1  6761 143 X CHROMOSOME-WIDE ANALYSIS IDENTIFIES DNA METHYLATION SITES INFLUENCED BY CIGARETTE SMOKING. BACKGROUND: TOBACCO SMOKING IS A MAJOR CAUSE OF CHRONIC DISEASE WORLDWIDE. SMOKING MAY INDUCE CELLULAR AND MOLECULAR CHANGES INCLUDING EPIGENETIC MODIFICATION, WITH BOTH SHORT-TERM AND LONG-TERM MODIFICATION PATTERNS THAT MAY CONTRIBUTE TO PHENOTYPIC EXPRESSION OF DISEASES. RECENT EPIGENOME-WIDE ASSOCIATION STUDIES (EWAS) HAVE IDENTIFIED DOZENS OF SMOKING-RELATED DNA METHYLATION (DNAM) SITES. HOWEVER, THE X CHROMOSOMAL DNAM SITES HAVE BEEN LARGELY OVERLOOKED DUE TO A LACK OF AN ANALYTICAL FRAMEWORK FOR DEALING WITH THE SEX-DIMORPHIC DISTRIBUTION. TO IDENTIFY NOVEL SMOKING-RELATED DNAM SITES ON THE X CHROMOSOME, WE EXAMINED THE MODALITY OF EACH X CHROMOSOMAL DNAM SITE AND CONDUCTED A SEX-SPECIFIC ASSOCIATION STUDY OF CIGARETTE SMOKING. RESULTS: WE USED A DISCOVERY SAMPLE OF 139 MIDDLE-AGE TWINS, AND THREE REPLICATION SAMPLES OF 78 TWINS, 464 AND 333 UNRELATED INDIVIDUALS INCLUDING 47, 17, 22, AND 89 CURRENT SMOKERS, RESPECTIVELY. AFTER CORRECTION FOR MULTIPLE TESTING, THE TOP SMOKING-RELATED DNAM SITES IN BCOR AND TSC22D3 WERE SIGNIFICANTLY HYPERMETHYLATED AND HYPOMETHYLATED, RESPECTIVELY, AMONG CURRENT SMOKERS. THESE SMOKING-ASSOCIATED SITES WERE REPLICATED WITH META-ANALYSIS P-VALUES OF 9.17 X 10(-12) AND 1.61 X 10(-9). FOR BOTH SITES, THE SMOKING EFFECTS ON METHYLATION LEVELS WERE LARGER IN MALES THAN THAT IN FEMALES. CONCLUSIONS: OUR FINDINGS HIGHLIGHT THE IMPORTANCE OF INVESTIGATING X CHROMOSOME METHYLATION PATTERNS AND THEIR ASSOCIATIONS WITH ENVIRONMENTAL EXPOSURES AND DISEASE PHENOTYPES AND DEMONSTRATE A ROBUST STATISTICAL METHODOLOGY FOR SUCH STUDY. EXISTING EWAS OF HUMAN DISEASES SHOULD INCORPORATE THE X CHROMOSOMAL SITES TO COMPLETE A COMPREHENSIVE EPIGENOME-WIDE SCAN.	2016	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                       
2   101  32 A RAT METHYL-SEQ PLATFORM TO IDENTIFY EPIGENETIC CHANGES ASSOCIATED WITH STRESS EXPOSURE. AS GENOMES OF A WIDER VARIETY OF ANIMALS BECOME AVAILABLE, THERE IS AN INCREASING NEED FOR TOOLS THAT CAN CAPTURE DYNAMIC EPIGENETIC CHANGES IN THESE ANIMAL MODELS. THE RAT IS ONE PARTICULAR MODEL ANIMAL WHERE AN EPIGENETIC TOOL CAN COMPLEMENT MANY PHARMACOLOGICAL AND BEHAVIORAL STUDIES TO PROVIDE INSIGHTFUL MECHANISTIC INFORMATION. TO THIS END, WE ADAPTED THE SURESELECT TARGET CAPTURE SYSTEM (REFERRED TO AS METHYL-SEQ) FOR THE RAT, WHICH CAN ASSESS DNA METHYLATION LEVELS ACROSS THE RAT GENOME. THE RAT DESIGN TARGETED PROMOTERS, CPG ISLANDS, ISLAND SHORES, AND GC-RICH REGIONS FROM ALL REFSEQ GENES. TO IMPLEMENT THE PLATFORM ON A RAT EXPERIMENT, MALE SPRAGUE DAWLEY RATS WERE EXPOSED TO CHRONIC VARIABLE STRESS FOR 3 WEEKS, AFTER WHICH BLOOD SAMPLES WERE COLLECTED FOR GENOMIC DNA EXTRACTION. METHYL-SEQ LIBRARIES WERE CONSTRUCTED FROM THE RAT DNA SAMPLES BY SHEARING, ADAPTER LIGATION, TARGET ENRICHMENT, BISULFITE CONVERSION, AND MULTIPLEXING. LIBRARIES WERE SEQUENCED ON A NEXT-GENERATION SEQUENCING PLATFORM AND THE SEQUENCED READS WERE ANALYZED TO IDENTIFY DMRS BETWEEN DNA OF STRESSED AND UNSTRESSED RATS. TOP CANDIDATE DMRS WERE INDEPENDENTLY VALIDATED BY BISULFITE PYROSEQUENCING TO CONFIRM THE ROBUSTNESS OF THE PLATFORM. RESULTS DEMONSTRATE THAT THE RAT METHYL-SEQ PLATFORM IS A USEFUL EPIGENETIC TOOL THAT CAN CAPTURE METHYLATION CHANGES INDUCED BY EXPOSURE TO STRESS.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
3  1436  35 DIFFERENTIAL METHYLATION OF THE TRPA1 PROMOTER IN PAIN SENSITIVITY. CHRONIC PAIN IS A GLOBAL PUBLIC HEALTH PROBLEM, BUT THE UNDERLYING MOLECULAR MECHANISMS ARE NOT FULLY UNDERSTOOD. HERE WE EXAMINE GENOME-WIDE DNA METHYLATION, FIRST IN 50 IDENTICAL TWINS DISCORDANT FOR HEAT PAIN SENSITIVITY AND THEN IN 50 FURTHER UNRELATED INDIVIDUALS. WHOLE-BLOOD DNA METHYLATION WAS CHARACTERIZED AT 5.2 MILLION LOCI BY MEDIP SEQUENCING AND ASSESSED LONGITUDINALLY TO IDENTIFY DIFFERENTIALLY METHYLATED REGIONS ASSOCIATED WITH HIGH OR LOW PAIN SENSITIVITY (PAIN DMRS). NINE META-ANALYSIS PAIN DMRS SHOW ROBUST EVIDENCE FOR ASSOCIATION (FALSE DISCOVERY RATE 5%) WITH THE STRONGEST SIGNAL IN THE PAIN GENE TRPA1 (P=1.2 X 10(-13)). SEVERAL PAIN DMRS SHOW LONGITUDINAL STABILITY CONSISTENT WITH SUSCEPTIBILITY EFFECTS, HAVE SIMILAR METHYLATION LEVELS IN THE BRAIN AND ALTERED EXPRESSION IN THE SKIN. OUR APPROACH IDENTIFIES EPIGENETIC CHANGES IN BOTH NOVEL AND ESTABLISHED CANDIDATE GENES THAT PROVIDE MOLECULAR INSIGHTS INTO PAIN AND MAY GENERALIZE TO OTHER COMPLEX TRAITS.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
