ConclusionsThe validation of metabolites associated with respiratory function can help to better understand mechanisms of lung health and may assist the development of biomarkers.

Published
2022
Full Text
View/download PDF

42. A DNA methylation biomarker of alcohol consumption

Author

Liu, C, Marioni, R E, Hedman, Åsa K, Pfeiffer, L, Tsai, P-C, Reynolds, L M, Just, A C, Duan, Q, Boer, C G, Tanaka, T, Elks, C E, Aslibekyan, S, Brody, J A, Kühnel, B, Herder, C, Almli, L M, Zhi, D, Wang, Y, Huan, T, Yao, C, Mendelson, M M, Joehanes, R, Liang, L, Love, S-A, Guan, W, Shah, S, McRae, A F, Kretschmer, A, Prokisch, H, Strauch, K, Peters, A, Visscher, P M, Wray, N R, Guo, X, Wiggins, K L, Smith, A K, Binder, E B, Ressler, K J, Irvin, M R, Absher, D M, Hernandez, D, Ferrucci, L, Bandinelli, S, Lohman, K, Ding, J, Trevisi, L, Gustafsson, Stefan, Sandling, Johanna K., Stolk, L, Uitterlinden, A G, Yet, I, Castillo-Fernandez, J E, Spector, T D, Schwartz, J D, Vokonas, P, Lind, Lars, Li, Y, Fornage, M, Arnett, D K, Wareham, N J, Sotoodehnia, N, Ong, K K, van Meurs, J B J, Conneely, K N, Baccarelli, A A, Deary, I J, Bell, J T, North, K E, Liu, Y, Waldenberger, M, London, S J, Ingelsson, Erik, Levy, D, Wareham, Nicholas [0000-0003-1422-2993], Ong, Kenneth [0000-0003-4689-7530], Apollo - University of Cambridge Repository, Erasmus MC other, Internal Medicine, and Epidemiology

Subjects
Adult, Male, Alcohol Drinking, Ethanol, Black People, DNA Methylation, Middle Aged, White People, Epigenesis, Genetic, Annan medicinsk grundvetenskap, Genetics, Humans, CpG Islands, Female, Other Basic Medicine, Alcohol-Related Disorders, Biomarkers, Aged, Genome-Wide Association Study
Abstract

The lack of reliable measures of alcohol intake is a major obstacle to the diagnosis and treatment of alcohol-related diseases. Epigenetic modifications such as DNA methylation may provide novel biomarkers of alcohol use. To examine this possibility, we performed an epigenome-wide association study of methylation of cytosine-phosphate-guanine dinucleotide (CpG) sites in relation to alcohol intake in 13 population-based cohorts (ntotal=13 317; 54% women; mean age across cohorts 42-76 years) using whole blood (9643 European and 2423 African ancestries) or monocyte-derived DNA (588 European, 263 African and 400 Hispanic ancestry) samples. We performed meta-analysis and variable selection in whole-blood samples of people of European ancestry (n=6926) and identified 144 CpGs that provided substantial discrimination (area under the curve=0.90-0.99) for current heavy alcohol intake (⩾42 g per day in men and ⩾28 g per day in women) in four replication cohorts. The ancestry-stratified meta-analysis in whole blood identified 328 (9643 European ancestry samples) and 165 (2423 African ancestry samples) alcohol-related CpGs at Bonferroni-adjusted PDe tio första författarna delar på förstaförfattarskapet. De sex sista författarna delar på sistaförfattarskapet.

Published
2018
Full Text
View/download PDF

43. The Role of Ambient Particle Radioactivity in Inflammation and Endothelial Function in an Elderly Cohort.

Author

Blomberg, Annelise J., Nyhan, Marguerite M., Bind, Marie-Abèle, Vokonas, Pantel, Coull, Brent A., Schwartz, Joel, and Koutrakis, Petros

