1 6492 162 TRAFFIC-RELATED AIR POLLUTION AND GROUND-LEVEL OZONE ASSOCIATED GLOBAL DNA HYPOMETHYLATION AND BULKY DNA ADDUCT FORMATION. STUDIES HAVE INDICATED THAT AIR POLLUTION, INCLUDING SURFACE-LEVEL OZONE (O(3)), CAN SIGNIFICANTLY INFLUENCE THE RISK OF CHRONIC DISEASES. TO BETTER UNDERSTAND THE CARCINOGENIC MECHANISMS OF AIR POLLUTANTS AND IDENTIFY PREDICTIVE DISEASE BIOMARKERS, WE EXAMINED THE ASSOCIATION BETWEEN TRAFFIC-RELATED POLLUTANTS WITH DNA METHYLATION ALTERATIONS AND BULKY DNA ADDUCTS, TWO BIOMARKERS OF CARCINOGEN EXPOSURE AND CANCER RISK, IN THE PERIPHERAL BLOOD OF 140 VOLUNTEERS-95 TRAFFIC POLICE OFFICERS, AND 45 UNEXPOSED SUBJECTS. THE DNA METHYLATION AND ADDUCT MEASUREMENTS WERE PERFORMED BY BISULFITE-PCR AND PYROSEQUENCING AND (32)P-POSTLABELING ASSAY. AIRBORNE LEVELS OF BENZO(A)PYRENE [B(A)P], CARBON MONOXIDE, AND TROPOSPHERIC O(3) WERE DETERMINED BY PERSONAL EXPOSURE BIOMONITORING OR BY FIXED MONITORING STATIONS. OVERALL, AIR POLLUTION EXPOSURE WAS ASSOCIATED WITH A SIGNIFICANT REDUCTION (1.41 UNITS) IN GLOBAL DNA METHYLATION (95% C.I. -2.65-0.04, P = 0.026). THE DECREMENT IN ALU REPETITIVE ELEMENTS WAS GREATEST IN THE POLICEMEN WORKING DOWNTOWN (95% C.I. -3.23--0.49, P = 0.008). THE DNA ADDUCTS WERE FOUND TO BE SIGNIFICANTLY INCREASED (0.45 UNITS) IN THE MUNICIPAL OFFICERS WITH RESPECT TO UNEXPOSED SUBJECTS (95% C.I. 0.02-0.88, P = 0.039), MAINLY IN THOSE WHO WERE CONTROLLING TRAFFIC IN DOWNTOWN AREAS (95% C.I. 0.39-1.29, P < 0.001). REGRESSION MODELS INDICATED AN INCREMENT OF ALU METHYLATION AT HIGHER B(A)P CONCENTRATIONS (95% C.I. 0.03-0.60, P = 0.032). MOREOVER, STATISTICAL MODELS SHOWED A DECREMENT IN ALU METHYLATION AND AN INCREMENT OF DNA DAMAGE ONLY ABOVE THE CUT-OFF VALUE OF 30 MICROG/M(3) O(3). A SIGNIFICANT INCREMENT OF 0.73 UNITS OF IL-6 GENE METHYLATION WAS ALSO FOUND IN SMOKERS WITH RESPECT TO NON-SMOKERS. OUR RESULTS HIGHLIGHTED THE ROLE OF AIR POLLUTION ON EPIGENETIC ALTERATIONS AND GENOTOXIC EFFECTS, ESPECIALLY ABOVE THE TARGET VALUE OF 30 MICROG/M(3) SURFACE-LEVEL O(3), SUPPORTING THE NECESSITY FOR DEVELOPING PUBLIC HEALTH STRATEGIES AIMED TO REDUCE TRAFFIC-RELATED AIR POLLUTION MOLECULAR ALTERATIONS. 2023 2 974 42 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 3 813 42 CHANGES IN POLY(ADP-RIBOSYL)ATION PATTERNS IN WORKERS EXPOSED TO BTX. OCCUPATIONAL EXPOSURE TO (BENZENE, TOLUENE AND XYLENE, BTX IS COMMON IN THE CHINESE WORKPLACE. CHRONIC OCCUPATIONAL EXPOSURE TO BENZENE IS ASSOCIATED WITH AN INCREASED RISK OF HEMATOLOGICAL MALIGNANCIES SUCH AS ACUTE MYELOID LEUKEMIA (AML), BUT THE UNDERLYING MECHANISMS ARE STILL UNCLEAR. THIS STUDY INVESTIGATES CHANGES IN POLY(ADP-RIBOSYL)ATION AND DNA METHYLATION IN SUBJECTS OCCUPATIONALLY EXPOSED TO A BTX. BLOOD DNA SAMPLES AND EXPOSURE DATA WERE OBTAINED FROM SUBJECTS WITH DIFFERENT LEVELS OF EXPOSURE, INCLUDING 132 DECORATORS, 129 PAINTERS, AND 130 UNEXPOSED REFERENTS IN A CONTAINER-MANUFACTURING FACTORY IN SHENZHEN, CHINA. OCCUPATIONAL EXPOSURE ASSESSMENT INCLUDED PERSONAL MONITORING OF AIRBORNE BENZENE, TOLUENE AND XYLENE. HEMATOLOGICAL PARAMETERS WERE MEASURED AND THE CYTOKINESIS-BLOCK MICRONUCLEUS (CBMN) ASSAY WAS USED TO DETECT DNA DAMAGE IN PERIPHERAL LYMPHOCYTES. QUANTITATIVE REAL-TIME PCR WAS USED TO DETECT THE MRNA EXPRESSION OF POLY(ADP-RIBOSE) POLYMERASE 1 (PARP1) AND POLY(ADP-RIBOSE) GLYCOHYDROLASE (PARG), DNA METHYLTRANSFERASES (DNMTS) INCLUDING DNMT1, DNMT3A AND DNMT3B, METHYL-CPG-BINDING DOMAIN PROTEIN 2(MBD2). PARP1 ASSAY WAS USED