4  1343  46 DETECTING CORD BLOOD CELL TYPE-SPECIFIC EPIGENETIC ASSOCIATIONS WITH GESTATIONAL DIABETES MELLITUS AND EARLY CHILDHOOD GROWTH. BACKGROUND: EPIGENOME-WIDE ASSOCIATION STUDIES (EWAS) HAVE PROVIDED OPPORTUNITIES TO UNDERSTAND THE ROLE OF EPIGENETIC MECHANISMS IN DEVELOPMENT AND PATHOPHYSIOLOGY OF MANY CHRONIC DISEASES. HOWEVER, AN IMPORTANT LIMITATION OF CONVENTIONAL EWAS IS THAT PROFILES OF EPIGENETIC VARIABILITY ARE OFTEN OBTAINED IN SAMPLES OF MIXED CELL TYPES. HERE, WE AIM TO ASSESS WHETHER CHANGES IN CORD BLOOD DNA METHYLATION (DNAM) ASSOCIATED WITH GESTATIONAL DIABETES MELLITUS (GDM) EXPOSURE AND EARLY CHILDHOOD GROWTH MARKERS OCCUR IN A CELL TYPE-SPECIFIC MANNER. RESULTS: WE ANALYZED 275 CORD BLOOD SAMPLES COLLECTED AT DELIVERY FROM A PROSPECTIVE PRE-BIRTH COHORT WITH GENOME-WIDE DNAM PROFILED BY THE ILLUMINA METHYLATIONEPIC ARRAY. WE ESTIMATED PROPORTIONS OF SEVEN COMMON CELL TYPES IN EACH SAMPLE USING A CORD BLOOD-SPECIFIC DNAM REFERENCE PANEL. LEVERAGING A RECENTLY DEVELOPED APPROACH NAMED CELLDMC, WE PERFORMED CELL TYPE-SPECIFIC EWAS TO IDENTIFY CPG LOCI SIGNIFICANTLY ASSOCIATED WITH GDM, OR 3-YEAR-OLD BODY MASS INDEX (BMI) Z-SCORE. A TOTAL OF 1410 CPG LOCI DISPLAYED SIGNIFICANT CELL TYPE-SPECIFIC DIFFERENCES IN METHYLATION LEVEL BETWEEN 23 GDM CASES AND 252 CONTROLS WITH A FALSE DISCOVERY RATE < 0.05. GENE ONTOLOGY ENRICHMENT ANALYSIS INDICATED THAT LDL TRANSPORTATION EMERGED FROM CPG SPECIFICALLY IDENTIFIED FROM B-CELLS DNAM ANALYSES AND THE MITOGEN-ACTIVATED PROTEIN KINASE PATHWAY EMERGED FROM CPG SPECIFICALLY IDENTIFIED FROM NATURAL KILLER CELLS DNAM ANALYSES. IN ADDITION, WE IDENTIFIED FOUR AND SIX LOCI ASSOCIATED WITH 3-YEAR-OLD BMI Z-SCORE THAT WERE SPECIFIC TO CD8+ T-CELLS AND MONOCYTES, RESPECTIVELY. BY PERFORMING GENOME-WIDE PERMUTATION TESTS, WE VALIDATED THAT MOST OF OUR DETECTED SIGNALS HAD LOW FALSE POSITIVE RATES. CONCLUSION: COMPARED TO CONVENTIONAL EWAS ADJUSTING FOR THE EFFECTS OF CELL TYPE HETEROGENEITY, THE PROPOSED APPROACH BASED ON CELL TYPE-SPECIFIC EWAS COULD PROVIDE ADDITIONAL BIOLOGICALLY MEANINGFUL ASSOCIATIONS BETWEEN CPG METHYLATION, PRENATAL MATERNAL GDM OR 3-YEAR-OLD BMI. WITH CAREFUL VALIDATION, THESE FINDINGS MAY PROVIDE NEW INSIGHTS INTO THE PATHOGENESIS, PROGRAMMING, AND CONSEQUENCES OF RELATED CHILDHOOD METABOLIC DYSREGULATION. THEREFORE, WE PROPOSE THAT CELL TYPE-SPECIFIC ANALYSES ARE WORTH CAUTIOUS EXPLORATIONS.	2021	

5   382  46 AN EPIGENOME-WIDE STUDY OF BODY MASS INDEX AND DNA METHYLATION IN BLOOD USING PARTICIPANTS FROM THE SISTER STUDY COHORT. BACKGROUND/OBJECTIVES: THE RELATIONSHIP BETWEEN OBESITY AND CHRONIC DISEASE RISK IS WELL-ESTABLISHED; THE UNDERLYING BIOLOGICAL MECHANISMS DRIVING THIS RISK INCREASE MAY INCLUDE OBESITY-RELATED EPIGENETIC MODIFICATIONS. TO EXPLORE THIS HYPOTHESIS, WE CONDUCTED A GENOME-WIDE ANALYSIS OF DNA METHYLATION AND BODY MASS INDEX (BMI) USING DATA FROM A SUBSET OF WOMEN IN THE SISTER STUDY. SUBJECTS/METHODS: THE SISTER STUDY IS A COHORT OF 50 884 US WOMEN WHO HAD A SISTER WITH BREAST CANCER BUT WERE FREE OF BREAST CANCER THEMSELVES AT ENROLLMENT. STUDY PARTICIPANTS COMPLETED EXAMINATIONS WHICH INCLUDED MEASUREMENTS OF HEIGHT AND WEIGHT, AND PROVIDED BLOOD SAMPLES. BLOOD DNA METHYLATION DATA GENERATED WITH THE ILLUMINA INFINIUM HUMANMETHYLATION27 BEADCHIP ARRAY COVERING 27,589 CPG SITES WAS AVAILABLE FOR 871 WOMEN FROM A PRIOR STUDY OF BREAST CANCER AND DNA METHYLATION. TO IDENTIFY DIFFERENTIALLY METHYLATED CPG SITES ASSOCIATED WITH BMI, WE ANALYZED THIS METHYLATION DATA USING ROBUST LINEAR REGRESSION WITH ADJUSTMENT FOR AGE AND CASE STATUS. FOR THOSE CPGS PASSING THE FALSE DISCOVERY RATE SIGNIFICANCE LEVEL, WE EXAMINED THE ASSOCIATION IN A REPLICATION SET COMPRISED OF A NON-OVERLAPPING GROUP OF 187 WOMEN FROM THE SISTER STUDY WHO HAD DNA METHYLATION DATA GENERATED USING THE INFINIUM HUMANMETHYLATION450 BEADCHIP ARRAY. ANALYSIS OF THIS EXPANDED 450 K ARRAY IDENTIFIED ADDITIONAL BMI-ASSOCIATED SITES WHICH WERE INVESTIGATED WITH TARGETED PYROSEQUENCING. RESULTS: FOUR CPG SITES REACHED GENOME-WIDE SIGNIFICANCE (FALSE DISCOVERY RATE (FDR) Q<0.05) IN THE DISCOVERY SET AND ASSOCIATIONS FOR ALL FOUR WERE SIGNIFICANT AT STRICT BONFERRONI CORRECTION IN THE REPLICATION SET. AN ADDITIONAL 23 SITES PASSED FDR IN THE REPLICATION SET AND FIVE WERE REPLICATED BY PYROSEQUENCING IN THE DISCOVERY SET. SEVERAL OF THE GENES IDENTIFIED INCLUDING ANGPT4, RORC, SOCS3, FSD2, XYLT1, ABCG1, STK39, ASB2 AND CRHR2 HAVE BEEN LINKED TO OBESITY AND OBESITY-RELATED CHRONIC DISEASES. CONCLUSIONS: OUR FINDINGS SUPPORT THE HYPOTHESIS THAT OBESITY-RELATED EPIGENETIC DIFFERENCES ARE DETECTABLE IN BLOOD AND MAY BE RELATED TO RISK OF CHRONIC DISEASE.	2017	
                                                                                                                                            
