1  4267 126 MICROARRAY DATASET OF TRANSIENT AND PERMANENT DNA METHYLATION CHANGES IN HELA CELLS UNDERGOING INORGANIC ARSENIC-MEDIATED EPITHELIAL-TO-MESENCHYMAL TRANSITION. THE NOVEL DATASET PRESENTED HERE REPRESENTS THE RESULTS OF THE CHANGING PATTERN OF DNA METHYLATION PROFILES IN HELA CELLS EXPOSED TO CHRONIC LOW DOSE (0.5 MICROM) SODIUM ARSENITE, RESULTING IN EPITHELIAL-TO-MESENCHYMAL TRANSITION, AS WELL AS DNA METHYLATION PATTERNS IN CELLS WHERE INORGANIC ARSENIC HAS BEEN REMOVED. INORGANIC ARSENIC IS A KNOWN CARCINOGEN, THOUGH NOT MUTAGENIC. SEVERAL MECHANISMS HAVE BEEN PROPOSED AS TO HOW INORGANIC ARSENIC DRIVES CARCINOGENESIS SUCH AS REGULATION OF THE CELL?S REDOX POTENTIAL AND/OR EPIGENETICS. IN FACT, THERE ARE GENE SPECIFIC STUDIES AND LIMITED GENOME-WIDE STUDIES THAT HAVE IMPLICATED EPIGENETIC FACTORS SUCH AS DNA METHYLATION IN INORGANIC ARSENIC-MEDIATED EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT). HOWEVER, GENOME-WIDE STUDIES ABOUT THE IMPACT OF 1) CHRONIC, LOW-DOSE INORGANIC ARSENIC EXPOSURE ON DNA METHYLATION PATTERNS DURING INORGANIC ARSENIC-INDUCED EPITHELIAL-TO-MESENCHYMAL TRANSITION, AND 2) THE REMOVAL INORGANIC ARSENIC (REVERSAL) ON DNA METHYLATION PATTERNS, IS LACKING. FOR THIS DATASET, TWO REPLICATES WERE PERFORMED WITH EACH OF THE SAMPLES - NON-TREATED, INORGANIC ARSENIC-TREATED, AND REVERSE-TREATED CELLS. WE PROVIDE NORMALIZED AND PROCESSED DATA, AND LOG2 FOLD CHANGE IN DNA METHYLATION. THE RAW MICROARRAY DATA ARE AVAILABLE THROUGH NCBI GEO, ACCESSION NUMBER GSE95232 AND A RELATED RESEARCH PAPER HAS BEEN ACCEPTED FOR PUBLISHED IN TOXICOLOGY AND APPLIED PHARMACOLOGY (ECKSTEIN ET AL., 2017) [1].	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
2  6562  51 TRANSIENT AND PERMANENT CHANGES IN DNA METHYLATION PATTERNS IN INORGANIC ARSENIC-MEDIATED EPITHELIAL-TO-MESENCHYMAL TRANSITION. CHRONIC LOW DOSE INORGANIC ARSENIC EXPOSURE CAUSES CELLS TO TAKE ON AN EPITHELIAL-TO-MESENCHYMAL PHENOTYPE, WHICH IS A CRUCIAL PROCESS IN CARCINOGENESIS. INORGANIC ARSENIC IS NOT A MUTAGEN AND THUS EPIGENETIC ALTERATIONS HAVE BEEN IMPLICATED IN THIS PROCESS. INDEED, DURING THE EPITHELIAL-TO-MESENCHYMAL TRANSITION, MORPHOLOGIC CHANGES TO CELLS CORRELATE WITH CHANGES IN CHROMATIN STRUCTURE AND GENE EXPRESSION, ULTIMATELY DRIVING THIS PROCESS. HOWEVER, STUDIES ON THE EFFECTS OF INORGANIC ARSENIC EXPOSURE/WITHDRAWAL ON THE EPITHELIAL-TO-MESENCHYMAL TRANSITION AND THE IMPACT OF EPIGENETIC ALTERATIONS IN THIS PROCESS ARE LIMITED. IN THIS STUDY WE USED HIGH-RESOLUTION MICROARRAY ANALYSIS TO MEASURE THE CHANGES IN DNA METHYLATION IN CELLS UNDERGOING INORGANIC ARSENIC-INDUCED EPITHELIAL-TO-MESENCHYMAL TRANSITION, AND ON THE REVERSAL OF THIS PROCESS, AFTER REMOVAL OF THE INORGANIC ARSENIC EXPOSURE. WE FOUND THAT CELLS EXPOSED TO CHRONIC, LOW-DOSE INORGANIC ARSENIC EXPOSURE SHOWED 30,530 SITES WERE DIFFERENTIALLY METHYLATED, AND WITH INORGANIC ARSENIC WITHDRAWAL SEVERAL DIFFERENTIAL METHYLATED SITES WERE REVERSED, ALBEIT NOT COMPLETELY. FURTHERMORE, THESE CHANGES IN DNA METHYLATION MAINLY CORRELATED WITH CHANGES IN GENE EXPRESSION AT MOST SITES TESTED BUT NOT AT ALL. THIS STUDY SUGGESTS THAT DNA METHYLATION CHANGES ON GENE EXPRESSION ARE NOT CLEAR-CUT AND PROVIDE A PLATFORM TO BEGIN TO UNCOVER THE RELATIONSHIP BETWEEN DNA METHYLATION AND GENE EXPRESSION, SPECIFICALLY WITHIN THE CONTEXT OF INORGANIC ARSENIC TREATMENT.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                
3  1140  26 CONCENTRATION OF FOLIC ACID (FA) IN SERUM OF JAPANESE PREGNANT WOMEN. OBJECTIVES EXPOSURE TO INORGANIC ARSENIC (IAS) IS A WORLD-WIDE HEALTH CONCERN. WE REPORTED THAT JAPANESE CHILDREN AND PREGNANT WOMEN ARE EXPOSED TO MODERATE LEVELS OF IAS THROUGH FOOD. REDUCING IAS CONTAMINATION FROM FOODS OF HIGH IAS IS AN IMPORTANT ISSUE UNIQUE IN JAPAN. INTEGRATED IAS IS METHYLATED TO LESS TOXIC ORGANIC FORMS, AND S-ADENOSYL-L-METHYONINE (SAM), A COMMON METHYL-DONOR OF DNA AND HISTONES, IS UTILIZED IN THIS PROCESS. CHRONIC CONSUMPTION OF SAM BY IAS METABOLISM DUE TO EXPOSURE TO IAS MIGHT ALTER THE EPIGENETIC MODIFICATION OF GENOME. THE SAM BIOSYNTHESIS PATHWAY IS DEPENDENT ON FOLATE CYCLE, AND IT IS POSSIBLE THAT INGESTION OF SUFFICIENT FOLIC ACID (FA) IS PROTECTIVE TO IAS INDUCED TOXICITY. METHODS IN THE COURSE OF OUR CROSS-SECTIONAL BODY BURDEN ANALYSES OF PB AND IAS IN JAPANESE CHILDREN AND PREGNANT WOMEN, TERMED "PBAS STUDY", FA CONCENTRATION IN SERUM OF 104 PREGNANT WOMEN WAS MEASURED. RESULTS MEAN (+/-SEM) OF SERUM FA CONCENTRATION WAS 15.8 +/- 1.3 (NG/ML). THERE ARE SIGNIFICANT NUMBER OF PEOPLE SHOWING VERY HIGH FA (>30 NG/ ML), AND LARGE FRACTION OF THEM WERE TAKING SUPPLEMENTS DAILY. CONCLUSIONS THESE RESULTS SUGGESTED THAT LEVEL OF FA INGESTION OF JAPANESE PREGNANT WOMEN IS HIGH FOR SUPPORTING NORMAL FETAL DEVELOPMENT.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                 