TO MEASURE PARP ACTIVITY. AIRBORNE LEVELS OF BENZENE, TOLUENE AND XYLENE IN THE TWO EXPOSED GROUPS WERE SIGNIFICANTLY HIGHER THAN THOSE OF CONTROLS (P<0.001). THE TWO EXPOSED GROUPS (DECORATORS, PAINTERS) SHOWED DECREASED PARP1, DNMTS AND MBD2 EXPRESSION RELATIVE TO CONTROLS (P<0.05), AND PARP ACTIVITY WAS ALSO DECREASED (P<0.05). DECREASED PARP1, DNMT1, DNMT3A, DNMT3B AND MBD2 MRNA EXPRESSION WAS CORRELATED WITH INCREASED AIRBORNE BTX (PEARSON'S R: -0.587, -0.314, -0.636, -0.567 AND -0.592 RESPECTIVELY, P<0.001). NO SIGNIFICANT DIFFERENCES IN HEMATOLOGICAL PARAMETERS AND CBMN WERE FOUND AMONG THE THREE GROUPS. TOGETHER, THESE RESULTS SUGGEST THAT DECREASED DNMTS, MBD2 AND PARP1 MIGHT BE INVOLVED IN THE GLOBAL HYPOMETHYLATION ASSOCIATED WITH BTX EXPOSURE, AND THE IMBALANCE OF PARP/PARG MIGHT PARTICIPATE IN THE DOWN-REGULATION OF DNMTS. THIS IS THE FIRST HUMAN STUDY TO LINK ALTERED POLY(ADP-RIBOSYL)ATION PATTERNS, WHICH REPRODUCE THE ABERRANT EPIGENETIC PATTERNS FOUND IN BENZENE-TREATED CELLS, TO CHRONIC OCCUPATIONAL EXPOSURE TO BTX. 2014 4 143 33 ABERRANT DNA METHYLATION OF TWO TUMOR SUPPRESSOR GENES, P14(ARF) AND P15(INK4B), AFTER CHRONIC OCCUPATIONAL EXPOSURE TO LOW LEVEL OF BENZENE. BACKGROUND: EXPOSURE TO BENZENE WOULD BE ASSOCIATED WITH MANY DISEASES INCLUDING LEUKEMIA. EPIGENETIC ALTERATIONS SEEM TO BE AMONG THE MAIN MECHANISMS INVOLVED. OBJECTIVE: TO DETERMINE IF CHRONIC OCCUPATIONAL EXPOSURE TO LOW LEVEL OF BENZENE WOULD BE ASSOCIATED WITH DNA METHYLATION. METHODS: GLOBAL DNA METHYLATION AND PROMOTER-SPECIFIC METHYLATION OF THE TWO TUMOR SUPPRESSOR GENES, P14(ARF) AND P15(INK4B), WERE ASSESSED EMPLOYING METHYLATION-SPECIFIC PCR USING THE DNA EXTRACTED FROM 40 PETROCHEMICAL WORKERS EXPOSED TO AMBIENT BENZENE LEVELS OF <1 PPM, AND 31 OFFICE WORKERS NOT EXPOSED TO BENZENE OR ITS DERIVATIVES. RESULTS: WHILE AN INCREASE IN GLOBAL DNA METHYLATION OF 5% IN P14(ARF) (P=0.501) AND 28% IN P15(INK4B) (P=0.02) GENES WAS OBSERVED IN THE EXPOSED GROUP, NO HYPERMETHYLATION IN EITHER OF THE STUDIED GENES WAS OBSERVED IN THE UNEXPOSED GROUP. NO SIGNIFICANT ASSOCIATION WAS FOUND BETWEEN THE FREQUENCY OF ABERRANT METHYLATION AND EITHER OF AGE, WORK EXPERIENCE, AND SMOKING HABIT IN THE EXPOSED GROUP. CONCLUSION: CHRONIC OCCUPATIONAL EXPOSURE TO LOWER THAN THE PERMISSIBLE EXPOSURE LIMIT OF BENZENE MAY STILL RESULT IN DNA METHYLATION OF TUMOR SUPPRESSOR GENES THAT MAY ULTIMATELY LEAD TO DEVELOPMENT OF CANCER. 2018 5 3441 37 HYPERMETHYLATION IN GENE PROMOTERS ARE INDUCED BY CHRONIC EXPOSURE TO BENZENE, TOLUENE, ETHYLBENZENE AND XYLENES. BACKGROUND AND OBJECTIVE: GAS STATION ATTENDANTS ARE OCCUPATIONALLY EXPOSED TO BENZENE, TOLUENE, ETHYLBENZENE AND XYLENE (BTEX) COMPOUNDS AND THUS MORE SUSCEPTIBLE TO THE BIOLOGICAL EFFECTS OF THIS MIXTURE PRESENT IN GASOLINE, ESPECIALLY DUE TO THE CARCINOGENICITY OF BENZENE. FURTHERMORE, THE HARMFUL EFFECTS OF BTEX EXPOSURE MAY BE POTENTIATED BY GENETIC AND EPIGENETIC INACTIVATION OF CRITICAL GENES. THE OBJECTIVE WAS TO EVALUATE SUCH GENE-BTEX INTERACTIONS ACCESSING THE PROMOTER METHYLATION STATUS OF P14ARF, P16INK4A AND GSTP1 IN PERIPHERAL BLOOD LEUKOCYTE SAMPLES. MATERIALS AND METHODS: THE 59 EXPOSED AND 68 UNEXPOSED PARTICIPANTS FROM RIO DE JANEIRO, BRAZIL, WERE INCLUDED. THE PROMOTER METHYLATION STATUS WAS ACCESSED BY METHYLATION-SPECIFIC PCR (MSP) AND GSTP1 ILE105VAL POLYMORPHISM WAS INVESTIGATED BY PCR-RESTRICTION FRAGMENT LENGTH POLYMORPHISM (PCR-RFLP) TECHNIQUE. RESULTS: BOTH P14ARF AND P16INK4A WERE