6  2643  58 EPIGENOMIC ASSOCIATION ANALYSIS IDENTIFIES SMOKING-RELATED DNA METHYLATION SITES IN AFRICAN AMERICANS. CIGARETTE SMOKING IS AN ENVIRONMENTAL RISK FACTOR FOR MANY CHRONIC DISEASES, AND DISEASE RISK CAN OFTEN BE MANAGED BY SMOKING CONTROL. SMOKING CAN INDUCE CELLULAR AND MOLECULAR CHANGES, INCLUDING EPIGENETIC MODIFICATION, BUT THE SHORT- AND LONG-TERM EPIGENETIC MODIFICATIONS CAUSED BY CIGARETTE SMOKING AT THE GENE LEVEL HAVE NOT BEEN WELL UNDERSTOOD. RECENT STUDIES HAVE IDENTIFIED SMOKING-RELATED DNA METHYLATION (DNAM) SITES IN CAUCASIANS. TO DETERMINE WHETHER THE SAME DNAM SITES ASSOCIATE WITH SMOKING IN AFRICAN AMERICANS, AND TO IDENTIFY NOVEL SMOKING-RELATED DNAM SITES, WE CONDUCTED A METHYLOME-WIDE ASSOCIATION STUDY OF CIGARETTE SMOKING USING A DISCOVERY SAMPLE OF 972 AFRICAN AMERICANS, AND A REPLICATION SAMPLE OF 239 AFRICAN AMERICANS WITH TWO ARRAY-BASED METHODS. AMONG 15 DNAM SITES SIGNIFICANTLY ASSOCIATED WITH SMOKING AFTER CORRECTION FOR MULTIPLE TESTING IN OUR DISCOVERY SAMPLE, 5 DNAM SITES ARE REPLICATED IN AN INDEPENDENT COHORT, AND 14 SITES IN THE REPLICATION SAMPLE HAVE EFFECTS IN THE SAME DIRECTION AS IN THE DISCOVERY SAMPLE. THE TOP TWO SMOKING-RELATED DNAM SITES IN F2RL3 (FACTOR II RECEPTOR-LIKE 3) AND GPR15 (G-PROTEIN-COUPLED RECEPTOR 15) OBSERVED IN AFRICAN AMERICANS ARE CONSISTENT WITH PREVIOUS FINDINGS IN CAUCASIANS. THE ASSOCIATIONS BETWEEN THE REPLICATED DNAM SITES AND SMOKING REMAIN SIGNIFICANT AFTER ADJUSTING FOR GENETIC BACKGROUND. DESPITE THE DISTINCT GENETIC BACKGROUND BETWEEN AFRICAN AMERICANS AND CAUCASIANS, THE DNAM FROM THE TWO ETHNIC GROUPS SHARES COMMON ASSOCIATIONS WITH CIGARETTE SMOKING, WHICH SUGGESTS A COMMON MOLECULAR MECHANISM OF EPIGENETIC MODIFICATION INFLUENCED BY ENVIRONMENTAL EXPOSURE.	2013	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                
7  4879  19 OVERLAPPING SIGNATURES OF CHRONIC PAIN IN THE DNA METHYLATION LANDSCAPE OF PREFRONTAL CORTEX AND PERIPHERAL T CELLS. WE TESTED THE HYPOTHESIS THAT EPIGENETIC MECHANISMS IN THE BRAIN AND THE IMMUNE SYSTEM ARE ASSOCIATED WITH CHRONIC PAIN. GENOME-WIDE DNA METHYLATION ASSESSED IN 9 MONTHS POST NERVE-INJURY (SNI) AND SHAM RATS, IN THE PREFRONTAL CORTEX (PFC) AS WELL AS IN T CELLS REVEALED A VAST DIFFERENCE IN THE DNA METHYLATION LANDSCAPE IN THE BRAIN BETWEEN THE GROUPS AND A REMARKABLE OVERLAP (72%) BETWEEN DIFFERENTIALLY METHYLATED PROBES IN T CELLS AND PREFRONTAL CORTEX. DNA METHYLATION STATES IN THE PFC SHOWED ROBUST CORRELATION WITH PAIN SCORE OF ANIMALS IN SEVERAL GENES INVOLVED IN PAIN. FINALLY, ONLY 11 DIFFERENTIALLY METHYLATED PROBES IN T CELLS WERE SUFFICIENT TO DISTINGUISH SNI OR SHAM INDIVIDUAL RATS. THIS STUDY SUPPORTS THE PLAUSIBILITY OF DNA METHYLATION INVOLVEMENT IN CHRONIC PAIN AND DEMONSTRATES THE POTENTIAL FEASIBILITY OF DNA METHYLATION MARKERS IN T CELLS AS NONINVASIVE BIOMARKERS OF CHRONIC PAIN SUSCEPTIBILITY.	2016	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
8   308  36 ALCOHOL AND DNA METHYLATION: AN EPIGENOME-WIDE ASSOCIATION STUDY IN BLOOD AND NORMAL BREAST TISSUE. THE BIOLOGICAL MECHANISMS DRIVING ASSOCIATIONS BETWEEN ALCOHOL CONSUMPTION AND CHRONIC DISEASES MIGHT INCLUDE EPIGENETIC MODIFICATION OF DNA METHYLATION. WE EXPLORED THE HYPOTHESIS THAT ALCOHOL CONSUMPTION IS ASSOCIATED WITH METHYLATION IN AN EPIGENOME-WIDE ASSOCIATION STUDY OF BLOOD AND NORMAL BREAST TISSUE DNA. INFINIUM HUMANMETHYLATION450 BEADCHIP (ILLUMINA INC., SAN DIEGO, CALIFORNIA) ARRAY DATA ON BLOOD DNA METHYLATION WAS EXAMINED IN A DISCOVERY SET OF 2,878 NON-HISPANIC WHITE WOMEN FROM THE SISTER STUDY (UNITED STATES, 2004-2015) WHO PROVIDED DETAILED QUESTIONNAIRE INFORMATION ON LIFETIME ALCOHOL USE. ROBUST LINEAR REGRESSION MODELING WAS USED TO IDENTIFY SIGNIFICANT ASSOCIATIONS (FALSE DISCOVERY RATE OF Q < 0.05) BETWEEN THE NUMBER OF ALCOHOLIC DRINKS PER WEEK AND DNA METHYLATION AT 5,458 CYTOSINE-PHOSPHATE-GUANINE (CPG) SITES. ASSOCIATIONS WERE REPLICATED (P < 0.05) FOR 677 CPGS IN AN INDEPENDENT SET OF 187 BLOOD DNA SAMPLES FROM THE SISTER STUDY AND FOR 628 CPGS IN AN INDEPENDENT SET OF 171 NORMAL BREAST DNA SAMPLES; 1,207 CPGS WERE REPLICATED IN EITHER BLOOD OR NORMAL BREAST, WITH 98 CPGS REPLICATED IN BOTH TISSUES. INDIVIDUAL GENE EFFECTS WERE NOTABLE FOR PHOSPHOGLYCERATE DEHYDROGENASE (PGHDH), PEPTIDYL-PROLYL CIS-TRANS ISOMERASE (PPIF), SOLUTE CARRIER 15 (SLC15), SOLUTE CARRIER FAMILY 43 MEMBER 1 (SLC43A1), AND SOLUTE CARRIER FAMILY 7 MEMBER 11 (SLC7A11). WE ALSO FOUND THAT HIGH ALCOHOL CONSUMPTION WAS ASSOCIATED WITH SIGNIFICANTLY LOWER GLOBAL METHYLATION AS MEASURED BY THE AVERAGE OF CPGS ON THE ENTIRE ARRAY.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