4  1470  34 DISTINCT GENE EXPRESSION PROFILES IN IMMORTALIZED HUMAN UROTHELIAL CELLS EXPOSED TO INORGANIC ARSENITE AND ITS METHYLATED TRIVALENT METABOLITES. INORGANIC ARSENIC IS AN ENVIRONMENTAL CARCINOGEN. THE GENERATION OF TOXIC TRIVALENT METHYLATED METABOLITES COMPLICATES THE STUDY OF ARSENIC-MEDIATED CARCINOGENESIS. THIS STUDY SYSTEMATICALLY EVALUATED THE EFFECT OF CHRONIC TREATMENT WITH SODIUM ARSENITE (IAS(III)), MONOMETHYLARSONOUS ACID (MMA(III)), AND DIMETHYLARSINOUS ACID (DMA(III)) ON IMMORTALIZED HUMAN UROEPITHELIAL CELLS (SV-HUC-1 CELLS) USING CDNA MICROARRAY. AFTER EXPOSURE FOR 25 PASSAGES TO IAS(III) (0.5 MICROM), MMA(III) (0.05, 0.1, OR 0.2 MICROM), OR DMA(III) (0.2 OR 0.5 MICROM), SIGNIFICANT COMPOUND-SPECIFIC MORPHOLOGIC CHANGES WERE OBSERVED. A SET OF 114 GENES (5.7% OF THE EXAMINED GENES) WAS DIFFERENTIALLY EXPRESSED IN ONE OR MORE SETS OF ARSENICAL-TREATED CELLS COMPARED WITH UNTREATED CONTROLS. EXPRESSION ANALYSIS SHOWED THAT EXPOSURE OF CELLS TO DMA(III) RESULTED IN A GENE PROFILE DIFFERENT FROM THAT IN CELLS EXPOSED TO IAS(III) OR MMA(III), AND THAT THE IAS(III)-INDUCED GENE PROFILE WAS CLOSEST TO THAT IN THE TUMORIGENIC HUC-1-DERIVED 3-METHYLCHOLANTHRENE-INDUCED TUMORIGENIC CELL LINE MC-SV-HUC T2, WHICH WAS DERIVED FROM SV-HUC-1 CELLS BY METHYLCHOLANTHRENE TREATMENT. OF THE GENES AFFECTED BY ALL THREE ARSENICALS, ONLY ONE, THAT CODING FOR INTERLEUKIN-1 RECEPTOR, TYPE II, SHOWED ENHANCED EXPRESSION, A FINDING CONFIRMED BY THE REDUCED INCREASE IN NF-KAPPAB (NUCLEAR FACTOR KAPPA B) ACTIVITY SEEN IN RESPONSE TO INTERLEUKIN-1BETA IN IAS(III)-EXPOSED CELLS. THE EXPRESSION OF 11 GENES WAS SUPPRESSED BY ALL THREE ARSENICALS. 5-AZA-DEOXYCYTIDINE PARTIALLY RESTORED THE TRANSCRIPTION OF SEVERAL SUPPRESSED GENES, SHOWING THAT EPIGENETIC DNA METHYLATION WAS PROBABLY INVOLVED IN ARSENICAL-INDUCED GENE REPRESSION. OUR DATA DEMONSTRATE THAT CHRONIC EXPOSURE TO IAS(III), MMA(III), OR DMA(III) HAS DIFFERENT EPIGENETIC EFFECTS ON UROTHELIAL CELLS AND REPRESSES NF-KAPPAB ACTIVITY.	2006	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     
5   477  25 ARSENIC PROJECTS IN SE ASIA. EARLY LIFE EXPOSURE TO INORGANIC ARSENIC IS ASSOCIATED WITH A WIDE RANGE OF MALIGNANT AND CHRONIC DISEASE OUTCOMES IN HUMANS. PRENATAL ARSENIC EXPOSURE MAY GIVE RISE TO ADVERSE EFFECTS ON CHILD HEALTH AND DEVELOPMENT AS ARSENIC READILY PASSES THROUGH THE PLACENTA IN HUMAN BEINGS. THE IMPACT OF MATERNAL ARSENIC EXPOSURE ON FETAL GENE EXPRESSION WAS CONDUCTED IN PREGNANT WOMEN LIVING IN SOUTHERN THAILAND. ARSENIC EXPOSED NEWBORNS HAD SIGNIFICANTLY HIGHER LEVELS OF ARSENIC IN CORD BLOOD, AND A SET OF GENES ASSOCIATED WITH NUMEROUS BIOLOGICAL PATHWAYS, INCLUDING CELL SIGNALING, APOPTOSIS, INFLAMMATORY AND STRESS RESPONSE. A SLIGHT INCREASE IN PROMOTER METHYLATION OF P53 IN CORD BLOOD LYMPHOCYTES WHICH CORRELATED WITH ARSENIC ACCUMULATION IN NAILS WAS OBSERVED IN THESE EXPOSED NEWBORNS. A FOLLOW-UP STUDY ON THESE EXPOSED CHILDREN SHOWED A SIGNIFICANT INCREASE IN OXIDATIVE DNA DAMAGE, MEASURED AS 8-HYDROXYDEOXYGUANOSINE (8-OHDG) IN SALIVA. IN ADDITION, LEVELS OF URINARY 8-OHDG EXCRETION AND SALIVARY HOGG1 EXPRESSION WERE SIGNIFICANTLY DECREASED IN EXPOSED CHILDREN SUGGESTING A DEFECT IN REPAIR OF 8-OHDG IN ARSENIC-EXPOSED CHILDREN. OUR STUDY INDICATES THAT PRENATAL ARSENIC AND CONTINUED EXPOSURE THROUGH EARLY CHILDHOOD CAN TRIGGER VARIOUS GENETIC AND EPIGENETIC ALTERATIONS THAT MAY LEAD TO DISEASE DEVELOPMENT LATER IN LIFE.	2016	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   
6  3951  30 LOCUS-SPECIFIC DIFFERENTIAL DNA METHYLATION AND URINARY ARSENIC: AN EPIGENOME-WIDE ASSOCIATION STUDY IN BLOOD AMONG ADULTS WITH LOW-TO-MODERATE ARSENIC EXPOSURE. BACKGROUND: CHRONIC EXPOSURE TO ARSENIC (AS), A HUMAN TOXICANT AND CARCINOGEN, REMAINS A GLOBAL PUBLIC HEALTH PROBLEM. HEALTH RISKS PERSIST AFTER AS EXPOSURE HAS ENDED, SUGGESTING EPIGENETIC DYSREGULATION AS A MECHANISTIC LINK BETWEEN EXPOSURE AND HEALTH OUTCOMES. OBJECTIVES: WE INVESTIGATED THE ASSOCIATION BETWEEN TOTAL URINARY AS AND LOCUS-SPECIFIC DNA METHYLATION IN THE STRONG HEART STUDY, A COHORT OF AMERICAN INDIAN ADULTS WITH LOW-TO-MODERATE AS EXPOSURE [TOTAL URINARY AS, MEAN (+/-SD) MUG/G CREATININE: 11.7 (10.6)]. METHODS: DNA METHYLATION WAS MEASURED IN 2,325 PARTICIPANTS USING THE ILLUMINA METHYLATIONEPIC ARRAY. WE IMPLEMENTED LINEAR MODELS TO TEST