Abstract

Background: The mechanisms by which exposure to particulate matter might increase risk of cardiovascular morbidity and mortality are not fully known. However, few existing studies have investigated the potential role of particle radioactivity. Naturally occurring radionuclides attach to particulate matter and continue to release ionizing radiation after inhalation and deposition in the lungs. We hypothesize that exposure to particle radioactivity increases biomarkers of inflammation.Methods: Our repeated-measures study included 752 men in the greater Boston area. We estimated regional particle radioactivity as a daily spatial average of gross beta concentrations from five monitors in the study area. We used linear mixed-effects regression models to estimate short- and medium-term associations between particle radioactivity and biomarkers of inflammation and endothelial dysfunction, with and without adjustment for additional particulate air pollutants.Results: We observed associations between particle radioactivity on C-reactive protein (CRP), intercellular adhesion molecule-1 (ICAM-1), and vascular cell adhesion molecule-1 (VCAM-1), but no associations with fibrinogen. An interquartile range width increase in mean 7-day particle radioactivity (1.2 × 10 Bq/m) was associated with a 4.9% increase in CRP (95% CI = 0.077, 9.9), a 2.8% increase in ICAM-1 (95% CI = 1.4, 4.2), and a 4.3% increase in VCAM-1 (95% CI = 2.5, 6.1). The main effects of particle radioactivity remained similar after adjustment in most cases. We also obtained similar effect estimates in a sensitivity analysis applying a robust causal model.Conclusion: Regional particle radioactivity is positively associated with inflammatory biomarkers, indicating a potential pathway for radiation-induced cardiovascular effects. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

44. Association of methylation signals with incident coronary heart disease in an epigenome-wide assessment of circulating tumor necrosis factor α

Author

Aslibekyan, S. (Stella), Agha, G. (Golareh), Colicino, E. (Elena), Do, A. N. (Anh N.), Lahti, J. (Jari), Ligthart, S. (Symen), Marioni, R. E. (Riccardo E.), Marzi, C. (Carola), Mendelson, M. M. (Michael M.), Tanaka, T. (Toshiko), Wielscher, M. (Matthias), Absher, D. M. (Devin M.), Ferrucci, L. (Luigi), Franco, O. H. (Oscar H.), Gieger, C. (Christian), Grallert, H. (Harald), Hernandez, D. (Dena), Huan, T. (Tianxiao), Iurato, S. (Stella), Joehanes, R. (Roby), Just, A. C. (Allan C.), Kunze, S. (Sonja), Lin, H. (Honghuang), Liu, C. (Chunyu), Meigs, J. B. (James B.), van Meurs, J. B. (Joyce B.J.), Moore, A. Z. (Ann Zenobia), Peters, A. (Annette), Prokisch, H. (Holger), Räikkönen, K. (Katri), Rathmann, W. (Wolfgang), Roden, M. (Michael), Schramm, K. (Katharina), Schwartz, J. D. (Joel D.), Starr, J. M. (John M.), Uitterlinden, A. G. (André G.), Vokonas, P. (Pantel), Waldenberger, M. (Melanie), Yao, C. (Chen), Zhi, D. (Degui), Baccarelli, A. A. (Andrea A.), Bandinelli, S. (Stefania), Deary, I. J. (Ian J.), Dehghan, A. (Abbas), Eriksson, J. (Johan), Herder, C. (Christian), Järvelin, M.-R. (Marjo-Riitta), Levy, D. (Daniel), Arnett, D. K. (Donna K.), Aslibekyan, S. (Stella), Agha, G. (Golareh), Colicino, E. (Elena), Do, A. N. (Anh N.), Lahti, J. (Jari), Ligthart, S. (Symen), Marioni, R. E. (Riccardo E.), Marzi, C. (Carola), Mendelson, M. M. (Michael M.), Tanaka, T. (Toshiko), Wielscher, M. (Matthias), Absher, D. M. (Devin M.), Ferrucci, L. (Luigi), Franco, O. H. (Oscar H.), Gieger, C. (Christian), Grallert, H. (Harald), Hernandez, D. (Dena), Huan, T. (Tianxiao), Iurato, S. (Stella), Joehanes, R. (Roby), Just, A. C. (Allan C.), Kunze, S. (Sonja), Lin, H. (Honghuang), Liu, C. (Chunyu), Meigs, J. B. (James B.), van Meurs, J. B. (Joyce B.J.), Moore, A. Z. (Ann Zenobia), Peters, A. (Annette), Prokisch, H. (Holger), Räikkönen, K. (Katri), Rathmann, W. (Wolfgang), Roden, M. (Michael), Schramm, K. (Katharina), Schwartz, J. D. (Joel D.), Starr, J. M. (John M.), Uitterlinden, A. G. (André G.), Vokonas, P. (Pantel), Waldenberger, M. (Melanie), Yao, C. (Chen), Zhi, D. (Degui), Baccarelli, A. A. (Andrea A.), Bandinelli, S. (Stefania), Deary, I. J. (Ian J.), Dehghan, A. (Abbas), Eriksson, J. (Johan), Herder, C. (Christian), Järvelin, M.-R. (Marjo-Riitta), Levy, D. (Daniel), and Arnett, D. K. (Donna K.)