9  2079  34 EPIGENETIC DNA METHYLATION CHANGES ASSOCIATED WITH HEADACHE CHRONIFICATION: A RETROSPECTIVE CASE-CONTROL STUDY. BACKGROUND THE BIOLOGICAL MECHANISMS OF HEADACHE CHRONIFICATION ARE POORLY UNDERSTOOD. WE AIMED TO IDENTIFY CHANGES IN DNA METHYLATION ASSOCIATED WITH THE TRANSFORMATION FROM EPISODIC TO CHRONIC HEADACHE. METHODS PARTICIPANTS WERE RECRUITED FROM THE POPULATION-BASED NORWEGIAN HUNT STUDY. THIRTY-SIX FEMALE HEADACHE PATIENTS WHO TRANSFORMED FROM EPISODIC TO CHRONIC HEADACHE BETWEEN BASELINE AND FOLLOW-UP 11 YEARS LATER WERE MATCHED AGAINST 35 CONTROLS WITH EPISODIC HEADACHE. DNA METHYLATION WAS QUANTIFIED AT 485,000 CPG SITES, AND CHANGES IN METHYLATION LEVEL AT THESE SITES WERE COMPARED BETWEEN CASES AND CONTROLS BY LINEAR REGRESSION ANALYSIS. DATA WERE ANALYZED IN TWO STAGES (STAGES 1 AND 2) AND IN A COMBINED META-ANALYSIS. RESULTS NONE OF THE TOP 20 CPG SITES IDENTIFIED IN STAGE 1 REPLICATED IN STAGE 2 AFTER MULTIPLE TESTING CORRECTION. IN THE COMBINED META-ANALYSIS THE STRONGEST ASSOCIATED CPG SITES WERE RELATED TO SH2D5 AND NPTX2, TWO BRAIN-EXPRESSED GENES INVOLVED IN THE REGULATION OF SYNAPTIC PLASTICITY. FUNCTIONAL ENRICHMENT ANALYSIS POINTED TO PROCESSES INCLUDING CALCIUM ION BINDING AND ESTROGEN RECEPTOR PATHWAYS. CONCLUSION IN THIS FIRST GENOME-WIDE STUDY OF DNA METHYLATION IN HEADACHE CHRONIFICATION SEVERAL POTENTIALLY IMPLICATED LOCI AND PROCESSES WERE IDENTIFIED. THE STUDY EXEMPLIFIES THE USE OF PROSPECTIVELY COLLECTED POPULATION COHORTS TO SEARCH FOR EPIGENETIC MECHANISMS OF DISEASE.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     
10  3063  48 GENOME-WIDE DNA METHYLATION AND LONG-TERM AMBIENT AIR POLLUTION EXPOSURE IN KOREAN ADULTS. BACKGROUND: AMBIENT AIR POLLUTION IS ASSOCIATED WITH NUMEROUS ADVERSE HEALTH OUTCOMES, BUT THE UNDERLYING MECHANISMS ARE NOT WELL UNDERSTOOD; EPIGENETIC EFFECTS INCLUDING ALTERED DNA METHYLATION COULD PLAY A ROLE. TO EVALUATE ASSOCIATIONS OF LONG-TERM AIR POLLUTION EXPOSURE WITH DNA METHYLATION IN BLOOD, WE CONDUCTED AN EPIGENOME-WIDE ASSOCIATION STUDY IN A KOREAN CHRONIC OBSTRUCTIVE PULMONARY DISEASE COHORT (N = 100 INCLUDING 60 CASES) USING ILLUMINA'S INFINIUM HUMANMETHYLATION450K BEADCHIP. ANNUAL AVERAGE CONCENTRATIONS OF PARTICULATE MATTER </= 10 MUM IN DIAMETER (PM(10)) AND NITROGEN DIOXIDE (NO(2)) WERE ESTIMATED AT PARTICIPANTS' RESIDENTIAL ADDRESSES USING EXPOSURE PREDICTION MODELS. WE USED ROBUST LINEAR REGRESSION TO IDENTIFY DIFFERENTIALLY METHYLATED PROBES (DMPS) AND TWO DIFFERENT APPROACHES, DMRCATE AND COMB-P, TO IDENTIFY DIFFERENTIALLY METHYLATED REGIONS (DMRS). RESULTS: AFTER MULTIPLE TESTING CORRECTION (FALSE DISCOVERY RATE < 0.05), THERE WERE 12 DMPS AND 27 DMRS ASSOCIATED WITH PM(10) AND 45 DMPS AND 57 DMRS RELATED TO NO(2). DMP CG06992688 (OTUB2) AND SEVERAL DMRS WERE ASSOCIATED WITH BOTH EXPOSURES. ELEVEN DMPS IN RELATION TO NO(2) CONFIRMED PREVIOUS FINDINGS IN EUROPEANS; THE REMAINDER WERE NOVEL. METHYLATION LEVELS OF 39 DMPS WERE ASSOCIATED WITH EXPRESSION LEVELS OF NEARBY GENES IN A SEPARATE DATASET OF 3075 INDIVIDUALS. ENRICHED NETWORKS WERE RELATED TO OUTCOMES ASSOCIATED WITH AIR POLLUTION INCLUDING CARDIOVASCULAR AND RESPIRATORY DISEASES AS WELL AS INFLAMMATORY AND IMMUNE RESPONSES. CONCLUSIONS: THIS STUDY PROVIDES EVIDENCE THAT LONG-TERM AMBIENT AIR POLLUTION EXPOSURE IMPACTS DNA METHYLATION. THE DIFFERENTIAL METHYLATION SIGNALS CAN SERVE AS POTENTIAL AIR POLLUTION BIOMARKERS. THESE RESULTS MAY HELP BETTER UNDERSTAND THE INFLUENCES OF AMBIENT AIR POLLUTION ON HUMAN HEALTH.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
11  2418  38 EPIGENETIC SIGNATURE OF CHRONIC LOW BACK PAIN IN HUMAN T CELLS. OBJECTIVE: DETERMINE IF CHRONIC LOW BACK PAIN (LBP) IS ASSOCIATED WITH DNA METHYLATION SIGNATURES IN HUMAN T CELLS THAT WILL REVEAL NOVEL MECHANISMS AND POTENTIAL THERAPEUTIC TARGETS AND EXPLORE THE FEASIBILITY OF EPIGENETIC DIAGNOSTIC MARKERS FOR PAIN-RELATED PATHOPHYSIOLOGY. METHODS: GENOME-WIDE DNA METHYLATION ANALYSIS OF 850,000 CPG SITES IN WOMEN AND MEN WITH CHRONIC LBP AND PAIN-FREE CONTROLS WAS PERFORMED. T CELLS WERE ISOLATED (DISCOVERY COHORT, N = 32) AND USED TO IDENTIFY DIFFERENTIALLY METHYLATED CPG SITES, AND GENE ONTOLOGIES AND MOLECULAR PATHWAYS WERE IDENTIFIED. A POLYGENIC DNA METHYLATION SCORE FOR LBP WAS GENERATED IN BOTH WOMEN AND MEN. VALIDATION WAS PERFORMED IN AN INDEPENDENT COHORT (VALIDATION COHORT, N = 63) OF CHRONIC LBP AND HEALTHY CONTROLS. RESULTS: ANALYSIS WITH THE DISCOVERY COHORT REVEALED A TOTAL OF 2,496 AND 419 DIFFERENTIALLY METHYLATED CPGS IN WOMEN AND MEN, RESPECTIVELY. IN WOMEN, MOST OF THESE SITES WERE HYPOMETHYLATED AND ENRICHED IN GENES WITH FUNCTIONS IN THE EXTRACELLULAR MATRIX, IN THE IMMUNE SYSTEM (IE, CYTOKINES), OR IN EPIGENETIC PROCESSES. IN MEN, A UNIQUE CHRONIC LBP DNA METHYLATION SIGNATURE WAS IDENTIFIED CHARACTERIZED BY SIGNIFICANT ENRICHMENT FOR GENES FROM THE MAJOR HISTOCOMPATIBILITY COMPLEX. SEX-SPECIFIC POLYGENIC DNA METHYLATION SCORES WERE GENERATED TO ESTIMATE THE PAIN STATUS OF EACH INDIVIDUAL AND CONFIRMED IN THE VALIDATION COHORT USING PYROSEQUENCING. CONCLUSION: THIS STUDY REVEALS SEX-SPECIFIC DNA METHYLATION SIGNATURES IN HUMAN T CELLS THAT DISCRIMINATES CHRONIC LBP PARTICIPANTS FROM HEALTHY CONTROLS.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