DIFFERENTIALLY METHYLATED POSITIONS (DMPS) AND THE DMRCATE METHOD TO IDENTIFY REGIONS (DMRS) AND CONDUCTED GENE ONTOLOGY ENRICHMENT ANALYSIS. MODELS WERE ADJUSTED FOR ESTIMATED CELL TYPE PROPORTIONS, AGE, SEX, BODY MASS INDEX, SMOKING, EDUCATION, ESTIMATED GLOMERULAR FILTRATION RATE, AND STUDY CENTER. ARSENIC WAS MEASURED IN URINE AS THE SUM OF INORGANIC AND METHYLATED SPECIES. RESULTS: IN ADJUSTED MODELS, METHYLATION AT 20 CPGS WAS ASSOCIATED WITH URINARY AS AFTER FALSE DISCOVERY RATE (FDR) CORRECTION (FDR < 0.05). AFTER BONFERRONI CORRECTION, 5 CPGS REMAINED ASSOCIATED WITH TOTAL URINARY AS (PBONFERRONI < 0.05), LOCATED IN SLC7A11, ANKS3, LINGO3, CSNK1D, ADAMTSL4. WE IDENTIFIED ONE DMR ON CHROMOSOME 11 (CHR11:2,322,050-2,323,247), ANNOTATED TO C11ORF2; TSPAN32 GENES. DISCUSSION: THIS IS ONE OF THE FIRST EPIGENOME-WIDE ASSOCIATION STUDIES TO INVESTIGATE AS EXPOSURE AND LOCUS-SPECIFIC DNA METHYLATION USING THE ILLUMINA METHYLATIONEPIC ARRAY AND THE LARGEST EPIGENOME-WIDE STUDY OF AS EXPOSURE. THE TOP DMP WAS LOCATED IN SLC7A11A, A GENE INVOLVED IN CYSTINE/GLUTAMATE TRANSPORT AND THE BIOSYNTHESIS OF GLUTATHIONE, AN ANTIOXIDANT THAT MAY PROTECT AGAINST AS-INDUCED OXIDATIVE STRESS. ADDITIONAL DMPS WERE LOCATED IN GENES ASSOCIATED WITH TUMOR DEVELOPMENT AND GLUCOSE METABOLISM. FURTHER RESEARCH IS NEEDED, INCLUDING RESEARCH IN MORE DIVERSE POPULATIONS, TO INVESTIGATE WHETHER AS-RELATED DNA METHYLATION SIGNATURES ARE ASSOCIATED WITH GENE EXPRESSION OR MAY SERVE AS BIOMARKERS OF DISEASE DEVELOPMENT. HTTPS://DOI.ORG/10.1289/EHP6263.	2020	
                                                                                                                                                                                                                                
7  2921  32 GENE-SPECIFIC DIFFERENTIAL DNA METHYLATION AND CHRONIC ARSENIC EXPOSURE IN AN EPIGENOME-WIDE ASSOCIATION STUDY OF ADULTS IN BANGLADESH. BACKGROUND: INORGANIC ARSENIC IS ONE OF THE MOST COMMON NATURALLY OCCURRING CONTAMINANTS FOUND IN THE ENVIRONMENT. ARSENIC IS ASSOCIATED WITH A NUMBER OF HEALTH OUTCOMES, WITH EPIGENETIC MODIFICATION SUGGESTED AS A POTENTIAL MECHANISM OF TOXICITY. OBJECTIVE: AMONG A SAMPLE OF 400 ADULT PARTICIPANTS, WE EVALUATED THE ASSOCIATION BETWEEN ARSENIC EXPOSURE, AS MEASURED BY BLOOD AND URINARY TOTAL ARSENIC CONCENTRATIONS, AND EPIGENOME-WIDE WHITE BLOOD CELL DNA METHYLATION. METHODS: WE USED LINEAR REGRESSION MODELS TO EXAMINE THE ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND METHYLATION AT EACH CPG SITE, ADJUSTED FOR SEX, AGE, AND BATCH. DIFFERENTIALLY METHYLATED LOCI WERE SUBSEQUENTLY EXAMINED IN RELATION TO CORRESPONDING GENE EXPRESSION FOR FUNCTIONAL EVIDENCE OF GENE REGULATION. RESULTS: IN ADJUSTED ANALYSES, WE OBSERVED FOUR DIFFERENTIALLY METHYLATED CPG SITES WITH URINARY TOTAL ARSENIC CONCENTRATION AND THREE DIFFERENTIALLY METHYLATED CPG SITES WITH BLOOD ARSENIC CONCENTRATION, BASED ON THE BONFERRONI-CORRECTED SIGNIFICANCE THRESHOLD OF P < 1 X 10(-7). METHYLATION OF PLA2G2C (PROBE CG04605617) WAS THE MOST SIGNIFICANTLY ASSOCIATED LOCUS IN RELATION TO BOTH URINARY (P = 3.40 X 10(-11)) AND BLOOD ARSENIC CONCENTRATIONS (P = 1.48 X 10(-11)). THREE ADDITIONAL NOVEL METHYLATION LOCI-SQSTM1 (CG01225779), SLC4A4 (CG06121226), AND IGH (CG13651690)--WERE ALSO SIGNIFICANTLY ASSOCIATED WITH ARSENIC EXPOSURE. FURTHER, THERE WAS EVIDENCE OF METHYLATION-RELATED GENE REGULATION BASED ON GENE EXPRESSION FOR A SUBSET OF DIFFERENTIALLY METHYLATED LOCI. CONCLUSIONS: WE OBSERVED SIGNIFICANT ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND GENE-SPECIFIC DIFFERENTIAL WHITE BLOOD CELL DNA METHYLATION, SUGGESTING THAT EPIGENETIC MODIFICATIONS MAY BE AN IMPORTANT PATHWAY UNDERLYING ARSENIC TOXICITY. THE SPECIFIC DIFFERENTIALLY METHYLATED LOCI IDENTIFIED MAY INFORM POTENTIAL PATHWAYS FOR FUTURE INTERVENTIONS.	2015	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
8   502  35 ASSOCIATION OF ARSENIC EXPOSURE WITH WHOLE BLOOD DNA METHYLATION: AN EPIGENOME-WIDE STUDY OF BANGLADESHI ADULTS. BACKGROUND: ARSENIC EXPOSURE AFFECTS [FORMULA: SEE TEXT] PEOPLE WORLDWIDE, INCLUDING [FORMULA: SEE TEXT] IN BANGLADESH. ARSENIC EXPOSURE INCREASES THE RISK OF CANCER AND OTHER CHRONIC DISEASES, AND ONE POTENTIAL MECHANISM OF ARSENIC TOXICITY IS EPIGENETIC DYSREGULATION. OBJECTIVE: WE ASSESSED ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND GENOME-WIDE DNA METHYLATION MEASURED AT BASELINE AMONG 396 BANGLADESHI ADULTS PARTICIPATING IN THE HEALTH EFFECTS OF ARSENIC LONGITUDINAL STUDY (HEALS) WHO WERE EXPOSED BY DRINKING NATURALLY CONTAMINATED WELL WATER. METHODS: METHYLATION