1 5683 147 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 5 1916 40 ENVIRONMENTAL AND OCCUPATIONAL EXPOSURE TO CHEMICALS AND TELOMERE LENGTH IN HUMAN STUDIES. TELOMERES ARE COMPLEXES OF TANDEM REPEATS OF DNA (5'-TTAGGG-3') AND PROTEIN THAT CAP EUKARYOTIC CHROMOSOMES AND PLAY A CRITICAL ROLE IN CHROMOSOME STABILITY. TELOMERES SHORTEN WITH AGING AND THIS PROCESS CAN BE ACCELERATED BY INCREASED OXIDATIVE STRESS AND EPISODES OF INFLAMMATION. EVIDENCE IS RAPIDLY GROWING THAT TELOMERE LENGTH (TL) MAY BE AFFECTED BY ENVIRONMENTAL CHEMICALS THAT HAVE FREQUENTLY BEEN ASSOCIATED WITH CHRONIC DISEASES. IN THIS ARTICLE, WE REVIEW THE PUBLISHED DATA ON TL IN RELATION TO ENVIRONMENTAL AND OCCUPATIONAL EXPOSURE TO SEVERAL CHEMICALS BASED ON OUR OWN AND OTHERS' STUDIES. THE ENVIRONMENTAL AND OCCUPATIONAL EXPOSURES ASSOCIATED WITH SHORTER TL INCLUDE TRAFFIC-RELATED AIR POLLUTION (IE, PARTICULATE MATTER (PM), BLACK CARBON (BC), AND BENZENE AND TOLUENE), POLYCYCLIC AROMATIC HYDROCARBONS (PAHS), N-NITROSAMINES, PESTICIDES, LEAD, EXPOSURE IN CAR MECHANICAL WORKSHOPS, AND HAZARDOUS WASTE EXPOSURE. ARSENIC, PERSISTENT ORGANIC POLLUTANTS (POPS) AND SHORT-TERM EXPOSURE TO PM ARE ASSOCIATED WITH LONGER TL. WE DISCUSS THE POSSIBLE REASONS FOR THE DIFFERENCES IN RESULTS, INCLUDING TIME- AND DOSE-RELATED ISSUES, STUDY DESIGN, AND POSSIBLE MECHANISMS INVOLVED IN TELOMERE REGULATION. WE ALSO DISCUSS THE FUTURE DIRECTIONS AND CHALLENGES FOR TL-RELATED ENVIRONMENTAL AND OCCUPATIONAL HEALTH RESEARCH, SUCH AS INVESTIGATION OF TL IN SUBPOPULATIONS OF BLOOD LEUKOCYTES, AND THE STUDY OF GENETIC AND EPIGENETIC FACTORS THAT MAY REGULATE TELOMERE INTEGRITY USING LONGITUDINAL DESIGNS. 2013 6 567 33 BASIC PROPERTIES AND MOLECULAR MECHANISMS OF EXOGENOUS CHEMICAL CARCINOGENS. EXOGENOUS CHEMICAL CARCINOGENESIS IS AN EXTREMELY COMPLEX MULTIFACTORIAL PROCESS DURING WHICH GENE-ENVIRONMENT INTERACTIONS INVOLVING CHRONIC EXPOSURE TO EXOGENOUS CHEMICAL CARCINOGENS (ECCS) AND POLYMORPHISMS OF CANCER SUSCEPTIBILITY GENES ADD FURTHER COMPLEXITY. WE DESCRIBE THE PROPERTIES AND MOLECULAR MECHANISMS OF ECCS THAT CONTRIBUTE TO INDUCE AND GENERATE CANCER. A BASIC AND SPECIFIC PROPERTY OF MANY LIPOPHILIC ORGANIC ECCS INCLUDING POLYCYCLIC AROMATIC HYDROCARBONS AND POLYHALOGENATED AROMATIC HYDROCARBONS IS THEIR ABILITY TO BIOACCUMULATE IN THE ADIPOSE TISSUE FROM WHERE THEY MAY