12  2632  45 EPIGENOME-WIDE DNA METHYLATION AND PESTICIDE USE IN THE AGRICULTURAL LUNG HEALTH STUDY. BACKGROUND: PESTICIDE EXPOSURE IS ASSOCIATED WITH MANY LONG-TERM HEALTH OUTCOMES; THE POTENTIAL UNDERLYING MECHANISMS ARE NOT WELL ESTABLISHED FOR MOST ASSOCIATIONS. EPIGENETIC MODIFICATIONS, SUCH AS DNA METHYLATION, MAY CONTRIBUTE. INDIVIDUAL PESTICIDES MAY BE ASSOCIATED WITH SPECIFIC DNA METHYLATION PATTERNS BUT NO EPIGENOME-WIDE ASSOCIATION STUDY (EWAS) HAS EVALUATED METHYLATION IN RELATION TO INDIVIDUAL PESTICIDES. OBJECTIVES: WE CONDUCTED AN EWAS OF DNA METHYLATION IN RELATION TO SEVERAL PESTICIDE ACTIVE INGREDIENTS. METHODS: THE AGRICULTURAL LUNG HEALTH STUDY IS A CASE-CONTROL STUDY OF ASTHMA, NESTED WITHIN THE AGRICULTURAL HEALTH STUDY. WE ANALYZED BLOOD DNA METHYLATION MEASURED USING ILLUMINA'S EPIC ARRAY IN 1,170 MALE FARMERS OF EUROPEAN ANCESTRY. FOR PESTICIDES STILL ON THE MARKET AT BLOOD COLLECTION (2009-2013), WE EVALUATED NINE ACTIVE INGREDIENTS FOR WHICH AT LEAST 30 PARTICIPANTS REPORTED PAST AND CURRENT (WITHIN THE LAST 12 MONTHS) USE, AS WELL AS SEVEN BANNED ORGANOCHLORINES WITH AT LEAST 30 PARTICIPANTS REPORTING PAST USE. WE USED ROBUST LINEAR REGRESSION TO COMPARE METHYLATION AT INDIVIDUAL C-PHOSPHATE-G SITES (CPGS) AMONG USERS OF A SPECIFIC PESTICIDE TO NEVER USERS. RESULTS: USING FAMILY-WISE ERROR RATE (P < 9 X 10-8) OR FALSE-DISCOVERY RATE (FDR < 0.05), WE IDENTIFIED 162 DIFFERENTIALLY METHYLATED CPGS ACROSS 8 OF 9 CURRENTLY MARKETED ACTIVE INGREDIENTS (ACETOCHLOR, ATRAZINE, DICAMBA, GLYPHOSATE, MALATHION, METOLACHLOR, MESOTRIONE, AND PICLORAM) AND ONE BANNED ORGANOCHLORINE (HEPTACHLOR). DIFFERENTIALLY METHYLATED CPGS WERE UNIQUE TO EACH ACTIVE INGREDIENT, AND A DOSE-RESPONSE RELATIONSHIP WITH LIFETIME DAYS OF USE WAS OBSERVED FOR MOST. SIGNIFICANT CPGS WERE ENRICHED FOR TRANSCRIPTION MOTIFS AND 28% OF CPGS WERE ASSOCIATED WITH WHOLE BLOOD CIS-GENE EXPRESSION, SUPPORTING FUNCTIONAL EFFECTS OF FINDINGS. WE CORROBORATED A PREVIOUSLY REPORTED ASSOCIATION BETWEEN DICHLORODIPHENYLTRICHLOROETHANE (BANNED IN THE UNITED STATES IN 1972) AND EPIGENETIC AGE ACCELERATION. DISCUSSION: WE IDENTIFIED DIFFERENTIAL METHYLATION FOR SEVERAL ACTIVE INGREDIENTS IN MALE FARMERS OF EUROPEAN ANCESTRY. THESE MAY SERVE AS BIOMARKERS OF CHRONIC EXPOSURE AND COULD INFORM MECHANISMS OF LONG-TERM HEALTH OUTCOMES FROM PESTICIDE EXPOSURE. HTTPS://DOI.ORG/10.1289/EHP8928.	2021	
         
13  1580  42 DNA METHYLATION PROFILES ARE ASSOCIATED WITH COMPLEX REGIONAL PAIN SYNDROME AFTER TRAUMATIC INJURY. FACTORS CONTRIBUTING TO DEVELOPMENT OF COMPLEX REGIONAL PAIN SYNDROME (CRPS) ARE NOT FULLY UNDERSTOOD. THIS STUDY EXAMINED POSSIBLE EPIGENETIC MECHANISMS THAT MAY CONTRIBUTE TO CRPS AFTER TRAUMATIC INJURY. DNA METHYLATION PROFILES WERE COMPARED BETWEEN INDIVIDUALS DEVELOPING CRPS (N = 9) AND THOSE DEVELOPING NON-CRPS NEUROPATHIC PAIN (N = 38) AFTER UNDERGOING AMPUTATION FOLLOWING MILITARY TRAUMA. LINEAR MODELS FOR MICROARRAY (LIMMA) ANALYSES REVEALED 48 DIFFERENTIALLY METHYLATED CYTOSINE-PHOSPHATE-GUANINE DINUCLEOTIDE (CPG) SITES BETWEEN GROUPS (UNADJUSTED P'S < 0.005), WITH THE TOP GENE COL11A1 MEETING BONFERRONI-ADJUSTED P < 0.05. THE SECOND LARGEST DIFFERENTIAL METHYLATION WAS OBSERVED FOR THE HLA-DRB6 GENE, AN IMMUNE-RELATED GENE LINKED PREVIOUSLY TO CRPS IN A SMALL GENE EXPRESSION STUDY. FOR ALL BUT 7 OF THE SIGNIFICANT CPG SITES, THE CRPS GROUP WAS HYPOMETHYLATED. NUMEROUS FUNCTIONAL GENE ONTOLOGY-BIOLOGICAL PROCESS CATEGORIES WERE SIGNIFICANTLY ENRICHED (FALSE DISCOVERY RATE-ADJUSTED Q VALUE <0.15), INCLUDING MULTIPLE IMMUNE-RELATED CATEGORIES (EG, ACTIVATION OF IMMUNE RESPONSE, IMMUNE SYSTEM DEVELOPMENT, REGULATION OF IMMUNE SYSTEM PROCESSES, AND ANTIGEN PROCESSING AND PRESENTATION). DIFFERENTIALLY METHYLATED GENES WERE MORE HIGHLY CONNECTED IN HUMAN PROTEIN-PROTEIN NETWORKS THAN EXPECTED BY CHANCE (P < 0.05), SUPPORTING THE BIOLOGICAL RELEVANCE OF THE FINDINGS. RESULTS WERE VALIDATED IN AN INDEPENDENT SAMPLE LINKING A DNA BIOBANK WITH ELECTRONIC HEALTH RECORDS (N = 126 CRPS PHENOTYPE, N = 19,768 NON-CRPS CHRONIC PAIN PHENOTYPE). ANALYSES USING PREDIXCAN METHODOLOGY INDICATED DIFFERENCES IN THE GENETICALLY DETERMINED COMPONENT OF GENE EXPRESSION IN 7 OF 48 GENES IDENTIFIED IN METHYLATION ANALYSES (P'S < 0.02). RESULTS SUGGEST THAT IMMUNE- AND INFLAMMATORY-RELATED FACTORS MIGHT CONFER RISK OF DEVELOPING CRPS AFTER TRAUMATIC INJURY. VALIDATION FINDINGS DEMONSTRATE THE POTENTIAL OF USING ELECTRONIC HEALTH RECORDS LINKED TO DNA FOR GENOMIC STUDIES OF CRPS.	2019	
                                                                                                                                                                                                                                                                                                                