IN WHOLE BLOOD DNA WAS MEASURED AT [FORMULA: SEE TEXT] USING THE ILLUMINA INFINIUMMETHYLATIONEPIC (EPIC) ARRAY. TO ASSESS ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND CPG METHYLATION, WE USED LINEAR REGRESSION MODELS ADJUSTED FOR COVARIATES AND SURROGATE VARIABLES (SVS) (CAPTURING UNKNOWN TECHNICAL AND BIOLOGIC FACTORS). WE ATTEMPTED REPLICATION AND CONDUCTED A META-ANALYSIS USING AN INDEPENDENT DATASET OF [FORMULA: SEE TEXT] FROM 400 BANGLADESHI INDIVIDUALS WITH ARSENICAL SKIN LESIONS. RESULTS: WE IDENTIFIED 34 CPGS ASSOCIATED WITH [FORMULA: SEE TEXT] CREATININE-ADJUSTED URINARY ARSENIC [[FORMULA: SEE TEXT]]. SIXTEEN OF THESE CPGS ANNOTATED TO THE [FORMULA: SEE TEXT] ARRAY, AND 10 ASSOCIATIONS WERE REPLICATED ([FORMULA: SEE TEXT]). THE TOP TWO CPGS ANNOTATED UPSTREAM OF THE ABR GENE (CG01912040, CG10003262 ). ALL URINARY ARSENIC-ASSOCIATED CPGS WERE ALSO ASSOCIATED WITH ARSENIC CONCENTRATION MEASURED IN DRINKING WATER ([FORMULA: SEE TEXT]). META-ANALYSIS ([FORMULA: SEE TEXT] SAMPLES) IDENTIFIED 221 URINARY ARSENIC-ASSOCIATED CPGS ([FORMULA: SEE TEXT]). THE ARSENIC-ASSOCIATED CPGS FROM THE META-ANALYSIS WERE ENRICHED IN NON-CPG ISLANDS AND SHORES ([FORMULA: SEE TEXT]) AND DEPLETED IN PROMOTER REGIONS ([FORMULA: SEE TEXT]). AMONG THE ARSENIC-ASSOCIATED CPGS ([FORMULA: SEE TEXT]), WE OBSERVED SIGNIFICANT ENRICHMENT OF GENES ANNOTATING TO THE REACTIVE OXYGEN SPECIES PATHWAY, INFLAMMATORY RESPONSE, AND TUMOR NECROSIS FACTOR [FORMULA: SEE TEXT] ([FORMULA: SEE TEXT]) SIGNALING VIA NUCLEAR FACTOR KAPPA-B ([FORMULA: SEE TEXT]) HALLMARKS ([FORMULA: SEE TEXT]). CONCLUSIONS: THE NOVEL AND REPLICABLE ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND DNA METHYLATION AT SPECIFIC CPGS OBSERVED IN THIS WORK SUGGEST THAT EPIGENETIC ALTERATIONS SHOULD BE FURTHER INVESTIGATED AS POTENTIAL MEDIATORS IN ARSENIC TOXICITY AND AS BIOMARKERS OF EXPOSURE AND EFFECT IN EXPOSED POPULATIONS. HTTPS://DOI.ORG/10.1289/EHP3849.	2019	

9   490  31 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
10  2099  36 EPIGENETIC EFFECTS OF LOW-LEVEL SODIUM ARSENITE EXPOSURE ON HUMAN LIVER HEPARG CELLS. CHRONIC EXPOSURE TO INORGANIC ARSENIC IS ASSOCIATED WITH A VARIETY OF ADVERSE HEALTH EFFECTS, INCLUDING LUNG, BLADDER, KIDNEY, AND LIVER CANCER. SEVERAL MECHANISMS HAVE BEEN PROPOSED FOR ARSENIC-INDUCED TUMORIGENESIS; HOWEVER, INSUFFICIENT KNOWLEDGE AND MANY UNANSWERED QUESTIONS REMAIN TO EXPLAIN THE INTEGRATED MOLECULAR PATHOGENESIS OF ARSENIC CARCINOGENICITY. IN THE PRESENT STUDY, USING NON-TUMORIGENIC HUMAN LIVER HEPARG CELLS, WE INVESTIGATED EPIGENETIC ALTERATIONS UPON PROLONGED EXPOSURE TO A NONCYTOTOXIC CONCENTRATION OF SODIUM ARSENITE (NAASO(2)). WE DEMONSTRATE THAT CONTINUOUS EXPOSURE OF HEPARG CELLS TO 1 MICROM SODIUM ARSENITE (NAASO(2)) FOR 14 DAYS RESULTED IN SUBSTANTIAL CYTOSINE DNA DEMETHYLATION AND HYPERMETHYLATION ACROSS THE GENOME, AMONG WHICH THE CLAUDIN 14 (CLDN14) GENE WAS HYPERMETHYLATED AND THE MOST DOWN-REGULATED GENE. ANOTHER IMPORTANT FINDING WAS A PROFOUND LOSS OF HISTONE H3 LYSINE 36 (H3K36) TRIMETHYLATION, WHICH WAS ACCOMPANIED BY INCREASED DAMAGE TO GENOMIC DNA AND AN ELEVATED DE NOVO MUTATION FREQUENCY. THESE RESULTS DEMONSTRATE THAT CONTINUOUS EXPOSURE OF HEPARG CELLS TO A NONCYTOTOXIC CONCENTRATION OF NAASO(2) RESULTS IN SUBSTANTIAL EPIGENETIC ABNORMALITIES ACCOMPANIED BY SEVERAL CARCINOGENESIS-RELATED EVENTS, INCLUDING INDUCTION OF EPITHELIAL-TO-MESENCHYMAL TRANSITION, DAMAGE TO DNA, INHIBITION OF DNA REPAIR GENES, AND INDUCTION OF DE NOVO MUTATIONS. IMPORTANTLY, THIS STUDY HIGHLIGHTS THE INTIMATE MECHANISTIC LINK AND INTERPLAY BETWEEN TWO FUNDAMENTAL CANCER-ASSOCIATED EVENTS, EPIGENETIC AND GENETIC ALTERATIONS, IN ARSENIC-ASSOCIATED CARCINOGENESIS.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
11  4180  28 MERCURY EXPOSURE INDUCES CYTOSKELETON DISRUPTION AND LOSS OF RENAL FUNCTION THROUGH EPIGENETIC MODULATION OF MMP9 EXPRESSION. MERCURY IS ONE OF THE MAJOR HEAVY METAL POLLUTANTS OCCURRING IN ELEMENTAL, INORGANIC AND ORGANIC FORMS. DUE TO BAN ON MOST INORGANIC MERCURY CONTAINING PRODUCTS, HUMAN EXPOSURE TO MERCURY GENERALLY OCCURS AS METHYLMERCURY (MEHG) BY CONSUMPTION OF CONTAMINATED FISH AND OTHER SEA FOOD. ANIMAL AND EPIDEMIOLOGICAL STUDIES INDICATE THAT MEHG AFFECTS NEURAL AND RENAL FUNCTION. OUR STUDY IS FOCUSED ON NEPHROTOXIC POTENTIAL OF MEHG. IN THIS STUDY, WE HAVE SHOWN FOR THE FIRST TIME HOW MEHG COULD EPIGENETICALLY MODULATE MATRIX METALLOPROTEINASE 9(MMP9) TO PROMOTE NEPHROTOXICITY USING AN ANIMAL MODEL OF SUB CHRONIC MEHG EXPOSURE. MEHG CAUSED RENAL TOXICITY AS WAS SEEN BY INCREASED LEVELS OF SERUM