SIGNIFICANTLY HYPERMETHYLATED IN EXPOSED SUBJECTS COMPARED TO UNEXPOSED (P = 0.004 AND P<0.001, RESPECTIVELY). ADDITIONALLY, P16INK4A HYPERMETHYLATION IN THE EXPOSED GROUP WAS CORRELATED WITH CHROMOSOMAL ABNORMALITIES (CAS) (P = 0.018), THUS HIGHLIGHTING THE INFLUENCE OF THE GENE-ENVIRONMENT INTERACTIONS ON GENOME INSTABILITY. NOTEWORTHY, P16INK4A METHYLATION WAS SIGNIFICANTLY ASSOCIATED WITH MISCARRIAGE AMONG FEMALE ATTENDANTS (P = 0.047), IN WHICH THOSE WHO REPORTED MISCARRIAGE EXHIBITED HYPERMETHYLATION IN AT LEAST 2 OF THE 3 GENES ANALYZED. THE GSTP1 HETEROZYGOTE GENOTYPE, WHICH COULD AFFECT THE METABOLISM OF BENZENE DETOXIFICATION, WAS FOUND IN BOTH GROUPS BUT WAS MORE FREQUENT IN THOSE OCCUPATIONALLY EXPOSED. NO SIGNIFICANT ASSOCIATION WAS OBSERVED BETWEEN GSTP1 GENOTYPES AND METHYLATION STATUS. CONCLUSION: TOGETHER, THESE FINDINGS INDICATE THAT GAS STATION ATTENDANTS WITH THE AFOREMENTIONED EPIGENETIC AND GENETIC PROFILES MAY BE AT GREATER RISK OF OCCUPATIONAL BTEX EXPOSURE-INDUCED GENOME INSTABILITY, WHICH COULD REQUIRE CONCERTED EFFORTS TO ESTABLISH MORE PREVENTIVE ACTIONS AND CONSTANT BIOMONITORING IN GAS STATION ATTENDANTS. 2020 6 6552 35 TRANSGENERATIONAL DNA METHYLATION CHANGES IN DAPHNIA MAGNA EXPOSED TO CHRONIC GAMMA IRRADIATION. OUR AIM WAS TO INVESTIGATE EPIGENETIC CHANGES IN DAPHNIA MAGNA AFTER A 25-DAY CHRONIC EXTERNAL GAMMA IRRADIATION (GENERATION F0 EXPOSED TO 6.5 MUGY.H(-1) OR 41.3 MGY.H(-1)) AND THEIR POTENTIAL INHERITANCE BY SUBSEQUENT RECOVERING GENERATIONS, NAMELY, F2 (EXPOSED AS GERMLINE CELLS IN F1 EMBRYOS) AND F3 (THE FIRST TRULY UNEXPOSED GENERATION). EFFECTS ON SURVIVAL, GROWTH, AND REPRODUCTION WERE OBSERVED AND DNA WAS EXTRACTED FOR WHOLE-GENOME BISULFITE SEQUENCING IN ALL GENERATIONS. RESULTS SHOWED EFFECTS ON REPRODUCTION IN F0 BUT NO EFFECT IN THE SUBSEQUENT GENERATIONS F1, F2, AND F3. IN CONTRAST, WE OBSERVED SIGNIFICANT METHYLATION CHANGES AT SPECIFIC CPG POSITIONS IN EVERY GENERATION INDEPENDENT OF DOSE RATE, WITH A MAJORITY OF HYPOMETHYLATION. SOME OF THESE CHANGES WERE SHARED BETWEEN DOSE RATES AND BETWEEN GENERATIONS. ASSOCIATED GENE FUNCTIONS INCLUDED GENE FAMILIES AND GENES THAT WERE PREVIOUSLY SHOWN TO PLAY ROLES DURING EXPOSURE TO IONIZING RADIATION. COMMON METHYLATION CHANGES DETECTED BETWEEN GENERATIONS F2 AND F3 CLEARLY SHOWED THAT EPIGENETIC MODIFICATIONS CAN BE TRANSMITTED TO UNEXPOSED GENERATIONS, MOST LIKELY THROUGH THE GERMLINE, WITH POTENTIAL IMPLICATIONS FOR ENVIRONMENTAL RISK. 2018 7 5683 47 SHORTER TELOMERE LENGTH IN PERIPHERAL BLOOD LYMPHOCYTES OF WORKERS EXPOSED TO POLYCYCLIC AROMATIC HYDROCARBONS. SHORTER TELOMERE LENGTH (TL) IN PERIPHERAL BLOOD LYMPHOCYTES (PBLS) IS PREDICTIVE OF LUNG CANCER RISK. POLYCYCLIC AROMATIC HYDROCARBONS (PAHS) ARE ESTABLISHED LUNG CARCINOGENS THAT CAUSE CHROMOSOME INSTABILITY. WHETHER PAH EXPOSURE AND ITS MOLECULAR EFFECTS ARE LINKED WITH SHORTER TL HAS NEVER BEEN EVALUATED. IN THE PRESENT STUDY, WE INVESTIGATED THE EFFECT OF CHRONIC EXPOSURE TO PAHS ON TL MEASURED IN PBLS OF POLISH MALE NON-CURRENT SMOKING COKEOVEN WORKERS AND MATCHED CONTROLS. PAH EXPOSURE AND MOLECULAR EFFECTS WERE CHARACTERIZED USING MEASURES OF INTERNAL DOSE (URINARY 1-PYRENOL), EFFECTIVE DOSE [ANTI-BENZO[A]PYRENE DIOLEPOXIDE (ANTI-BPDE)-DNA ADDUCT], GENETIC INSTABILITY (MICRONUCLEI, MN) AND DNA METHYLATION [P53 PROMOTER AND ALU AND LONG INTERSPERSED NUCLEAR ELEMENT-1 (LINE-1) REPETITIVE ELEMENTS, AS SURROGATE MEASURES OF GLOBAL METHYLATION] IN PBLS. TL WAS MEASURED BY