Abstract

Importance: Tumor necrosis factor α (TNF-α) is a proinflammatory cytokine with manifold consequences for mammalian pathophysiology, including cardiovascular disease. A deeper understanding of TNF-α biology may enhance treatment precision. Objective: To conduct an epigenome-wide analysis of blood-derived DNA methylation and TNF-α levels and to assess the clinical relevance of findings. Design, Setting, and Participants: This meta-analysis assessed epigenome-wide associations in circulating TNF-α concentrations from 5 cohort studies and 1 interventional trial, with replication in 3 additional cohort studies. Follow-up analyses investigated associations of identified methylation loci with gene expression and incident coronary heart disease; this meta-analysis included 11 461 participants who experienced 1895 coronary events. Exposures: Circulating TNF-α concentration. Main Outcomes and Measures: DNA methylation at approximately 450 000 loci, neighboring DNA sequence variation, gene expression, and incident coronary heart disease. Results: The discovery cohort included 4794 participants, and the replication study included 816 participants (overall mean [SD] age, 60.7 [8.5] years). In the discovery stage, circulating TNF-α levels were associated with methylation of 7 cytosine-phosphate-guanine (CpG) sites, 3 of which were located in or near DTX3L-PARP9 at cg00959259 (β [SE] = −0.01 [0.003]; P = 7.36×10⁻⁸), cg08122652 (β [SE] = −0.008 [0.002]; P = 2.24×10⁻⁷), and cg22930808(β [SE] = −0.01 [0.002]; P = 6.92×10⁻⁸); NLRC5 at cg16411857 (β [SE] = −0.01 [0.002]; P = 2.14×10⁻¹³) and cg07839457 (β [SE] = −0.02 [0.003]; P = 6.31×10⁻¹⁰); or ABO, at cg13683939 (β [SE] = 0.04 [0.008]; P = 1.42×10⁻⁷) and cg24267699 (β [SE] = −0.009 [0.002]; P = 1.67 × 10⁻⁷), after accounting for multiple testing. Of these, negative associations between TNF-α concentration and methylation of 2 loci in NLRC5 and 1 in DTX3L-14 PARP9 were replicated. Replicated TNF-α–linked CpG sites were associ

Published
2018

45. A DNA methylation biomarker of alcohol consumption

Author

Liu, Chang, Marioni, RE, Hedman, AK, Pfeiffer, L, Tsai, P C, Reynolds, LM, Just, AC, Duan, Q, Boer, Cindy, Tanaka, T, Elks, CE, Aslibekyan, S, Brody, JA, Kuhnel, B, Herder, C, Almli, LM, Zhi, D, Wang, Y, Huan, T, Yao, C, Mendelson, MM, Joehanes, R, Liang, L, Love, SA, Guan, W, Shah, S, Mcrae, AF, Kretschmer, A, Prokisch, H, Strauch, K, Peters, A, Visscher, PM, Wray, NR, Guo, X, Wiggins, KL, Smith, AK, Binder, EB, Ressler, KJ, Irvin, M R, Absher, DM, Hernandez, D, Ferrucci, L, Bandinelli, S, Lohman, K, Ding, J, Trevisi, L, Gustafsson, S, Sandling, JH, Stolk, Lisette, Uitterlinden, André, Yet, I, Castillo-Fernandez, JE, Spector, TD, Schwartz, JD, Vokonas, P, Lind, L, Li, Y, Fornage, M, Arnett, DK, Wareham, NJ, Sotoodehnia, N, Ong, KK, van Meurs, Joyce, Conneely, KN, Baccarelli, AA, Deary, IJ, Bell, JT, North, KE, Liu, Y, Waldenberger, M, London, SJ, Ingelsson, E, Levy, D, Liu, Chang, Marioni, RE, Hedman, AK, Pfeiffer, L, Tsai, P C, Reynolds, LM, Just, AC, Duan, Q, Boer, Cindy, Tanaka, T, Elks, CE, Aslibekyan, S, Brody, JA, Kuhnel, B, Herder, C, Almli, LM, Zhi, D, Wang, Y, Huan, T, Yao, C, Mendelson, MM, Joehanes, R, Liang, L, Love, SA, Guan, W, Shah, S, Mcrae, AF, Kretschmer, A, Prokisch, H, Strauch, K, Peters, A, Visscher, PM, Wray, NR, Guo, X, Wiggins, KL, Smith, AK, Binder, EB, Ressler, KJ, Irvin, M R, Absher, DM, Hernandez, D, Ferrucci, L, Bandinelli, S, Lohman, K, Ding, J, Trevisi, L, Gustafsson, S, Sandling, JH, Stolk, Lisette, Uitterlinden, André, Yet, I, Castillo-Fernandez, JE, Spector, TD, Schwartz, JD, Vokonas, P, Lind, L, Li, Y, Fornage, M, Arnett, DK, Wareham, NJ, Sotoodehnia, N, Ong, KK, van Meurs, Joyce, Conneely, KN, Baccarelli, AA, Deary, IJ, Bell, JT, North, KE, Liu, Y, Waldenberger, M, London, SJ, Ingelsson, E, and Levy, D