CREATININE AND EXPRESSION OF EARLY NEPHROTOXICITY MARKERS (KIM-1, CLUSTERIN, IP-10, AND TIMP). MEHG EXPOSURE ALSO CORRELATED STRONGLY WITH INDUCTION OF MMP9 MRNA AND PROTEIN IN A DOSE DEPENDENT MANNER. FURTHER, WHILE INDUCTION OF MMP9 PROMOTED CYTOSKELETON DISRUPTION AND LOSS OF CELL-CELL ADHESION (LOSS OF F-ACTIN, VIMENTIN AND FIBRONECTIN), INHIBITION OF MMP9 WAS FOUND TO REDUCE THESE DISRUPTIONS. MECHANISTIC STUDIES BY CHIP ANALYSIS SHOWED THAT MEHG MODULATED MMP9 BY PROMOTING DEMETHYLATION OF ITS REGULATORY REGION TO INCREASE ITS EXPRESSION. BISULFITE SEQUENCING IDENTIFIED CRITICAL CPGS IN THE FIRST EXON OF MMP9 WHICH WERE DEMETHYLATED FOLLOWING MEHG EXPOSURE. CHIP STUDIES ALSO SHOWED LOSS OF METHYL BINDING PROTEIN, MECP2 AND TRANSCRIPTION FACTOR PEA3 AT THE DEMETHYLATED SITE CONFIRMING DECREASED CPG METHYLATION. OUR STUDIES THUS SHOW HOW MEHG COULD EPIGENETICALLY MODULATE MMP9 TO PROMOTE CYTOSKELETON DISRUPTION LEADING TO LOSS OF RENAL FUNCTION.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
12   974  27 CHRONIC OCCUPATIONAL EXPOSURE ENDURED BY TOBACCO FARMERS FROM BRAZIL AND ASSOCIATION WITH DNA DAMAGE. TOBACCO FARMING IS AN IMPORTANT ECONOMIC INCOME IN BRAZIL, ALTHOUGH IT HAS BEEN CHALLENGED AS REGARD THE OCCUPATIONAL EXPOSURE TO BOTH PESTICIDES AND NICOTINE ENDURED BY FARMERS. CHRONIC OCCUPATIONAL EXPOSURE TO COMPLEX MIXTURES CAN LEAD TO HEALTH HAZARDOUS. WE EXAMINED GENOMIC INSTABILITY AND EPIGENETIC CHANGES IN TOBACCO FARMERS OCCUPATIONALLY EXPOSED TO PESTICIDE MIXTURES AND NICOTINE AT TOBACCO FIELDS. DNA DAMAGE WAS ASSESSED BY ALKALINE COMET ASSAY IN BLOOD CELLS. GENOMIC DNA WAS ISOLATED, AND TELOMERE LENGTH WAS MEASURED USING QUANTITATIVE POLYMERASE CHAIN REACTION ASSAY. WE MEASURED 5-METHYL-2'-DEOXYCYTIDINE, A MARKER OF GLOBAL DNA METHYLATION, AND P16 PROMOTER METHYLATION. THE OXIDATIVE PROFILE WAS EVALUATED BY TROLOX EQUIVALENT ANTIOXIDANT CAPACITY AND LIPID PEROXIDATION (THIOBARBITURIC ACID REACTIVE SUBSTANCES) IN SERUM. EXPOSURE PARAMETERS, PLASMA COTININE AND INORGANIC ELEMENT LEVELS, WERE ALSO MEASURED. DNA DAMAGE WAS SIGNIFICANTLY ELEVATED FOR FARMERS IN RELATION TO UNEXPOSED GROUP (P < 0.001; MANN-WHITNEY TEST) AND POSITIVELY ASSOCIATED WITH YEARS OF EXPOSURE. INVERSE RELATIONSHIP BETWEEN DNA DAMAGE AND TOTAL EQUIVALENT ANTIOXIDANT ACTIVITY WAS DEMONSTRATED FOR EXPOSED AND UNEXPOSED GROUPS. EXPOSED GROUP SHOWED SIGNIFICANTLY SHORTER TELOMERES (P < 0.001; UNPAIRED T-TEST) AND DNA HYPOMETHYLATION (P < 0.001; UNPAIRED T-TEST), AS WELL AS P16 HYPERMETHYLATION (P = 0.003; MANN-WHITNEY TEST). LIPID PEROXIDATION WAS INCREASED FOR EXPOSED GROUP IN RELATION TO UNEXPOSED ONE (P = 0.02; MANN-WHITNEY TEST) AND PRESENTED A POSITIVE CORRELATION WITH GLOBAL DNA METHYLATION (P = 0.0264). FARMERS HAVE INCREASED PLASMA COTININE LEVELS (P < 0.001) AND INORGANIC ELEMENTS (PHOSPHORUS, SULPHUR AND CHLORINE) IN RELATION TO UNEXPOSED GROUP. ELEVATED OXIDATIVE STRESS LEVELS DUE TO CHRONIC OCCUPATIONAL PESTICIDE MIXTURES AND NICOTINE EXPOSURE IN TOBACCO FARMERS WERE ASSOCIATED WITH HIGHER DNA DAMAGE, SHORTER TELOMERES AND ALTERED DNA METHYLATION. TELOMERE-ACCELERATED ATTRITION DUE TO EXPOSURE MAY BE POTENTIAL INTERMEDIATE STEP BEFORE A DISEASE STATE.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                         
13  2961  34 GENETIC AND EPIGENETIC MECHANISMS IN METAL CARCINOGENESIS AND COCARCINOGENESIS: NICKEL, ARSENIC, AND CHROMIUM. CHRONIC EXPOSURE TO NICKEL(II), CHROMIUM(VI), OR INORGANIC ARSENIC (IAS) HAS LONG BEEN KNOWN TO INCREASE CANCER INCIDENCE AMONG AFFECTED INDIVIDUALS. RECENT EPIDEMIOLOGICAL STUDIES HAVE FOUND THAT CARCINOGENIC RISKS ASSOCIATED WITH CHROMATE AND IAS EXPOSURES WERE SUBSTANTIALLY HIGHER THAN PREVIOUSLY THOUGHT, WHICH LED TO MAJOR REVISIONS OF THE FEDERAL STANDARDS REGULATING AMBIENT AND DRINKING WATER LEVELS. GENOTOXIC EFFECTS OF CR(VI) AND IAS ARE STRONGLY INFLUENCED BY THEIR INTRACELLULAR METABOLISM, WHICH CREATES SEVERAL REACTIVE INTERMEDIATES AND BYPRODUCTS. TOXIC METALS ARE CAPABLE OF POTENT AND SURPRISINGLY SELECTIVE ACTIVATION OF STRESS-SIGNALING PATHWAYS, WHICH ARE KNOWN TO CONTRIBUTE TO THE DEVELOPMENT OF HUMAN CANCERS. DEPENDING ON THE METAL, ASCORBATE (VITAMIN C) HAS BEEN FOUND TO ACT EITHER AS A STRONG ENHANCER OR SUPPRESSOR OF TOXIC RESPONSES IN HUMAN CELLS. IN ADDITION TO GENETIC DAMAGE VIA BOTH OXIDATIVE AND NONOXIDATIVE (DNA ADDUCTS) MECHANISMS, METALS CAN ALSO CAUSE SIGNIFICANT CHANGES IN DNA METHYLATION AND HISTONE MODIFICATIONS, LEADING TO EPIGENETIC SILENCING OR REACTIVATION OF GENE EXPRESSION. IN VITRO GENOTOXICITY EXPERIMENTS AND RECENT ANIMAL CARCINOGENICITY STUDIES PROVIDED STRONG SUPPORT FOR THE IDEA THAT METALS CAN ACT AS COCARCINOGENS IN COMBINATION WITH NONMETAL CARCINOGENS. COCARCINOGENIC AND COMUTAGENIC EFFECTS OF METALS ARE LIKELY TO STEM FROM THEIR ABILITY TO INTERFERE WITH DNA REPAIR PROCESSES. OVERALL, METAL CARCINOGENESIS APPEARS TO REQUIRE THE FORMATION OF SPECIFIC METAL COMPLEXES, CHROMOSOMAL DAMAGE, AND ACTIVATION OF SIGNAL TRANSDUCTION PATHWAYS PROMOTING SURVIVAL AND EXPANSION OF GENETICALLY/EPIGENETICALLY ALTERED CELLS.	2008	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                       