14   972  35 CHRONIC OBSTRUCTIVE PULMONARY DISEASE IS ASSOCIATED WITH EPIGENOME-WIDE DIFFERENTIAL METHYLATION IN BAL LUNG CELLS. DNA METHYLATION PATTERNS IN CHRONIC PULMONARY OBSTRUCTIVE DISEASE (COPD) MIGHT OFFER NEW INSIGHTS INTO DISEASE PATHOGENESIS. TO ASSESS METHYLATION PROFILES IN THE MAIN COPD TARGET ORGAN, WE PERFORMED AN EPIGENOME-WIDE ASSOCIATION STUDY ON BAL CELLS. BRONCHOSCOPIES WERE PERFORMED IN 18 SUBJECTS WITH COPD AND 15 CONTROL SUBJECTS (EX- AND CURRENT SMOKERS). DNA METHYLATION WAS MEASURED USING THE ILLUMINA METHYLATIONEPIC BEADCHIP KIT, COVERING MORE THAN 850,000 CPGS. DIFFERENTIALLY METHYLATED POSITIONS (DMPS) WERE EXAMINED FOR 1) ENRICHMENT IN PATHWAYS AND FUNCTIONAL GENE RELATIONSHIPS USING THE KYOTO ENCYCLOPEDIA OF GENES AND GENOMES AND GENE ONTOLOGY, 2) ACCELERATED AGING USING HORVATH'S EPIGENETIC CLOCK, 3) CORRELATION WITH GENE EXPRESSION, AND 4) COLOCALIZATION WITH GENETIC VARIATION. WE FOUND 1,155 BONFERRONI-SIGNIFICANT (P < 6.74 X 10(-8)) DMPS ASSOCIATED WITH COPD, MANY WITH LARGE EFFECT SIZES. FUNCTIONAL ANALYSIS IDENTIFIED BIOLOGICALLY PLAUSIBLE PATHWAYS AND GENE RELATIONSHIPS, INCLUDING ENRICHMENT FOR TRANSCRIPTION FACTOR ACTIVITY. STRONG CORRELATION WAS FOUND BETWEEN DNA METHYLATION AND CHRONOLOGICAL AGE BUT NOT BETWEEN COPD AND ACCELERATED AGING. FOR 79 UNIQUE DMPS, DNA METHYLATION CORRELATED SIGNIFICANTLY WITH GENE EXPRESSION IN BAL CELLS. THIRTY-NINE PERCENT OF DMPS WERE COLOCALIZED WITH COPD-ASSOCIATED SNPS. TO THE BEST OF OUR KNOWLEDGE, THIS IS THE FIRST EPIGENOME-WIDE ASSOCIATION STUDY OF COPD ON BAL CELLS, AND OUR ANALYSES REVEALED MANY DIFFERENTIAL METHYLATION SITES. INTEGRATION WITH MRNA DATA SHOWED A STRONG FUNCTIONAL READOUT FOR RELEVANT GENES, IDENTIFYING SITES WHERE DNA METHYLATION MIGHT DIRECTLY AFFECT EXPRESSION. ALMOST HALF OF DMPS WERE COLOCATED WITH SNPS IDENTIFIED IN PREVIOUS GENOME-WIDE ASSOCIATION STUDIES OF COPD, SUGGESTING JOINT GENETIC AND EPIGENETIC PATHWAYS RELATED TO DISEASE.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                           
15    70  37 A METHOD TO DETECT DIFFERENTIALLY METHYLATED LOCI WITH NEXT-GENERATION SEQUENCING. EPIGENETIC CHANGES, ESPECIALLY DNA METHYLATION AT CPG LOCI HAVE IMPORTANT IMPLICATIONS IN CANCER AND OTHER COMPLEX DISEASES. WITH THE DEVELOPMENT OF NEXT-GENERATION SEQUENCING (NGS), IT IS FEASIBLE TO GENERATE DATA TO INTERROGATE THE DIFFERENCE IN METHYLATION STATUS FOR GENOME-WIDE LOCI USING CASE-CONTROL DESIGN. HOWEVER, A PROPER AND EFFICIENT STATISTICAL TEST IS LACKING. THERE ARE SEVERAL CHALLENGES. FIRST, UNLIKE METHYLATION EXPERIMENTS USING MICROARRAYS, WHERE THERE IS ONE MEASURE OF METHYLATION FOR ONE INDIVIDUAL AT A PARTICULAR CPG SITE, HERE WE HAVE THE COUNTS OF METHYLATION ALLELE AND UNMETHYLATION ALLELE FOR EACH INDIVIDUAL. SECOND, DUE TO THE NATURE OF SAMPLE PREPARATION, THE MEASURED METHYLATION REFLECTS THE METHYLATION STATUS OF A MIXTURE OF CELLS INVOLVED IN SAMPLE PREPARATION. THEREFORE, THE UNDERLYING DISTRIBUTION OF THE MEASURED METHYLATION LEVEL IS UNKNOWN, AND A ROBUST TEST IS MORE DESIRABLE THAN PARAMETRIC APPROACH. THIRD, CURRENTLY NGS MEASURES METHYLATION AT OVER 2 MILLION CPG SITES. ANY STATISTICAL TESTS HAVE TO BE COMPUTATIONALLY EFFICIENT IN ORDER TO BE APPLIED TO THE NGS DATA. TAKING THESE CHALLENGES INTO ACCOUNT, WE PROPOSE A TEST FOR DIFFERENTIAL METHYLATION BASED ON CLUSTERED DATA ANALYSIS BY MODELING THE METHYLATION COUNTS. WE PERFORMED SIMULATIONS TO SHOW THAT IT IS ROBUST UNDER SEVERAL DISTRIBUTIONS FOR THE MEASURED METHYLATION LEVELS. IT HAS GOOD POWER AND IS COMPUTATIONALLY EFFICIENT. FINALLY, WE APPLY THE TEST TO OUR NGS DATA ON CHRONIC LYMPHOCYTIC LEUKEMIA. THE RESULTS INDICATE THAT IT IS A PROMISING AND PRACTICAL TEST.	2013	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
16  3412  34 HPA AXIS REGULATION AND EPIGENETIC PROGRAMMING OF IMMUNE-RELATED GENES IN CHRONICALLY STRESSED AND NON-STRESSED MID-LIFE WOMEN. HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS DYSREGULATION HAS BEEN ASSOCIATED WITH ALTERED IMMUNE FUNCTION, BUT THE UNDERLYING MOLECULAR MECHANISMS ARE UNCLEAR. EPIGENETIC PROCESSES, INCLUDING DNA METHYLATION, RESPOND TO THE GLUCOCORTICOID END-PRODUCTS OF THE HPA AXIS (CORTISOL IN HUMANS) AND COULD BE INVOLVED IN THIS NEUROENDOCRINE-IMMUNE CROSSTALK. HERE WE EXAMINED THE EXTENT TO WHICH VARIATIONS IN HPA AXIS REGULATION ARE ASSOCIATED WITH PERIPHERAL BLOOD DNA (CPG) METHYLATION CHANGES IN 57 CHRONICALLY STRESSED CAREGIVERS AND 67 CONTROL WOMEN. DNA METHYLATION WAS DETERMINED WITH THE ILLUMINA 450K ARRAY FOR A PANEL OF GENES INVOLVED IN HPA AXIS AND IMMUNE FUNCTION. HPA AXIS FEEDBACK WAS ASSESSED WITH THE LOW-DOSE DEXAMETHASONE SUPPRESSION TEST (DST), MEASURING THE EXTENT TO WHICH CORTISOL SECRETION IS