Published
2018

46. A DNA methylation biomarker of alcohol consumption

Author

Liu, C, Marioni, R E, Hedman, Å K, Pfeiffer, L, Tsai, P-C, Reynolds, L M, Just, A C, Duan, Q, Boer, C G, Tanaka, T, Elks, C E, Aslibekyan, S, Brody, J A, Kühnel, B, Herder, C, Almli, L M, Zhi, D, Wang, Y, Huan, T, Yao, C, Mendelson, M M, Joehanes, R, Liang, L, Love, S-A, Guan, W, Shah, S, McRae, A F, Kretschmer, A, Prokisch, H, Strauch, K, Peters, A, Visscher, P M, Wray, N R, Guo, X, Wiggins, K L, Smith, A K, Binder, E B, Ressler, K J, Irvin, M R, Absher, D M, Hernandez, D, Ferrucci, L, Bandinelli, S, Lohman, K, Ding, J, Trevisi, L, Gustafsson, S, Sandling, J H, Stolk, L, Uitterlinden, A G, Yet, I, Castillo-Fernandez, J E, Spector, T D, Schwartz, J D, Vokonas, P, Lind, L, Li, Y, Fornage, M, Arnett, D K, Wareham, N J, Sotoodehnia, N, Ong, K K, van Meurs, J B J, Conneely, K N, Baccarelli, A A, Deary, I J, Bell, J T, North, K E, Liu, Y, Waldenberger, M, London, S J, Ingelsson, E, and Levy, D