REAL-TIME POLYMERASE CHAIN REACTION. COKEOVEN WORKERS WERE HEAVILY EXPOSED TO PAHS (79% EXCEEDED THE URINARY 1-PYRENOL BIOLOGICAL EXPOSURE INDEX) AND EXHIBITED LOWER TL (P = 0.038) THAN CONTROLS, AS WELL AS HIGHER LEVELS OF GENETIC AND CHROMOSOMAL ALTERATIONS [I.E. ANTI-BPDE-DNA ADDUCT AND MN (P < 0.0001)] AND EPIGENETIC CHANGES [I.E. P53 GENE-SPECIFIC PROMOTER AND GLOBAL METHYLATION (P 3 MUMOL 1-PYRENOL/MOL CREATININE) SHOWED HIGHER MTDNACN [GEOMETRIC MEANS (GM) OF 1.06 (UNADJUSTED) AND 1.07 (AGE-ADJUSTED)] COMPARED WITH CONTROLS [GM 0.89 (UNADJUSTED); 0.89 (AGE-ADJUSTED); (P = 0.029 AND 0.016)], AS WELL AS HIGHER LEVELS OF GENETIC AND CHROMOSOMAL [I.E., ANTI-BPDE-DNA ADDUCTS (P < 0.001), MICRONUCLEI (P < 0.001), AND TELOMERE LENGTH (P = 0.053)] AND EPIGENETIC [I.E., P53 GENE-SPECIFIC PROMOTER METHYLATION (P < 0.001)] ALTERATIONS IN THE NDNA. IN THE WHOLE STUDY POPULATION, UNADJUSTED AND AGE-ADJUSTED MTDNACN WAS POSITIVELY CORRELATED WITH 1-PYRENOL (P = 0.043 AND 0.032) AND ANTI-BPDE-DNA ADDUCTS (P = 0.046 AND 0.049). CONCLUSIONS: PAH EXPOSURE AND PAH-RELATED NDNA GENOTOXICITY ARE ASSOCIATED WITH INCREASED MTDNACN. IMPACT: THE PRESENT STUDY IS SUGGESTIVE OF POTENTIAL ROLES OF MTDNACN IN PAH-INDUCED CARCINOGENESIS. 2013 12 1189 41 CORRELATION BETWEEN GLOBAL METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES AND SERUM C REACTIVE PROTEIN LEVEL MODIFIED BY MTHFR POLYMORPHISM: A CROSS-SECTIONAL STUDY. BACKGROUND: CHRONIC INFLAMMATORY CONDITIONS ARE ASSOCIATED WITH HIGHER TUMOR INCIDENCE THROUGH EPIGENETIC AND GENETIC ALTERATIONS. HERE, WE FOCUSED ON AN ASSOCIATION BETWEEN AN INFLAMMATION MARKER, C-REACTIVE-PROTEIN (CRP), AND GLOBAL DNA METHYLATION LEVELS OF PERIPHERAL BLOOD LEUKOCYTES. METHODS: THE SUBJECTS WERE 384 HEALTHY JAPANESE WOMEN ENROLLED AS THE CONTROL GROUP OF A CASE-CONTROL STUDY FOR BREAST CANCER CONDUCTED FROM 2001 TO 2005. GLOBAL DNA METHYLATION WAS QUANTIFIED BY LUMINOMETRIC METHYLATION ASSAY (LUMA). RESULTS: WITH ADJUSTMENT FOR LIFESTYLE-RELATED FACTORS, INCLUDING FOLATE INTAKE, THE GLOBAL DNA METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES WAS SIGNIFICANTLY BUT WEAKLY INCREASED BY 0.43% PER QUARTILE CATEGORY FOR CRP (P FOR TREND = 0.010). ESTIMATED METHYLATION LEVELS STRATIFIED BY CRP QUARTILE WERE 70.0%, 70.8%, 71.4%, AND 71.3%, RESPECTIVELY. IN ADDITION, INTERACTION BETWEEN POLYMORPHISM OF MTHFR (RS1801133, KNOWN AS C677T) AND CRP WAS SIGNIFICANT (P FOR INTERACTION = 0.046); THE GLOBAL METHYLATION LEVEL WAS SIGNIFICANTLY INCREASED BY 0.61% PER QUARTILE CATEGORY FOR CRP IN THE CT/TT GROUP (THOSE WITH THE MINOR ALLELE T, P FOR TREND = 0.001), WHEREAS NO ASSOCIATION WAS OBSERVED IN THE CC GROUP (WILD TYPE). CONCLUSIONS: OUR STUDY SUGGESTS THAT CRP CONCENTRATION IS WEAKLY ASSOCIATED WITH GLOBAL DNA METHYLATION LEVEL. HOWEVER, THIS ASSOCIATION WAS OBSERVED MORE CLEARLY IN INDIVIDUALS WITH THE MINOR ALLELE OF THE MTHFR MISSENSE SNP RS1801133. BY ELUCIDATING THE COMPLEX MECHANISM OF THE REGULATION OF DNA METHYLATION BY BOTH ACQUIRED AND GENETIC FACTORS, OUR RESULTS MAY BE IMPORTANT FOR CANCER PREVENTION. 