14  3042  40 GENOME-WIDE ALTERATION OF HISTONE METHYLATION PROFILES ASSOCIATED WITH COGNITIVE CHANGES IN RESPONSE TO DEVELOPMENTAL ARSENIC EXPOSURE IN MICE. INORGANIC ARSENIC IS A XENOBIOTIC ENTERING THE BODY PRIMARILY THROUGH CONTAMINATED DRINKING WATER AND FOOD. THERE ARE DEFINED MECHANISMS THAT DESCRIBE ARSENIC'S ASSOCIATION WITH INCREASED CANCER INCIDENCE, HOWEVER MECHANISMS EXPLAINING ARSENIC EXPOSURE AND NEURODEVELOPMENTAL OR AGING DISORDERS ARE POORLY DEFINED. IN RECENT YEARS, ARSENIC EFFECTS ON EPIGENOME HAVE BECOME A PARTICULAR FOCUS. WE HYPOTHESIZE THAT HUMAN RELEVANT ARSENIC EXPOSURE DURING PARTICULAR DEVELOPMENTAL WINDOWS, OR LONG-TERM EXPOSURE LATER IN LIFE INDUCE PATHOPHYSIOLOGICAL NEURAL CHANGES THROUGH EPIGENOMIC ALTERATIONS, IN PARTICULAR HISTONE METHYLATION PROFILE, MANIFESTING AS COGNITIVE DECLINE. C57BL/6 WILD-TYPE MICE WERE CONTINUALLY EXPOSED TO SODIUM ARSENITE (100 MICROG/L) IN DRINKING WATER PRIOR TO MATING THROUGH WEANING OF THE EXPERIMENTAL PROGENY. A SECOND COHORT OF AGED APP/PS MICE WERE CHRONICALLY EXPOSED TO THE SAME LEVEL OF ARSENIC. COGNITIVE TESTING, HISTOLOGICAL EXAMINATION OF BRAINS AND GENOME-WIDE METHYLATION LEVELS OF H3K4ME3 AND H3K27ME3 EXAMINED AFTER CHIP-SEQ WERE USED TO DETERMINE THE EFFECTS OF ARSENIC EXPOSURE. DEVELOPMENTAL ARSENIC EXPOSURE CAUSED SIGNIFICANTLY DIMINISHED COGNITION IN WILD-TYPE MICE. THE ANALYSIS OF CHIP-SEQ DATA AND EXPERIMENTS WITH MOUSE EMBRYONIC STEM CELLS DEMONSTRATED THAT EPIGENETIC CHANGES INDUCED BY ARSENIC EXPOSURE TRANSLATED INTO GENE EXPRESSION ALTERATIONS ASSOCIATED WITH NEURONAL DEVELOPMENT AND NEUROLOGICAL DISEASE. INCREASED HIPPOCAMPAL AMYLOID PLAQUES LEVELS OF APP/PS MICE AND COGNITIVE DECLINE PROVIDED EVIDENCE THAT ARSENIC EXPOSURE AGGRAVATED AN EXISTING ALZHEIMER'S DISEASE-LIKE PHENOTYPE. WE SHOW DEVELOPMENTAL ARSENIC EXPOSURE SIGNIFICANTLY IMPACTS HISTONE MODIFICATIONS IN BRAIN WHICH REMAIN PRESENT INTO ADULTHOOD AND PROVIDE A POTENTIAL MECHANISM BY WHICH DEVELOPMENTAL ARSENIC EXPOSURE INFLUENCES COGNITIVE FUNCTIONS. WE ALSO SHOW THAT HUMAN RELEVANT, CHRONIC ARSENIC EXPOSURE HAS DELETERIOUS EFFECTS ON ADULT APP/PS MICE AND EXACERBATES EXISTING ALZHEIMER'S DISEASE-LIKE SYMPTOMS. THE RESULTS DEMONSTRATE HOW DEVELOPMENTAL ARSENIC EXPOSURE IMPACTS THE BRAIN EPIGENOME, LEADING TO ALTERED GENE EXPRESSION LATER IN LIFE.	2022	
                                                                                                                                                                                                                                                                                           
15   474  24 ARSENIC BIOTRANSFORMATION AS A CANCER PROMOTING FACTOR BY INDUCING DNA DAMAGE AND DISRUPTION OF REPAIR MECHANISMS. CHRONIC EXPOSURE TO ARSENIC IN DRINKING WATER POSES A MAJOR GLOBAL HEALTH CONCERN. POPULATIONS EXPOSED TO HIGH CONCENTRATIONS OF ARSENIC-CONTAMINATED DRINKING WATER SUFFER SERIOUS HEALTH CONSEQUENCES, INCLUDING ALARMING CANCER INCIDENCE AND DEATH RATES. ARSENIC IS BIOTRANSFORMED THROUGH SEQUENTIAL ADDITION OF METHYL GROUPS, ACQUIRED FROM S-ADENOSYLMETHIONINE (SAM). METABOLISM OF ARSENIC GENERATES A VARIETY OF GENOTOXIC AND CYTOTOXIC SPECIES, DAMAGING DNA DIRECTLY AND INDIRECTLY, THROUGH THE GENERATION OF REACTIVE OXIDATIVE SPECIES AND INDUCTION OF DNA ADDUCTS, STRAND BREAKS AND CROSS LINKS, AND INHIBITION OF THE DNA REPAIR PROCESS ITSELF. SINCE SAM IS THE METHYL GROUP DONOR USED BY DNA METHYLTRANSFERASES TO MAINTAIN NORMAL EPIGENETIC PATTERNS IN ALL HUMAN CELLS, ARSENIC IS ALSO POSTULATED TO AFFECT MAINTENANCE OF NORMAL DNA METHYLATION PATTERNS, CHROMATIN STRUCTURE, AND GENOMIC STABILITY. THE BIOLOGICAL PROCESSES UNDERLYING THE CANCER PROMOTING FACTORS OF ARSENIC METABOLISM, RELATED TO DNA DAMAGE AND REPAIR, WILL BE DISCUSSED HERE.	2011	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                