SUPPRESSED BY THE SYNTHETIC GLUCOCORTICOID DEXAMETHASONE. AFTER MULTIPLE TESTING CORRECTION IN THE ENTIRE COHORT, HIGHER POST-DST CORTISOL, REFLECTING BLUNTED HPA AXIS NEGATIVE FEEDBACK, BUT NOT BASELINE WAKING CORTISOL, WAS ASSOCIATED WITH LOWER DNA METHYLATION AT EIGHT TNF AND TWO FKBP5 CPG SITES. CAREGIVER GROUP STATUS WAS ASSOCIATED WITH LOWER METHYLATION AT TWO IL6 CPG SITES. SINCE ASSOCIATIONS WERE MOST ROBUST WITH TNF METHYLATION (32% OF THE 450K-COVERED SITES), WE FURTHER EXAMINED FUNCTIONALITY OF THIS EPIGENETIC SIGNATURE IN CULTURED PERIPHERAL BLOOD MONONUCLEAR CELLS IN 33 PARTICIPANTS; INTRIGUINGLY, LOWER TNF METHYLATION RESULTED IN HIGHER EX VIVO TNF MRNA FOLLOWING IMMUNE STIMULATION. TAKEN TOGETHER, OUR FINDINGS LINK CHRONIC STRESS AND HPA AXIS REGULATION WITH EPIGENETIC SIGNATURES AT IMMUNE-RELATED GENES, THEREBY PROVIDING NOVEL INSIGHTS INTO HOW ABERRANT HPA AXIS FUNCTION MAY CONTRIBUTE TO HEIGHTENED INFLAMMATION AND DISEASE RISK.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
17  3487  38 IDENTIFICATION OF DIFFERENTIALLY METHYLATED SITES WITH WEAK METHYLATION EFFECTS. DEOXYRIBONUCLEIC ACID (DNA) METHYLATION IS AN EPIGENETIC ALTERATION CRUCIAL FOR REGULATING STRESS RESPONSES. IDENTIFYING LARGE-SCALE DNA METHYLATION AT SINGLE NUCLEOTIDE RESOLUTION IS MADE POSSIBLE BY WHOLE GENOME BISULFITE SEQUENCING. AN ESSENTIAL TASK FOLLOWING THE GENERATION OF BISULFITE SEQUENCING DATA IS TO DETECT DIFFERENTIALLY METHYLATED CYTOSINES (DMCS) AMONG TREATMENTS. MOST STATISTICAL METHODS FOR DMC DETECTION DO NOT CONSIDER THE DEPENDENCY OF METHYLATION PATTERNS ACROSS THE GENOME, THUS POSSIBLY INFLATING TYPE I ERROR. FURTHERMORE, SMALL SAMPLE SIZES AND WEAK METHYLATION EFFECTS AMONG DIFFERENT PHENOTYPE CATEGORIES MAKE IT DIFFICULT FOR THESE STATISTICAL METHODS TO ACCURATELY DETECT DMCS. TO ADDRESS THESE ISSUES, THE WAVELET-BASED FUNCTIONAL MIXED MODEL (WFMM) WAS INTRODUCED TO DETECT DMCS. TO FURTHER EXAMINE THE PERFORMANCE OF WFMM IN DETECTING WEAK DIFFERENTIAL METHYLATION EVENTS, WE USED BOTH SIMULATED AND EMPIRICAL DATA AND COMPARE WFMM PERFORMANCE TO A POPULAR DMC DETECTION TOOL METHYLKIT. ANALYSES OF SIMULATED DATA THAT REPLICATED THE EFFECTS OF THE HERBICIDE GLYPHOSATE ON DNA METHYLATION IN ARABIDOPSIS THALIANA SHOW THAT WFMM RESULTS IN HIGHER SENSITIVITY AND SPECIFICITY IN DETECTING DMCS COMPARED TO METHYLKIT, ESPECIALLY WHEN THE METHYLATION DIFFERENCES AMONG PHENOTYPE GROUPS ARE SMALL. MOREOVER, THE PERFORMANCE OF WFMM IS ROBUST WITH RESPECT TO SMALL SAMPLE SIZES, MAKING IT PARTICULARLY ATTRACTIVE CONSIDERING THE CURRENT HIGH COSTS OF BISULFITE SEQUENCING. ANALYSIS OF EMPIRICAL ARABIDOPSIS THALIANA DATA UNDER VARYING GLYPHOSATE DOSAGES, AND THE ANALYSIS OF MONOZYGOTIC (MZ) TWINS WHO HAVE DIFFERENT PAIN SENSITIVITIES-BOTH DATASETS HAVE WEAK METHYLATION EFFECTS OF <1%-SHOW THAT WFMM CAN IDENTIFY MORE RELEVANT DMCS RELATED TO THE PHENOTYPE OF INTEREST THAN METHYLKIT. DIFFERENTIALLY METHYLATED REGIONS (DMRS) ARE GENOMIC REGIONS WITH DIFFERENT DNA METHYLATION STATUS ACROSS BIOLOGICAL SAMPLES. DMRS AND DMCS ARE ESSENTIALLY THE SAME CONCEPTS, WITH THE ONLY DIFFERENCE BEING HOW METHYLATION INFORMATION ACROSS THE GENOME IS SUMMARIZED. IF METHYLATION LEVELS ARE DETERMINED BY GROUPING NEIGHBORING CYTOSINE SITES, THEN THEY ARE DMRS; IF METHYLATION LEVELS ARE CALCULATED BASED ON SINGLE CYTOSINES, THEY ARE DMCS.	2018	
                                                           
18   304  38 AIRWAY AGING AND METHYLATION DISRUPTIONS IN HIV-ASSOCIATED CHRONIC OBSTRUCTIVE PULMONARY DISEASE. RATIONALE: AGE-RELATED DISEASES LIKE CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) OCCUR AT HIGHER RATES IN PEOPLE LIVING WITH HUMAN IMMUNODEFICIENCY VIRUS (PLWH) THAN IN UNINFECTED POPULATIONS. OBJECTIVES: TO IDENTIFY WHETHER ACCELERATED AGING CAN BE OBSERVED IN THE AIRWAYS OF PLWH WITH COPD, MANIFEST BY A UNIQUE DNA METHYLATION SIGNATURE. METHODS: BRONCHIAL EPITHELIAL BRUSHINGS FROM PLWH WITH AND WITHOUT COPD AND HIV-UNINFECTED ADULTS WITH AND WITHOUT COPD (N = 76) WERE PROFILED FOR DNA METHYLATION AND GENE EXPRESSION. WE EVALUATED GLOBAL ALU AND LINE-1 METHYLATION AND CALCULATED THE EPIGENETIC AGE USING THE HORVATH CLOCK AND THE METHYLATION TELOMERE LENGTH ESTIMATOR. TO IDENTIFY GENOME-WIDE DIFFERENTIAL DNA METHYLATION AND GENE EXPRESSION ASSOCIATED WITH HIV AND COPD, ROBUST LINEAR MODELS WERE USED FOLLOWED BY AN EXPRESSION QUANTITATIVE TRAIT METHYLATION (EQTM) ANALYSIS. MEASUREMENTS AND MAIN RESULTS: EPIGENETIC AGE ACCELERATION AND SHORTER METHYLATION ESTIMATES OF TELOMERE LENGTH WERE FOUND IN PLWH WITH COPD COMPARED WITH PLWH WITHOUT COPD AND UNINFECTED PATIENTS WITH AND WITHOUT COPD. GLOBAL HYPOMETHYLATION WAS IDENTIFIED IN PLWH. WE IDENTIFIED 7,970 CYTOSINE BASES LOCATED NEXT TO A GUANINE BASE (CPG SITES), 293 GENES, AND 9 EXPRESSION QUANTITATIVE TRAIT METHYLATION-GENE PAIRS ASSOCIATED WITH THE INTERACTION BETWEEN HIV AND COPD. ACTIN BINDING LIM PROTEIN FAMILY MEMBER 3 (ABLIM3) WAS ONE OF THE NOVEL CANDIDATE GENES FOR HIV-ASSOCIATED COPD HIGHLIGHTED BY OUR ANALYSIS. CONCLUSIONS: METHYLATION AGE ACCELERATION IS OBSERVED IN THE AIRWAY EPITHELIUM OF PLWH WITH COPD, A PROCESS THAT MAY BE RESPONSIBLE FOR THE HEIGHTENED RISK OF COPD IN THIS POPULATION. THEIR DISTINCT METHYLATION PROFILE, DIFFERING FROM THAT OBSERVED IN PATIENTS WITH COPD ALONE, SUGGESTS A UNIQUE PATHOGENESIS TO HIV-ASSOCIATED COPD. THE ASSOCIATIONS WARRANT FURTHER INVESTIGATION TO ESTABLISH CAUSALITY.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                