2018 13 1264 39 CYP2E1 EPIGENETIC REGULATION IN CHRONIC, LOW-LEVEL TOLUENE EXPOSURE: RELATIONSHIP WITH OXIDATIVE STRESS AND SMOKING HABIT. BACKGROUND: CYP2E1 IS A VERSATILE PHASE I DRUG-METABOLIZING ENZYME RESPONSIBLE FOR THE BIOTRANSFORMATION OF MOST VOLATILE ORGANIC COMPOUNDS, INCLUDING TOLUENE. HUMAN TOLUENE EXPOSURE INCREASES CYP2E1 MRNA AND MODIFIES ITS ACTIVITY IN LEUCOCYTES; HOWEVER, EPIGENETIC IMPLICATIONS OF THIS INTERACTION HAVE NOT BEEN INVESTIGATED. GOAL: TO DETERMINE PROMOTER METHYLATION OF CYP2E1 AND OTHER GENES KNOWN TO BE AFFECTED BY TOLUENE EXPOSURE. METHODS: WE OBTAINED VENOUS BLOOD FROM 24 TANNERY WORKERS EXPOSED TO TOLUENE (MEAN LEVELS: 10.86+/-7MG/M(3)) AND 24 ADMINISTRATIVE WORKERS (REFERENCE GROUP, MEAN LEVELS 0.21+/-0.02MG/M(3)) ALL OF THEM FROM THE CITY OF LEON, GUANAJUATO, MEXICO. AFTER DNA EXTRACTION AND BISULFITE TREATMENT, WE PERFORMED PCR-PYROSEQUENCING IN ORDER TO MEASURE METHYLATION LEVELS AT PROMOTER REGION OF 13 GENES. RESULTS: IN EXPOSED GROUP WE FOUND SIGNIFICANT CORRELATIONS BETWEEN TOLUENE AIRBORNE LEVELS AND CYP2E1 PROMOTER METHYLATION (R=-.36, P<0.05), AS WELL AS FOR IL6 PROMOTER METHYLATION LEVELS (R=.44, P<0.05). MOREOVER, CYP2E1 PROMOTER METHYLATION LEVELS WHERE HIGHER IN TOLUENE-EXPOSED SMOKERS COMPARED TO NONSMOKERS (P=0.009). WE ALSO OBSERVED SIGNIFICANT CORRELATIONS FOR CYP2E1 PROMOTER METHYLATION WITH GSTP1 AND SOD1 PROMOTER METHYLATION LEVELS (R=-.37, P<0.05 AND R=-.34, P<0.05 RESPECTIVELY). CONCLUSION: THESE RESULTS HIGHLIGHT THE IMPORTANCE OF CONSIDERING CYP2E1 EPIGENETIC MODIFICATIONS, AS WELL AS ITS INTERACTIONS WITH OTHER GENES, AS KEY FACTORS FOR UNRAVELING THE SUB CELLULAR MECHANISMS OF TOXICITY EXERTED BY OXIDATIVE STRESS, WHICH CAN INITIATE DISEASE PROCESS IN CHRONIC, LOW-LEVEL TOLUENE EXPOSURE. PEOPLE CO-EXPOSED TO TOLUENE AND TOBACCO SMOKE ARE IN HIGHER RISK DUE TO A POSSIBLE CYP2E1 REPRESSION. 2015 14 5628 37 SEMEN ABNORMALITIES, SPERM DNA DAMAGE AND GLOBAL HYPERMETHYLATION IN HEALTH WORKERS OCCUPATIONALLY EXPOSED TO IONIZING RADIATION. BACKGROUND: CYTOGENETIC STUDIES HAVE DEMONSTRATED THAT LOW LEVELS OF CHRONIC RADIATION EXPOSURE CAN POTENTIALLY INCREASE THE FREQUENCY OF CHROMOSOMAL ABERRATIONS AND ANEUPLOIDY IN SOMATIC CELLS. EPIDEMIOLOGICAL STUDIES HAVE SHOWN THAT HEALTH WORKERS OCCUPATIONALLY EXPOSED TO IONIZING RADIATION BEAR AN INCREASED RISK OF HEMATOLOGICAL MALIGNANCIES. OBJECTIVES: TO FIND THE INFLUENCE OF OCCUPATIONAL RADIATION EXPOSURE ON SEMEN CHARACTERISTICS, INCLUDING GENETIC AND EPIGENETIC INTEGRITY OF SPERMATOZOA IN A CHRONICALLY EXPOSED POPULATION. METHODS: THIS CROSS SECTIONAL STUDY INCLUDED 134 MALE VOLUNTEERS OF WHICH 83 WERE OCCUPATIONALLY EXPOSED TO IONIZING RADIATION AND 51 WERE NON-EXPOSED CONTROL SUBJECTS. SEMEN CHARACTERISTICS, SPERM DNA FRAGMENTATION, ANEUPLOIDY AND INCIDENCE OF GLOBAL HYPERMETHYLATION IN THE SPERMATOZOA WERE DETERMINED AND COMPARED BETWEEN THE NON-EXPOSED AND THE EXPOSED GROUP. RESULTS: DIRECT COMPARISON OF THE SEMEN CHARACTERISTICS BETWEEN THE NON-EXPOSED AND THE EXPOSED POPULATION REVEALED SIGNIFICANT DIFFERENCES IN MOTILITY CHARACTERISTICS, VIABILITY, AND MORPHOLOGICAL ABNORMALITIES (P<0.05-0.0001). ALTHOUGH, THE LEVEL OF SPERM DNA FRAGMENTATION WAS SIGNIFICANTLY HIGHER IN THE EXPOSED GROUP AS COMPARED TO THE NON-EXPOSED GROUP (P<0.05-0.0001), THE INCIDENCE OF SPERM ANEUPLOIDY WAS NOT STATISTICALLY DIFFERENT BETWEEN THE TWO GROUPS. HOWEVER, A SIGNIFICANT NUMBER OF HYPERMETHYLATED SPERMATOZOA WERE OBSERVED IN THE EXPOSED GROUP IN COMPARISON TO NON-EXPOSED GROUP (P<0.05). CONCLUSIONS: WE PROVIDE THE FIRST EVIDENCE ON THE DETRIMENTAL EFFECTS OF OCCUPATIONAL RADIATION EXPOSURE ON FUNCTIONAL, GENETIC AND EPIGENETIC INTEGRITY OF SPERM IN HEALTH WORKERS. HOWEVER, FURTHER STUDIES ARE REQUIRED TO CONFIRM THE POTENTIAL DETRIMENTAL EFFECTS OF IONIZING RADIATION IN THESE SUBJECTS. 