16  6078  29 THE EFFECT OF CHRONIC ARSENIC EXPOSURE IN ZEBRAFISH. ARSENIC IS A PREVALENT ENVIRONMENTAL TOXIN AND A GROUP ONE HUMAN CARCINOGENIC AGENT. CHRONIC ARSENIC EXPOSURE HAS BEEN ASSOCIATED WITH MANY HUMAN DISEASES. THE AIM OF THIS STUDY IS TO EVALUATE ZEBRAFISH AS AN ANIMAL MODEL TO ASSESS ARSENIC TOXICITY IN ELEVATED LONG-TERM ARSENIC EXPOSURE. WITH PROLONGED EXPOSURE (6 MONTHS) TO VARIOUS CONCENTRATIONS OF ARSENIC FROM 50 PPB TO 300 PPB, EFFECTS OF ARSENIC ACCUMULATION IN ZEBRAFISH TISSUES, AND PHENOTYPES WERE INVESTIGATED. RESULTS SHOWED THAT THERE ARE NO SIGNIFICANT CHANGES OF ARSENIC RETENTION IN ZEBRAFISH TISSUES, AND ZEBRAFISH DID NOT EXHIBIT ANY VISIBLE TUMOR FORMATION UNDER ARSENIC EXPOSURE CONDITIONS. HOWEVER, THE ZEBRAFISH DEMONSTRATE A DYSFUNCTION IN THEIR NEUROLOGICAL SYSTEM, WHICH IS REFLECTED BY A REDUCTION OF LOCOMOTIVE ACTIVITY. MOREOVER, ELEVATED LEVELS OF THE SUPEROXIDE DISMUTASE (SOD2) PROTEIN WERE DETECTED IN THE EYE AND LIVER, SUGGESTING INCREASED OXIDATIVE STRESS. IN ADDITION, THE PROGENIES OF ARSENIC-TREATED PARENTS DISPLAYED A SMALLER BIOMASS (FOUR-FOLD REDUCTION IN BODY WEIGHT) COMPARED WITH THOSE FROM THEIR PARENTAL CONTROLS. THIS RESULT INDICATES THAT ARSENIC MAY INDUCE GENETIC OR EPIGENETIC CHANGES THAT ARE THEN PASSED ON TO THE NEXT GENERATION. OVERALL, THIS STUDY DEMONSTRATES THAT ZEBRAFISH IS A CONVENIENT VERTEBRATE MODEL WITH ADVANTAGES IN THE EVALUATION OF ARSENIC-ASSOCIATED NEUROLOGICAL DISORDERS AS WELL AS ITS INFLUENCES ON THE OFFSPRING.	2016	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
17  6553  30 TRANSGENERATIONAL EFFECTS IN DNA METHYLATION, GENOTOXICITY AND REPRODUCTIVE PHENOTYPE BY CHRONIC ARSENIC EXPOSURE. AN EMERGING CONCERN IS THE INFLUENCES OF EARLY LIFE EXPOSURE TO ENVIRONMENTAL TOXICANTS ON OFFSPRING CHARACTERISTICS IN LATER LIFE. SINCE RECENT EVIDENCE SUGGESTS A TRANSGENERATIONAL TRANSFERENCE OF ABERRANT PHENOTYPES FROM EXPOSED-PARENTS TO NON-EXPOSED OFFSPRING RELATED TO ADULT-ONSET DISEASES INCLUDING REPRODUCTIVE PHENOTYPE. THE TRANSGENERATIONAL POTENTIAL OF ARSENIC A WELL KNOW GENOTOXIC AND EPIGENETIC MODIFIER AGENT HAS NOT BEEN ASSESSED IN MAMMALS UNTIL NOW. IN THIS EXPERIMENTAL STUDY, WE EVALUATED THE TRANSGENERATIONAL EFFECTS OF ARSENIC IN A RAT MODEL WITH CHRONIC EXPOSURE TO ARSENIC. RATS CHRONICALLY EXPOSED TO ARSENIC IN DRINKING WATER (1 MG AS(2)O(3)/ML) (F0) WERE MATED TO PRODUCE THE ARSENIC LINEAGE (F1, F2, AND F3). THE ARSENIC TOXIC EFFECTS ON WERE EVALUATED OVER THE FOUR GENERATIONS BY ANALYZING THE DNA METHYLATION PERCENTAGE, GENOTOXICITY IN WBC AND PHYSICAL AND REPRODUCTIVE PARAMETERS, INCLUDING SPERM QUALITY PARAMETERS AND HISTOPATHOLOGICAL EVALUATION OF THE GONADS. CHRONIC EXPOSURE TO ARSENIC CAUSED GENOTOXIC DAMAGE (F0-F3) DIFFERENT METHYLATION PATTERNS, ALTERATIONS IN PHYSICAL AND REPRODUCTIVE PARAMETERS, ABERRANT MORPHOLOGY IN THE OVARIES (F0 AND F1) AND TESTICLES (F1-F3), AND A DECREASE IN THE QUALITY OF SPERM (F0-F3, EXCEPT F2). PARENTAL CHRONIC ARSENIC EXPOSURE CAUSES TRANSGENERATIONAL GENOTOXICITY AND CHANGES IN GLOBAL DNA METHYLATION WHICH MIGHT BE ASSOCIATED WITH REPRODUCTIVE DEFECTS IN RATS. COMBINED WITH RECENT STUDIES REVEAL THAT DISTURBANCES IN THE EARLY LIFE OF AN INDIVIDUAL CAN AFFECT THE HEALTH OF LATER GENERATIONS.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
18  4072  31 MATERNAL DNA METHYLATION SIGNATURES OF ARSENIC EXPOSURE IS ASSOCIATED WITH ADULT OFFSPRING INSULIN RESISTANCE IN THE STRONG HEART STUDY. EXPOSURE TO LOW TO MODERATE ARSENIC (AS) LEVELS HAS BEEN ASSOCIATED WITH TYPE 2 DIABETES (T2D) AND OTHER CHRONIC DISEASES IN AMERICAN INDIAN COMMUNITIES. PRENATAL EXPOSURE TO AS MAY ALSO INCREASE THE RISK FOR T2D IN ADULTHOOD, AND MATERNAL AS HAS BEEN ASSOCIATED WITH ADULT OFFSPRING METABOLIC HEALTH MEASUREMENTS. WE HYPOTHESIZED THAT T2D-RELATED OUTCOMES IN ADULT OFFSPRING BORN TO WOMEN EXPOSED TO LOW TO MODERATE AS CAN BE EVALUATED UTILIZING A MATERNALLY-DERIVED MOLECULAR BIOSIGNATURE OF AS EXPOSURE. HEREIN, WE EVALUATED THE ASSOCIATION OF MATERNAL DNA METHYLATION WITH INCIDENT T2D AND INSULIN RESISTANCE (HOMEOSTATIC MODEL ASSESSMENT OF INSULIN RESISTANCE [HOMA2-IR]) IN ADULT OFFSPRING. FOR DNA METHYLATION, WE USED 20 DIFFERENTIALLY METHYLATED CYTOSINE-GUANINE DINUCLEOTIDES (CPG) PREVIOUSLY ASSOCIATED WITH THE SUM OF INORGANIC AND METHYLATED AS SPECIES (SIGMAAS) IN URINE IN THE STRONG HEART STUDY (SHS). OF THESE 20 CPGS, WE FOUND SIX CPGS NOMINALLY ASSOCIATED (P < 0.05) WITH HOMA2-IR IN A FULLY ADJUSTED MODEL THAT INCLUDED CLINICALLY RELEVANT COVARIATES AND OFFSPRING ADIPOSITY MEASUREMENTS; A SIMILAR MODEL THAT ADJUSTED INSTEAD FOR MATERNAL ADIPOSITY MEASUREMENTS FOUND THREE CPGS NOMINALLY ASSOCIATED WITH HOMA2-IR, TWO OF WHICH OVERLAPPED THE OFFSPRING ADIPOSITY MODEL. AFTER ADJUSTING FOR MULTIPLE COMPARISONS, CG03036214 