19   490  45 ASSESSING THE IMPACT OF ARSENIC METABOLISM EFFICIENCY ON DNA METHYLATION USING MENDELIAN RANDOMIZATION. BACKGROUND: ARSENIC EXPOSURE AFFECTS >100 MILLION PEOPLE GLOBALLY AND INCREASES RISK FOR CHRONIC DISEASES. ONE POSSIBLE TOXICITY MECHANISM IS EPIGENETIC MODIFICATION. PREVIOUS EPIGENOME-WIDE ASSOCIATION STUDIES (EWAS) HAVE IDENTIFIED ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND CPG-SPECIFIC DNA METHYLATION. TO PROVIDE ADDITIONAL EVIDENCE THAT OBSERVED ASSOCIATIONS REPRESENT CAUSAL RELATIONSHIPS, WE EXAMINE THE ASSOCIATION BETWEEN GENETIC DETERMINANTS OF ARSENIC METABOLISM EFFICIENCY (PERCENT DIMETHYLARSINIC ACID, DMA%, IN URINE) AND DNA METHYLATION AMONG INDIVIDUALS FROM THE HEALTH EFFECTS OF ARSENIC LONGITUDINAL STUDY (N = 379) AND BANGLADESH VITAMIN E AND SELENIUM TRIAL (N = 393). METHODS: WE USED MULTIVARIATE LINEAR MODELS TO ASSESS THE ASSOCIATION OF METHYLATION AT 221 ARSENIC-ASSOCIATED CPGS WITH DMA% AND MEASURES OF GENETICALLY PREDICTED DMA% DERIVED FROM THREE SNPS (RS9527, RS11191527, AND RS61735836). WE ALSO CONDUCTED TWO-SAMPLE MENDELIAN RANDOMIZATION ANALYSES TO ESTIMATE THE ASSOCIATION BETWEEN ARSENIC METABOLISM EFFICIENCY AND CPG METHYLATION. RESULTS: AMONG THE ASSOCIATIONS BETWEEN DMA% AND METHYLATION AT EACH OF 221 CPGS, 64% WERE DIRECTIONALLY CONSISTENT WITH ASSOCIATIONS OBSERVED BETWEEN ARSENIC EXPOSURE AND THE 221 CPGS FROM A PRIOR EWAS. SIMILARLY, AMONG THE ASSOCIATIONS BETWEEN GENETICALLY PREDICTED DMA% AND EACH CPG, 62% WERE DIRECTIONALLY CONSISTENT WITH THE PRIOR EWAS RESULTS. TWO-SAMPLE MENDELIAN RANDOMIZATION ANALYSES PRODUCED SIMILAR CONCLUSIONS. CONCLUSION: OUR FINDINGS SUPPORT THE HYPOTHESIS THAT ARSENIC EXPOSURE EFFECTS DNA METHYLATION AT SPECIFIC CPGS IN WHOLE BLOOD. OUR NOVEL APPROACH FOR ASSESSING THE IMPACT OF ARSENIC EXPOSURE ON DNA METHYLATION REQUIRES LARGER SAMPLES IN ORDER TO DRAW MORE ROBUST CONCLUSIONS FOR SPECIFIC CPG SITES.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                       
20  3557  43 IMPACT OF BMI AND WAIST CIRCUMFERENCE ON EPIGENOME-WIDE DNA METHYLATION AND IDENTIFICATION OF EPIGENETIC BIOMARKERS IN BLOOD: AN EWAS IN MULTI-ETHNIC ASIAN INDIVIDUALS. BACKGROUND: THE PREVALENCE OF OBESITY AND ITS RELATED CHRONIC DISEASES HAVE BEEN INCREASING ESPECIALLY IN ASIAN COUNTRIES. OBESITY-RELATED GENETIC VARIANTS HAVE BEEN IDENTIFIED, BUT THESE EXPLAIN LITTLE OF THE VARIATION IN BMI. RECENT STUDIES REPORTED ASSOCIATIONS BETWEEN DNA METHYLATION AND OBESITY, MOSTLY IN NON-ASIAN POPULATIONS. METHODS: WE PERFORMED AN EPIGENOME-WIDE ASSOCIATION STUDY (EWAS) ON GENERAL ADIPOSITY (BODY MASS INDEX, BMI) AND ABDOMINAL ADIPOSITY (WAIST CIRCUMFERENCE, WC) IN 409 MULTI-ETHNIC ASIAN INDIVIDUALS AND REPLICATED BMI AND WAIST-ASSOCIATED DNA METHYLATION CPGS IDENTIFIED IN OTHER POPULATIONS. THE CROSS-LAGGED PANEL MODEL AND MENDELIAN RANDOMIZATION WERE USED TO ASSESS THE TEMPORAL RELATIONSHIP BETWEEN METHYLATION AND BMI. THE TEMPORAL RELATIONSHIP BETWEEN THE IDENTIFIED CPGS AND INFLAMMATION AND METABOLIC MARKERS WAS ALSO EXAMINED. RESULTS: EWAS IDENTIFIED 116 DNA METHYLATION CPGS INDEPENDENTLY ASSOCIATED WITH BMI AND EIGHT INDEPENDENTLY ASSOCIATED WITH WC AT FALSE DISCOVERY RATE P(FDR) < 0.05 IN 409 ASIAN SAMPLES. WE REPLICATED 110 BMI-ASSOCIATED CPGS PREVIOUSLY REPORTED IN EUROPEANS AND IDENTIFIED SIX NOVEL BMI-ASSOCIATED CPGS AND TWO NOVEL WC-ASSOCIATED CPGS. WE OBSERVED HIGH CONSISTENCY IN ASSOCIATION DIRECTION OF EFFECT COMPARED TO STUDIES IN OTHER POPULATIONS. CAUSAL RELATIONSHIP ANALYSES INDICATED THAT BMI WAS MORE LIKELY TO BE THE CAUSE OF DNA METHYLATION ALTERATION, RATHER THAN THE CONSEQUENCE. THE CAUSAL ANALYSES USING BMI-ASSOCIATED METHYLATION RISK SCORE ALSO SUGGESTED THAT HIGHER LEVELS OF THE INFLAMMATION MARKER IL-6 WERE LIKELY THE CONSEQUENCE OF METHYLATION CHANGE. CONCLUSION: OUR STUDY PROVIDES EVIDENCE OF AN ASSOCIATION BETWEEN OBESITY AND DNA METHYLATION IN MULTI-ETHNIC ASIANS AND SUGGESTS THAT OBESITY CAN DRIVE METHYLATION CHANGE. THE RESULTS ALSO SUGGESTED POSSIBLE CAUSAL INFLUENCE THAT OBESITY-RELATED METHYLATION CHANGES MIGHT HAVE ON INFLAMMATION AND LIPOPROTEIN LEVELS.	2021