2013 15 184 32 ACCOUNTING FOR TRANSGENERATIONAL EFFECTS OF TOXICANT EXPOSURE IN POPULATION MODELS ALTERS THE PREDICTED LONG-TERM POPULATION STATUS. ACUTE ENVIRONMENTAL STRESSORS SUCH AS SHORT-TERM EXPOSURE TO POLLUTANTS CAN HAVE LASTING EFFECTS ON ORGANISMS, POTENTIALLY IMPACTING FUTURE GENERATIONS. PARENTAL EXPOSURE TO TOXICANTS CAN RESULT IN CHANGES TO THE EPIGENOME (E.G., DNA METHYLATION) THAT ARE PASSED DOWN TO SUBSEQUENT, UNEXPOSED GENERATIONS. HOWEVER, IT IS DIFFICULT TO GAUGE THE CUMULATIVE POPULATION-SCALE IMPACTS OF EPIGENETIC EFFECTS FROM LABORATORY EXPERIMENTS ALONE. HERE, WE DEVELOPED A SIZE- AND AGE-STRUCTURED DELAY-COORDINATE POPULATION MODEL TO EVALUATE THE LONG-TERM CONSEQUENCES OF EPIGENETIC MODIFICATIONS ON POPULATION SUSTAINABILITY. THE MODEL EMULATED CHANGES IN GROWTH, MORTALITY, AND FECUNDITY IN THE F0, F1, AND F2 GENERATIONS OBSERVED IN EXPERIMENTS IN WHICH LARVAL MENIDIA BERYLLINA WERE EXPOSED TO ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF BIFENTHRIN (BIF), ETHINYLESTRADIOL (EE2), LEVONORGESTREL (LV), OR TRENBOLONE (TB) IN THE PARENT GENERATION (F0) AND REARED IN CLEAN WATER UP TO THE F2 GENERATION. OUR ANALYSIS SUGGESTS POTENTIALLY DRAMATIC POPULATION-LEVEL EFFECTS OF REPEATED, CHRONIC EXPOSURES OF EARLY-LIFE STAGE FISH THAT ARE NOT CAPTURED BY MODELS NOT ACCOUNTING FOR THOSE EFFECTS. SIMULATED EXPOSURES LED TO SUBSTANTIAL DECLINES IN POPULATION ABUNDANCE (LV AND BIF) OR NEAR-EXTINCTION (EE2 AND TB) WITH THE EXACT TRAJECTORY AND TIMELINE OF POPULATION DECLINE DEPENDENT ON THE COMBINATION OF F0, F1, AND F2 EFFECTS PRODUCED BY EACH COMPOUND. EVEN ACUTE ONE-TIME EXPOSURES OF EACH COMPOUND LED TO DECLINES AND RECOVERY OVER MULTIPLE YEARS DUE TO LAGGED EPIGENETIC EFFECTS. THESE RESULTS DEMONSTRATE THE POTENTIAL FOR ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF COMMONLY USED COMPOUNDS TO IMPACT THE POPULATION DYNAMICS AND SUSTAINABILITY OF AN ECOLOGICALLY RELEVANT SPECIES AND MODEL ORGANISM. 2022 16 3609 35 IN UTERO ARSENIC EXPOSURE AND EPIGENOME-WIDE ASSOCIATIONS IN PLACENTA, UMBILICAL ARTERY, AND HUMAN UMBILICAL VEIN ENDOTHELIAL CELLS. EXPOSURE TO ARSENIC EARLY IN LIFE HAS BEEN ASSOCIATED WITH INCREASED RISK OF SEVERAL CHRONIC DISEASES AND IS BELIEVED TO ALTER EPIGENETIC PROGRAMMING IN UTERO. IN THE PRESENT STUDY, WE EVALUATE THE EPIGENOME-WIDE ASSOCIATION OF ARSENIC EXPOSURE IN UTERO AND DNA METHYLATION IN PLACENTA (N = 37), UMBILICAL ARTERY (N = 45) AND HUMAN UMBILICAL VEIN ENDOTHELIAL CELLS (HUVEC) (N = 52) IN A BIRTH COHORT USING THE INFINIUM HUMANMETHYLATION450 BEADCHIP ARRAY. UNADJUSTED AND CELL MIXTURE ADJUSTED ASSOCIATIONS FOR EACH TISSUE WERE EXAMINED ALONG WITH ENRICHMENT ANALYSES RELATIVE TO CPG ISLAND LOCATION AND OMNIBUS PERMUTATION TESTS OF ASSOCIATION AMONG BIOLOGICAL PATHWAYS. ONE CPG IN ARTERY (CG26587014) AND 4 CPGS IN PLACENTA (CG12825509; CG20554753; CG23439277; CG21055948) REACHED A BONFERRONI ADJUSTED LEVEL OF SIGNIFICANCE. SEVERAL CPGS WERE DIFFERENTIALLY METHYLATED IN ARTERY AND PLACENTA WHEN CONTROLLING THE FALSE DISCOVERY RATE (Q-VALUE<0.05), BUT NONE IN HUVEC. ENRICHMENT OF HYPOMETHYLATED CPG ISLANDS WAS OBSERVED FOR ARTERY WHILE HYPERMETHYLATION OF OPEN SEA REGIONS WERE PRESENT IN PLACENTA RELATIVE TO PRENATAL ARSENIC EXPOSURE. THE MELANOGENESIS PATHWAY WAS DIFFERENTIALLY METHYLATED IN ARTERY (MAX F P < 0.001), PLACENTA (MAX F P < 0.001), AND HUVEC (MAX F P = 0.02). SIMILARLY, THE INSULIN-SIGNALING PATHWAY WAS DIFFERENTIALLY METHYLATED IN ARTERY (MAX F P = 0.02), PLACENTA (MAX F P = 0.02), AND HUVEC (MAX F P = 0.02). OUR RESULTS SHOW THAT PRENATAL ARSENIC EXPOSURE CAN ALTER DNA METHYLATION IN ARTERY AND PLACENTA BUT NOT IN HUVEC. FURTHER STUDIES ARE NEEDED TO DETERMINE IF THESE ALTERATIONS IN DNA METHYLATION MEDIATE THE EFFECT OF PRENATAL ARSENIC EXPOSURE AND HEALTH OUTCOMES LATER IN LIFE. 2015 17 6415 28 THE STUDY OF P16 AND P15 GENE METHYLATION IN HEAD AND NECK SQUAMOUS CELL CARCINOMA AND THEIR QUANTITATIVE EVALUATION IN PLASMA BY REAL-TIME PCR. EPIGENETIC SILENCING OF THE P16 AND P15 GENES BY PROMOTER METHYLATION ARE COMMONLY OBSERVED IN HUMAN EPITHELIAL MALIGNANCIES, INCLUDING HEAD AND NECK SQUAMOUS CELL CARCINOMAS (HNSCC). IN THIS STUDY, A METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP) WAS USED TO EVALUATE THE METHYLATION STATUS OF THE P16 AND P15 GENES IN 73 HNSCC SURGICAL SPECIMENS. P16 AND P15 GENE METHYLATION WAS ALSO EXAMINED IN 29 PAIRED METASTATIC LYMPH NODES AND 29 PAIRED HISTOLOGICALLY, NORMAL RESECTION MARGIN MUCOSAE. THE QUANTITY OF CELL-FREE METHYLATED P16 AND P15 DNA IN THE PLASMA SAMPLES OF 20 HNSCC PATIENTS AND 24 HEALTHY CONTROLS WAS ALSO EXAMINED USING A FLUORESCENCE-BASED REAL-TIME PCR ASSAY. THE FREQUENCIES OF P16 AND P15 METHYLATION IN THE PRIMARY TUMOUR WERE 49% AND 60%, RESPECTIVELY. CONCORDANT METHYLATION OF P16 AND P15 IN TUMOUR SAMPLES AND METASTATIC LYMPH NODES WAS FOUND IN 59 AND 38% OF CASES, RESPECTIVELY. A SIGNIFICANTLY HIGHER PREVALENCE OF P15 METHYLATION WAS FOUND IN HISTOLOGICALLY-NORMAL SURGICAL MARGIN EPITHELIA OF HNSCC PATIENTS WITH CHRONIC SMOKING AND DRINKING HABITS COMPARED WITH NON-SMOKERS AND NON-DRINKERS. IN ADDITION, METHYLATED P16 AND P15 DNA LEVELS WERE SIGNIFICANTLY HIGHER IN THE PLASMA OF HNSCC PATIENTS (MEAN 56 COPIES/ML PLASMA AND 65 COPIES/ML PLASMA, RESPECTIVELY) COMPARED WITH NORMAL CONTROLS (MEAN 6 COPIES/ML PLASMA AND 16 COPIES/ML PLASMA, RESPECTIVELY). IN CONCLUSION, PROMOTER METHYLATION OF THE P16 AND P15 GENES IS INVOLVED IN THE PATHOGENESIS OF HNSCC AND MAY BE RELATED TO CHRONIC SMOKING AND DRINKING. THE DIFFERENTIAL LEVELS OF METHYLATED P16 AND P15 DNA IN PLASMA MIGHT BE POTENTIAL USEFUL MARKERS IN SCREENING HIGH-RISK POPULATIONS FOR EARLY HNSCC AND MONITORING THEIR TREATMENT RESPONSE. 2003 18 73 26 A MULTI-GENERATIONAL STUDY ON LOW-DOSE BPA EXPOSURE IN WISTAR RATS: EFFECTS ON MATERNAL BEHAVIOR, FLAVOR INTAKE AND DEVELOPMENT. BISPHENOL A (BPA) IS A COMMON ENDOCRINE DISRUPTOR FOUND AS AN ENVIRONMENTAL AND FOOD CONTAMINANT. IT EXERTS BOTH DEVELOPMENTAL AND BEHAVIORAL EFFECTS, MAINLY WHEN EXPOSURE OCCURS IN EARLY LIFE. THE AIM OF THIS STUDY WAS TO DETERMINE THE MULTI-GENERATIONAL EFFECTS OF CHRONIC, HUMAN-RELEVANT LOW-DOSE EXPOSURE TO BPA ON DEVELOPMENT, MATERNAL BEHAVIOR AND FLAVOR PREFERENCE IN WISTAR RATS. BPA WAS ORALLY ADMINISTERED AT A DAILY DOSE OF 5 MUG/KG BODY WEIGHT TO F0 PREGNANT DAMS FROM THE FIRST DAY OF GESTATION (GD 1) UNTIL THE LAST DAY OF LACTATION (LD 21), AND THEN TO F1 OFFSPRING FROM WEANING (PND 21) TO ADULTHOOD (PND 100). F2 OFFSPRING WERE NOT EXPOSED. DEVELOPMENT AND CLINICAL SIGNS OF TOXICITY WERE ASSESSED DAILY. MATERNAL BEHAVIOR WAS EVALUATED BY OBSERVING NURSING AND PUP-CARING ACTIONS, AS WELL AS "NON-MATERNAL" BEHAVIORS IN F0 AND F1 DAMS FROM PARTURITION UNTIL LD 8. THE FLAVOR PREFERENCES OF F1 AND F2 OFFSPRING WERE EVALUATED BASED ON THE INTAKE OF SWEET, SALT AND FAT SOLUTIONS USING THE TWO-BOTTLE CHOICE TEST ON PND 21-34 AND PND 86-99. BPA EXPOSURE: 1) DECREASED MATERNAL BEHAVIOR IN F1 DAMS, 2) CAUSED DEVELOPMENTAL DEFECTS IN BOTH