Subjects
ddc
Published
2016

47. DNA methylation-based measures of biological age: Meta-analysis predicting time to death

Author

Chen, B.H. (Brian), Marioni, R.E. (Riccardo), Colicino, E. (Elena), Peters, M.J. (Marjolein), Ward-Caviness, C.K. (Cavin K.), Tsai, P.-C. (Pei-Chien), Roetker, N.S. (Nicholas S.), Just, A.C. (Allan C.), Demerath, E.W. (Ellen), Guan, W. (Weihua), Bressler, J. (Jan), Fornage, M. (Myriam), Studenski, S. (Stephanie), Vandiver, A.R. (Amy R.), Moore, A.Z. (Ann Zenobia), Tanaka, T. (Toshiko), Kiel, D.P. (Douglas P.), Liang, L. (Liming), Vokonas, P. (Pantel), Schwartz, J. (Joel), Lunetta, K.L. (Kathryn), Murabito, J. (Joanne), Bandinelli, S. (Stefania), Hernandez, D.G. (Dena), Melzer, D. (David), Nalls, M.A. (Michael), Pilling, L.C. (Luke), Price, T.R. (Timothy R.), Singleton, A. (Andrew), Gieger, C. (Christian), Holle, R. (Rolf), Kretschmer, A. (Anja), Kronenberg, F. (Florian), Kunze, S. (Sonja), Linseisen, J. (Jakob), Meisinger, C. (Christine), Rathmann, W. (Wolfgang), Waldenberger, M. (Melanie), Visscher, P.M. (Peter), Shah, S. (Sonia), Wray, N.R. (Naomi), McRae, A.F. (Allan F.), Franco, O.H. (Oscar), Hofman, A. (Albert), Uitterlinden, A.G. (André), Absher, D. (Devin), Assimes, T.L. (Themistocles), Levine, M.E. (Morgan E.), Lu, A.T. (Ake T.), Tsao, P.S. (Philip S.), Hou, L. (Lifang), Manson, J.E. (Joann), Carty, C. (Cara), LaCroix, A.Z. (Andrea Z.), Reiner, A. (Alexander), Spector, T.D. (Timothy), Feinberg, A.P. (Andrew P.), Levy, D. (Daniel), Baccarelli, A.A. (Andrea), Meurs, J. (Joyce van), Bell, J.T. (Jordana), Peters, A. (Annette), Deary, I.J. (Ian), Pankow, J.S. (James), Ferrucci, L. (Luigi), Horvath, S. (Steve), Chen, B.H. (Brian), Marioni, R.E. (Riccardo), Colicino, E. (Elena), Peters, M.J. (Marjolein), Ward-Caviness, C.K. (Cavin K.), Tsai, P.-C. (Pei-Chien), Roetker, N.S. (Nicholas S.), Just, A.C. (Allan C.), Demerath, E.W. (Ellen), Guan, W. (Weihua), Bressler, J. (Jan), Fornage, M. (Myriam), Studenski, S. (Stephanie), Vandiver, A.R. (Amy R.), Moore, A.Z. (Ann Zenobia), Tanaka, T. (Toshiko), Kiel, D.P. (Douglas P.), Liang, L. (Liming), Vokonas, P. (Pantel), Schwartz, J. (Joel), Lunetta, K.L. (Kathryn), Murabito, J. (Joanne), Bandinelli, S. (Stefania), Hernandez, D.G. (Dena), Melzer, D. (David), Nalls, M.A. (Michael), Pilling, L.C. (Luke), Price, T.R. (Timothy R.), Singleton, A. (Andrew), Gieger, C. (Christian), Holle, R. (Rolf), Kretschmer, A. (Anja), Kronenberg, F. (Florian), Kunze, S. (Sonja), Linseisen, J. (Jakob), Meisinger, C. (Christine), Rathmann, W. (Wolfgang), Waldenberger, M. (Melanie), Visscher, P.M. (Peter), Shah, S. (Sonia), Wray, N.R. (Naomi), McRae, A.F. (Allan F.), Franco, O.H. (Oscar), Hofman, A. (Albert), Uitterlinden, A.G. (André), Absher, D. (Devin), Assimes, T.L. (Themistocles), Levine, M.E. (Morgan E.), Lu, A.T. (Ake T.), Tsao, P.S. (Philip S.), Hou, L. (Lifang), Manson, J.E. (Joann), Carty, C. (Cara), LaCroix, A.Z. (Andrea Z.), Reiner, A. (Alexander), Spector, T.D. (Timothy), Feinberg, A.P. (Andrew P.), Levy, D. (Daniel), Baccarelli, A.A. (Andrea), Meurs, J. (Joyce van), Bell, J.T. (Jordana), Peters, A. (Annette), Deary, I.J. (Ian), Pankow, J.S. (James), Ferrucci, L. (Luigi), and Horvath, S. (Steve)

Abstract

Estimates of biological age based on DNA methylation patterns, often referred to as "epigenetic age", "DNAm age", have been shown to be robust biomarkers of age in humans. We previously demonstrated that independent of chronological age, epigenetic age assessed in blood predicted all-cause mortality in four human cohorts. Here, we expanded our original observation to 13 different cohorts for a total sample size of 13,089 individuals, including three racial/ethnic groups. In addition, we examined whether incorporating information on blood cell composition into the epigenetic age metrics improves their predictive power for mortality. All considered measures of epigenetic age acceleration were predictive of mortality (p ≤ 8.2 x 10-9), independent of chronological age, even after adjusting for additional risk factors (p < 5.4 x 10-4), and within the racial/ethnic groups that we examined (non-Hispanic whites, Hispanics, African Americans). Epigenetic age estimates that incorporated information on blood cell composition led to the smallest p-values for time to death (p≤ 7.5 x 10-43). Overall, this study a) strengthens the evidence that epigenetic age predicts all-cause mortality above and beyond chronological age and traditional risk factors, and b) demonstrates that epigenetic age estimates that incorporate information on blood cell counts lead to highly significant associations with all-cause mortality.