REMAINED ASSOCIATED WITH HOMA2-IR (Q < 0.10) IN THE OFFSPRING ADIPOSITY MODEL. THE ODDS RATIO OF INCIDENT T2D INCREASED WITH AN INCREASE IN MATERNAL DNA METHYLATION AT ONE HOMA2-IR ASSOCIATED CPG IN THE MODEL ADJUSTING FOR OFFSPRING ADIPOSITY, CG12116137, WHEREAS ADJUSTING FOR MATERNAL ADIPOSITY HAD A MINIMAL EFFECT ON THE ASSOCIATION. OUR DATA SUGGESTS OFFSPRING ADIPOSITY, RATHER THAN MATERNAL ADIPOSITY, POTENTIALLY INFLUENCES THE EFFECTS OF MATERNAL DNAM SIGNATURES ON OFFSPRING METABOLIC HEALTH PARAMETERS. HERE, WE HAVE PRESENTED EVIDENCE SUPPORTING A ROLE FOR EPIGENETIC BIOSIGNATURES OF MATERNAL AS EXPOSURE AS A POTENTIAL BIOMARKER FOR EVALUATING RISK OF T2D-RELATED OUTCOMES IN OFFSPRING LATER IN LIFE.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                                       
19  3072  37 GENOME-WIDE DNA METHYLATION REPROGRAMMING IN RESPONSE TO INORGANIC ARSENIC LINKS INHIBITION OF CTCF BINDING, DNMT EXPRESSION AND CELLULAR TRANSFORMATION. CHRONIC LOW DOSE INORGANIC ARSENIC (IAS) EXPOSURE LEADS TO CHANGES IN GENE EXPRESSION AND EPITHELIAL-TO-MESENCHYMAL TRANSFORMATION. DURING THIS TRANSFORMATION, CELLS ADOPT A FIBROBLAST-LIKE PHENOTYPE ACCOMPANIED BY PROFOUND GENE EXPRESSION CHANGES. WHILE MANY MECHANISMS HAVE BEEN IMPLICATED IN THIS TRANSFORMATION, STUDIES THAT FOCUS ON THE ROLE OF EPIGENETIC ALTERATIONS IN THIS PROCESS ARE JUST EMERGING. DNA METHYLATION CONTROLS GENE EXPRESSION IN PHYSIOLOGIC AND PATHOLOGIC STATES. SEVERAL STUDIES SHOW ALTERATIONS IN DNA METHYLATION PATTERNS IN IAS-MEDIATED PATHOGENESIS, BUT THESE STUDIES FOCUSED ON SINGLE GENES. WE PRESENT A COMPREHENSIVE GENOME-WIDE DNA METHYLATION ANALYSIS USING METHYL-SEQUENCING TO MEASURE CHANGES BETWEEN NORMAL AND IAS-TRANSFORMED CELLS. ADDITIONALLY, THESE DIFFERENTIAL METHYLATION CHANGES CORRELATED POSITIVELY WITH CHANGES IN GENE EXPRESSION AND ALTERNATIVE SPLICING. INTERESTINGLY, MOST OF THESE DIFFERENTIALLY METHYLATED GENES FUNCTION IN CELL ADHESION AND COMMUNICATION PATHWAYS. TO GAIN INSIGHT INTO HOW GENOMIC DNA METHYLATION PATTERNS ARE REGULATED DURING IAS-MEDIATED CARCINOGENESIS, WE SHOW THAT IAS PROBABLY TARGETS CTCF BINDING AT THE PROMOTER OF DNA METHYLTRANSFERASES, REGULATING THEIR EXPRESSION. THESE FINDINGS REVEAL HOW CTCF BINDING REGULATES DNA METHYLTRANSFERASE TO REPROGRAM THE METHYLOME IN RESPONSE TO AN ENVIRONMENTAL TOXIN.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
20   475  37 ARSENIC EXPOSURE AND HUMAN BLOOD DNA METHYLATION AND HYDROXYMETHYLATION PROFILES IN TWO DIVERSE POPULATIONS FROM BANGLADESH AND SPAIN. BACKGROUND: ASSOCIATIONS OF ARSENIC (AS) WITH THE SUM OF 5-MC AND 5-HMC LEVELS HAVE BEEN REPORTED; HOWEVER, AS EXPOSURE-RELATED DIFFERENCES OF THE SEPARATED 5-MC AND 5-HMC MARKERS HAVE RARELY BEEN STUDIED. METHODS: IN THIS STUDY, WE EVALUATED THE ASSOCIATION OF ARSENIC EXPOSURE BIOMARKERS AND 5-MC AND 5-HMC IN 30 HEALTHY MEN (43-55 YEARS) FROM THE ARAGON WORKERS HEALTH STUDY (AWHS) (SPAIN) AND 31 HEALTHY MEN (31-50 YEARS) FROM THE FOLIC ACID AND CREATININE TRIAL (FACT) (BANGLADESH). WE CONDUCTED 5-MC AND 5-HMC PROFILING USING INFINIUM METHYLATIONEPIC ARRAYS, ON PAIRED STANDARD AND MODIFIED (OX-BS IN AWHS AND TAB IN FACT) BISULFITE CONVERTED BLOOD DNA SAMPLES. RESULTS: THE MEDIAN FOR THE SUM OF URINE INORGANIC AND METHYLATED AS SPECIES (SIGMAAS) (MUG/L) WAS 12.5 FOR AWHS AND 89.6 FOR FACT. THE MEDIAN OF BLOOD AS (MUG/L) WAS 8.8 FOR AWHS AND 10.2 FOR FACT. AT A STATISTICAL SIGNIFICANCE P-VALUE CUT-OFF OF 0.01, THE DIFFERENTIALLY METHYLATED (DMP) AND HYDROXYMETHYLATED (DHP) POSITIONS WERE MOSTLY LOCATED IN DIFFERENT GENOMIC SITES. SEVERAL DMPS AND DHPS WERE CONSISTENTLY FOUND IN AWHS AND FACT BOTH FOR URINE SIGMAAS AND BLOOD MODELS, BEING OF SPECIAL INTEREST THOSE ATTRIBUTED TO THE DIP2C GENE. THREE DMPS (ANNOTATED TO CLEC12A) FOR AWHS AND ONE DHP (ANNOTATED TO NPLOC4) FOR FACT REMAINED STATISTICALLY SIGNIFICANT AFTER FALSE DISCOVERY RATE (FDR) CORRECTION. PATHWAYS RELATED TO CHRONIC DISEASES INCLUDING CARDIOVASCULAR, CANCER AND NEUROLOGICAL WERE ENRICHED. CONCLUSIONS: WHILE WE IDENTIFIED COMMON 5-HMC AND 5-MC SIGNATURES IN TWO POPULATIONS EXPOSED TO VARYING LEVELS OF INORGANIC AS, DIFFERENCES IN AS-RELATED EPIGENETIC SITES ACROSS THE STUDY POPULATIONS MAY ADDITIONALLY REFLECT LOW AND HIGH AS-SPECIFIC ASSOCIATIONS. THIS WORK CONTRIBUTES A DEEPER UNDERSTANDING OF POTENTIAL EPIGENETIC DYSREGULATIONS OF AS. HOWEVER, FURTHER RESEARCH IS NEEDED TO CONFIRM BIOLOGICAL CONSEQUENCES ASSOCIATED WITH DIP2C EPIGENETIC REGULATION AND TO INVESTIGATE THE ROLE OF 5-HMC AND 5-MC SEPARATELY IN AS-INDUCED HEALTH DISORDERS AT DIFFERENT EXPOSURE LEVELS.	2022