F1 AND F2 OFFSPRING, WITH A NOTICEABLE DECREASE IN ANOGENITAL DISTANCE IN MALE RATS, AND 3) DID NOT AFFECT FLAVORED SOLUTION INTAKE IN F1, BUT INDUCED CHANGES IN SWEET PREFERENCE IN F2 JUVENILES AND IN SALT AND FAT SOLUTION INTAKES IN F2 ADULTS, AND 4) INDUCED A BODY WEIGHT INCREASE IN THE F2 GENERATION ONLY, WHEREAS FOOD INTAKE AND WATER CONSUMPTION DID NOT CHANGE. TAKEN AS A WHOLE, OUR FINDINGS SHOWED THAT BOTH GESTATIONAL (F0) AND LIFELONG (F1) EXPOSURES TO A HUMAN-RELEVANT DOSE OF BPA COULD INDUCE MULTI-GENERATIONAL EFFECTS ON BOTH DEVELOPMENT AND BEHAVIOR. THESE RESULTS SUGGEST POSSIBLE SELECTIVE NEUROENDOCRINE DEFECTS AND/OR EPIGENETIC CHANGES CAUSED BY BPA EXPOSURE. 2014 19 2031 32 EPIGENETIC CHANGES IN LYMPHOCYTES OF SOLVENT-EXPOSED INDIVIDUALS. AIM: WE INVESTIGATED GLOBAL DNA METHYLATION ALTERATIONS IN LYMPHOCYTES OF SOLVENT WORKERS AND CHRONIC TOXIC ENCEPHALOPATHY (CTE) PATIENTS AND EXPLORED POTENTIAL GENE-ENVIRONMENT INTERACTIONS FOR GST. POPULATION & METHODS: A CROSS-SECTIONAL STUDY WAS SET UP IN 41 REFERENTS, 128 SOLVENT WORKERS AND 23 CTE PATIENTS. RESULTS: WE FOUND A GLOBAL DNA HYPERMETHYLATION IN THE SOLVENT-EXPOSED POPULATION COMPARED WITH THE REFERENTS (P = 0.001, R = -0.544). GLOBAL DNA METHYLATION WAS NEGATIVELY ASSOCIATED WITH EXPOSURE. FURTHERMORE, GSTP1 GENOTYPIC POLYMORPHISM WAS FOUND TO BE SIGNIFICANTLY ASSOCIATED (P = 0.033) WITH GLOBAL DNA HYPOMETHYLATION, WHICH INDICATES A POTENTIAL ROLE FOR GENE-ENVIRONMENT INTERACTION IN THE ETIOLOGY OF SOLVENT-INDUCED NEUROBEHAVIORAL DISORDERS. CONCLUSION: THIS STUDY INDICATES THAT SOLVENT-INDUCED DNA METHYLATION ALTERATIONS HAVE AN IMPACT ON NEUROTOXICITY AND DEVELOPMENT OF CTE. 2012 20 3783 29 INTERFERON-GAMMA PROMOTER HYPOMETHYLATION AND INCREASED EXPRESSION IN CHRONIC PERIODONTITIS. AIM: THE GOAL OF THIS INVESTIGATION WAS TO DETERMINE WHETHER EPIGENETIC MODIFICATIONS IN THE IFNG PROMOTER ARE ASSOCIATED WITH AN INCREASE OF IFNG TRANSCRIPTION IN DIFFERENT STAGES OF PERIODONTAL DISEASES. MATERIALS AND METHODS: DNA WAS EXTRACTED FROM GINGIVAL BIOPSY SAMPLES COLLECTED FROM 47 TOTAL SITES FROM 47 DIFFERENT SUBJECTS: 23 PERIODONTALLY HEALTHY SITES, 12 EXPERIMENTALLY INDUCED GINGIVITIS SITES AND 12 CHRONIC PERIODONTITIS SITES. LEVELS OF DNA METHYLATION WITHIN THE IFNG PROMOTER CONTAINING SIX CPG DINUCLEOTIDES WERE DETERMINED USING PYROSEQUENCING TECHNOLOGY. INTERFERON GAMMA MRNA EXPRESSION WAS ANALYSED BY QUANTITATIVE POLYMERASE CHAIN REACTIONS USING ISOLATED RNA FROM PART OF THE BIOLOGICAL SAMPLES MENTIONED ABOVE. RESULTS: THE METHYLATION LEVEL OF ALL SIX ANALYSED CPG SITES WITHIN THE IFNG PROMOTER REGION IN THE PERIODONTITIS BIOPSIES 52% [INTERQUARTILE RANGE, IQR (43.8%, 63%)] WAS SIGNIFICANTLY LOWER THAN PERIODONTALLY HEALTHY SAMPLES 62% [IQR (51.3%, 74%)], P=0.007 AND GINGIVITIS BIOPSIES 63% [IQR (55%, 74%)], P=0.02. THE TRANSCRIPTIONAL LEVEL OF IFNG IN PERIODONTITIS BIOPSIES WAS 1.96-FOLD AND SIGNIFICANTLY HIGHER THAN TISSUES WITH PERIODONTAL HEALTH (P=0.04). ALTHOUGH THE MRNA LEVEL FROM EXPERIMENTAL GINGIVITIS SAMPLES EXHIBITED AN 8.5-FOLD INCREASE AS COMPARED WITH PERIODONTALLY HEALTHY SAMPLES, NO SIGNIFICANT METHYLATION DIFFERENCE WAS OBSERVED IN EXPERIMENTAL GINGIVITIS SAMPLE. CONCLUSIONS: A HYPOMETHYLATION PROFILE WITHIN IFNG PROMOTER REGION IS RELATED TO AN INCREASE OF IFNG TRANSCRIPTION PRESENT IN THE CHRONIC PERIODONTITIS BIOPSIES, WHILE SUCH AN INCREASE OF IFNG IN EXPERIMENTALLY INDUCED GINGIVITIS SEEMS INDEPENDENT OF PROMOTER METHYLATION ALTERATION. 2010