Published
2016
Full Text
View/download PDF

48. DNA methylation signatures of chronic low-grade inflammation are associated with complex diseases

Author

Ligthart, S. (Symen), Marzi, C. (Carola), Aslibekyan, S. (Stella), Mendelson, M.M. (Michael M.), Conneely, K.N. (Karen N.), Tanaka, T. (Toshiko), Colicino, E. (Elena), Waite, L. (Lindsay), Joehanes, R. (Roby), Guan, W. (Weihua), Brody, J.A. (Jennifer A.), Elks, C.E. (Cathy), Marioni, R.E. (Riccardo), Jhun, M.A. (Min A.), Agha, G. (Golareh), Bressler, J. (Jan), Ward-Caviness, C.K. (Cavin K.), Chen, B.H. (Brian), Huan, T. (Tianxiao), Bakulski, K.M. (Kelly M.), Salfati, E. (Elias), Fiorito, G. (Giovanni), Wahl, S. (Simone), Schramm, K. (Katharina), Sha, J. (Jin), Hernandez, D.G. (Dena), Just, A.C. (Allan C.), Smith, J.A. (Jennifer A), Sotoodehnia, N. (Nona), Pilling, L.C. (Luke), Pankow, J.S. (James), Tsao, P.S. (Phil S.), Liu, C. (Chunyu), Zhao, W. (Wei), Guarrera, S. (Simonetta), Michopoulos, V.J. (Vasiliki J.), Smith, A.K. (Alicia K.), Peters, M.J. (Marjolein), Melzer, D. (David), Vokonas, P. (Pantel), Fornage, M. (Myriam), Prokisch, H. (Holger), Bis, J.C. (Joshua), Chu, A.Y. (Audrey), Herder, C. (Christian), Grallert, H. (Harald), Yao, C. (Chen), Shah, S. (Sonia), McRae, A.F. (Allan F.), Lin, H., Horvath, S. (Steve), Fallin, D. (Daniele), Hofman, A. (Albert), Wareham, N.J. (Nick), Wiggins, K.L. (Kerri), Feinberg, A.P. (Andrew P.), Starr, J.M. (John), Visscher, P.M. (Peter), Murabito, J. (Joanne), Kardia, S.L.R. (Sharon L.R.), Absher, D. (Devin), Binder, E.B. (Elisabeth), Singleton, A. (Andrew), Bandinelli, S. (Stefania), Peters, A. (Annette), Waldenberger, M. (Melanie), Matullo, G., Schwartz, J.D. (Joel D.), Demerath, E.W. (Ellen), Uitterlinden, A.G. (André), Meurs, J.B.J. (Joyce B.J.), Franco, O.H. (Oscar), Chen, Y.D. (Y.), Levy, D. (Daniel), Turner, S.T. (Stephen), Deary, I.J. (Ian), Ressler, K.J. (Kerry), Dupuis, J. (Josée), Ferrucci, L. (Luigi), Ong, K.K. (Ken K.), Assimes, T.L. (Themistocles), Boerwinkle, E.A. (Eric), Koenig, W. (Wolfgang), Arnett, D.K. (Donna), Baccarelli, A.A. (Andrea), Benjamin, E.J. (Emelia), Dehghan, A. (Abbas), Ligthart, S. (Symen), Marzi, C. (Carola), Aslibekyan, S. (Stella), Mendelson, M.M. (Michael M.), Conneely, K.N. (Karen N.), Tanaka, T. (Toshiko), Colicino, E. (Elena), Waite, L. (Lindsay), Joehanes, R. (Roby), Guan, W. (Weihua), Brody, J.A. (Jennifer A.), Elks, C.E. (Cathy), Marioni, R.E. (Riccardo), Jhun, M.A. (Min A.), Agha, G. (Golareh), Bressler, J. (Jan), Ward-Caviness, C.K. (Cavin K.), Chen, B.H. (Brian), Huan, T. (Tianxiao), Bakulski, K.M. (Kelly M.), Salfati, E. (Elias), Fiorito, G. (Giovanni), Wahl, S. (Simone), Schramm, K. (Katharina), Sha, J. (Jin), Hernandez, D.G. (Dena), Just, A.C. (Allan C.), Smith, J.A. (Jennifer A), Sotoodehnia, N. (Nona), Pilling, L.C. (Luke), Pankow, J.S. (James), Tsao, P.S. (Phil S.), Liu, C. (Chunyu), Zhao, W. (Wei), Guarrera, S. (Simonetta), Michopoulos, V.J. (Vasiliki J.), Smith, A.K. (Alicia K.), Peters, M.J. (Marjolein), Melzer, D. (David), Vokonas, P. (Pantel), Fornage, M. (Myriam), Prokisch, H. (Holger), Bis, J.C. (Joshua), Chu, A.Y. (Audrey), Herder, C. (Christian), Grallert, H. (Harald), Yao, C. (Chen), Shah, S. (Sonia), McRae, A.F. (Allan F.), Lin, H., Horvath, S. (Steve), Fallin, D. (Daniele), Hofman, A. (Albert), Wareham, N.J. (Nick), Wiggins, K.L. (Kerri), Feinberg, A.P. (Andrew P.), Starr, J.M. (John), Visscher, P.M. (Peter), Murabito, J. (Joanne), Kardia, S.L.R. (Sharon L.R.), Absher, D. (Devin), Binder, E.B. (Elisabeth), Singleton, A. (Andrew), Bandinelli, S. (Stefania), Peters, A. (Annette), Waldenberger, M. (Melanie), Matullo, G., Schwartz, J.D. (Joel D.), Demerath, E.W. (Ellen), Uitterlinden, A.G. (André), Meurs, J.B.J. (Joyce B.J.), Franco, O.H. (Oscar), Chen, Y.D. (Y.), Levy, D. (Daniel), Turner, S.T. (Stephen), Deary, I.J. (Ian), Ressler, K.J. (Kerry), Dupuis, J. (Josée), Ferrucci, L. (Luigi), Ong, K.K. (Ken K.), Assimes, T.L. (Themistocles), Boerwinkle, E.A. (Eric), Koenig, W. (Wolfgang), Arnett, D.K. (Donna), Baccarelli, A.A. (Andrea), Benjamin, E.J. (Emelia), and Dehghan, A. (Abbas)

Abstract

Background: Chronic low-grade inflammation reflects a subclinical immune response implicated in the pathogenesis of complex diseases. Identifying genetic loci where DNA methylation is as

Published
2016
Full Text
View/download PDF

49. DNA methylation signatures of chronic low-grade inflammation are associated with complex diseases

Author

Ligthart, Symen, Marzi, C, Aslibekyan, S, Mendelson, MM, Conneely, KN, Tanaka, T, Colicino, E, Waite, LL, Joehanes, R, Guan, WH, Brody, JA, Elks, C, Marioni, R, Jhun, MA, Agha, G, Bressler, J, Ward-Caviness, CK, Chen, BH, Huan, TX, Bakulski, K, Salfati, EL, Wahl, S, Schramm, K, Sha, J, Hernandez, DG, Just, AC, Smith, JA, Sotoodehnia, N, Pilling, LC, Pankow, JS, Tsao, PS, Liu, CY, Zhao, W, Guarrera, S, Michopoulos, VJ, Smith, AK, Peters, Marjolein, Melzer, D, Vokonas, P, Fornage, M, Prokisch, H, Bis, JC, Chu, AY, Herder, Cindy, Grallert, H, Yao, C, Shah, S, Mcrae, AF, Lin, HH, Horvath, S, Fallin, D, Hofman, Bert, Wareham, NJ, Wiggins, KL, Feinberg, AP, Starr, JM, Visscher, PM, Murabito, JM, Kardia, SLR, Absher, DM, Binder, EB, Singleton, AB, Bandinelli, S, Peters, A, Waldenberger, M, Matullo, G, Schwartz, JD, Demerath, EW, Uitterlinden, André, van Meurs, Joyce, Franco Duran, OH, Chen, YDI, Levy, D, Turner, ST, Deary, IJ, Ressler, KJ, Dupuis, J, Ferrucci, L, Ong, KK, Assimes, TL, Boerwinkle, E, Koenig, W, Arnett, DK, Baccarelli, AA, Benjamin, EJ, Dehghan, Abbas, Ligthart, Symen, Marzi, C, Aslibekyan, S, Mendelson, MM, Conneely, KN, Tanaka, T, Colicino, E, Waite, LL, Joehanes, R, Guan, WH, Brody, JA, Elks, C, Marioni, R, Jhun, MA, Agha, G, Bressler, J, Ward-Caviness, CK, Chen, BH, Huan, TX, Bakulski, K, Salfati, EL, Wahl, S, Schramm, K, Sha, J, Hernandez, DG, Just, AC, Smith, JA, Sotoodehnia, N, Pilling, LC, Pankow, JS, Tsao, PS, Liu, CY, Zhao, W, Guarrera, S, Michopoulos, VJ, Smith, AK, Peters, Marjolein, Melzer, D, Vokonas, P, Fornage, M, Prokisch, H, Bis, JC, Chu, AY, Herder, Cindy, Grallert, H, Yao, C, Shah, S, Mcrae, AF, Lin, HH, Horvath, S, Fallin, D, Hofman, Bert, Wareham, NJ, Wiggins, KL, Feinberg, AP, Starr, JM, Visscher, PM, Murabito, JM, Kardia, SLR, Absher, DM, Binder, EB, Singleton, AB, Bandinelli, S, Peters, A, Waldenberger, M, Matullo, G, Schwartz, JD, Demerath, EW, Uitterlinden, André, van Meurs, Joyce, Franco Duran, OH, Chen, YDI, Levy, D, Turner, ST, Deary, IJ, Ressler, KJ, Dupuis, J, Ferrucci, L, Ong, KK, Assimes, TL, Boerwinkle, E, Koenig, W, Arnett, DK, Baccarelli, AA, Benjamin, EJ, and Dehghan, Abbas

Abstract

Background: Chronic low-grade inflammation reflects a subclinical immune response implicated in the pathogenesis of complex diseases. Identifying genetic loci where DNA methylation is associated with chronic low-grade inflammation may reveal novel pathways or therapeutic targets for inflammation. Results: We performed a meta-analysis of epigenome-wide association studies (EWAS) of serum C-reactive protein (CRP), which is a sensitive marker of low-grade inflammation, in a large European population (n = 8863) and trans-ethnic replication in African Americans (n = 4111). We found differential methylation at 218 CpG sites to be associated with CRP (P < 1.15 x 10(-7)) in the discovery panel of European ancestry and replicated (P < 2.29 x 10(-4)) 58 CpG sites (45 unique loci) among African Americans. To further characterize the molecular and clinical relevance of the findings, we examined the association with gene expression, genetic sequence variants, and clinical outcomes. DNA methylation at nine (16%) CpG sites was associated with whole blood gene expression in cis (P < 8.47 x 10(-5)), ten (17%) CpG sites were associated with a nearby genetic variant (P < 2.50 x 10(-3)), and 51 (88%) were also associated with at least one related cardiometabolic entity (P < 9.58x 10(-5)). An additive weighted score of replicated CpG sites accounted for up to 6% inter-individual variation (R-2) of age-adjusted and sex-adjusted CRP, independent of known CRP-related genetic variants. Conclusion: We have completed an EWAS of chronic low-grade inflammation and identified many novel genetic loci underlying inflammation that may serve as targets for the development of novel therapeutic interventions for inflammation.

Published
2016

50. A DNA methylation biomarker of alcohol consumption

Author

Liu, C, primary, Marioni, R E, additional, Hedman, Å K, additional, Pfeiffer, L, additional, Tsai, P-C, additional, Reynolds, L M, additional, Just, A C, additional, Duan, Q, additional, Boer, C G, additional, Tanaka, T, additional, Elks, C E, additional, Aslibekyan, S, additional, Brody, J A, additional, Kühnel, B, additional, Herder, C, additional, Almli, L M, additional, Zhi, D, additional, Wang, Y, additional, Huan, T, additional, Yao, C, additional, Mendelson, M M, additional, Joehanes, R, additional, Liang, L, additional, Love, S-A, additional, Guan, W, additional, Shah, S, additional, McRae, A F, additional, Kretschmer, A, additional, Prokisch, H, additional, Strauch, K, additional, Peters, A, additional, Visscher, P M, additional, Wray, N R, additional, Guo, X, additional, Wiggins, K L, additional, Smith, A K, additional, Binder, E B, additional, Ressler, K J, additional, Irvin, M R, additional, Absher, D M, additional, Hernandez, D, additional, Ferrucci, L, additional, Bandinelli, S, additional, Lohman, K, additional, Ding, J, additional, Trevisi, L, additional, Gustafsson, S, additional, Sandling, J H, additional, Stolk, L, additional, Uitterlinden, A G, additional, Yet, I, additional, Castillo-Fernandez, J E, additional, Spector, T D, additional, Schwartz, J D, additional, Vokonas, P, additional, Lind, L, additional, Li, Y, additional, Fornage, M, additional, Arnett, D K, additional, Wareham, N J, additional, Sotoodehnia, N, additional, Ong, K K, additional, van Meurs, J B J, additional, Conneely, K N, additional, Baccarelli, A A, additional, Deary, I J, additional, Bell, J T, additional, North, K E, additional, Liu, Y, additional, Waldenberger, M, additional, London, S J, additional, Ingelsson, E, additional, and Levy, D, additional

Published
2016
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results