BE RELEASED IN THE BLOOD CIRCULATION AND TARGET PERIPHERAL TISSUES FOR CARCINOGENESIS. MANY ORGANIC ECCS ARE PROCARCINOGENS AND CONSEQUENTLY NEED TO BE ACTIVATED BY THE CYTOCHROME P450 (CYP) SYSTEM AND/OR OTHER ENZYMES BEFORE THEY CAN ADDUCT DNA AND PROTEINS. BECAUSE THEY CONTRIBUTE NOT ONLY TO THE COCARCINOGENIC AND PROMOTING EFFECTS OF MANY AROMATIC POLLUTANTS BUT ALSO TO THEIR MUTAGENIC EFFECTS, THE ARYL HYDROCARBON RECEPTOR-ACTIVATING AND THE INDUCIBLE CYP SYSTEMS ARE CENTRAL TO EXOGENOUS CHEMICAL CARCINOGENESIS. ANOTHER BASIC PROPERTY OF ECCS IS THEIR ABILITY TO INDUCE STABLE AND BULKY DNA ADDUCTS THAT CANNOT BE SIMPLY REPAIRED BY THE DIFFERENT REPAIR SYSTEMS. IN ADDITION, FOLLOWING ECC EXPOSURE, MUTAGENESIS MAY ALSO BE CAUSED INDIRECTLY BY FREE-RADICAL PRODUCTION AND BY EPIGENETIC ALTERATIONS. AS A RESULT OF COMPLEX MOLECULAR INTERPLAYS, DIRECT AND/OR INDIRECT MUTAGENESIS MAY ESPECIALLY ACCOUNT FOR THE CARCINOGENIC EFFECTS OF MANY EXOGENOUS METALS AND METALLOIDS. BECAUSE OF THESE MOLECULAR PROPERTIES AND ACTION MECHANISMS, WE CONCLUDE THAT ECCS COULD BE MAJOR CONTRIBUTORS TO HUMAN CANCER, WITH OBVIOUSLY GREAT PUBLIC HEALTH CONSEQUENCES. 2010 7 3710 45 INFLUENCES OF POLYCYCLIC AROMATIC HYDROCARBON ON THE EPIGENOME TOXICITY AND ITS APPLICABILITY IN HUMAN HEALTH RISK ASSESSMENT. THE EXISTENCE OF POLYCYCLIC AROMATIC HYDROCARBONS (PAHS) IN AMBIENT AIR IS AN ESCALATING CONCERN WORLDWIDE BECAUSE OF THEIR ABILITY TO CAUSE CANCER AND INDUCE PERMANENT CHANGES IN THE GENETIC MATERIAL. GROWING EVIDENCE IMPLIES THAT DURING EARLY LIFE-SENSITIVE STAGES, THE RISK OF PROGRESSION OF ACUTE AND CHRONIC DISEASES DEPENDS ON EPIGENETIC CHANGES INITIATED BY THE INFLUENCE OF ENVIRONMENTAL CUES. SEVERAL REPORTS DECIPHERED THE RELATIONSHIP BETWEEN EXPOSURE TO ENVIRONMENTAL CHEMICALS AND EPIGENETICS, AND HAVE KNOWN TOXICANTS THAT ALTER THE EPIGENETIC STATES. AMONGST PAHS, BENZO[A]PYRENE (B[A]P) IS ACCEPTED AS A GROUP 1 CANCER-CAUSING AGENT BY THE INTERNATIONAL AGENCY FOR THE RESEARCH ON CANCER (IARC). B[A]P IS A WELL-STUDIED PRO-CARCINOGEN THAT IS METABOLICALLY ACTIVATED BY THE ARYL HYDROCARBON RECEPTOR (AHR)/CYTOCHROME P450 PATHWAY. CYTOCHROME P450 PLAYS A PIVOTAL ROLE IN THE STIMULATION STEP, WHICH IS ESSENTIAL FOR DNA ADDUCT FORMATION. ACCRUING EVIDENCE SUGGESTS THAT EPIGENETIC ALTERATIONS ASSUME A FUNDAMENTAL PART IN PAH-PROMOTED CARCINOGENESIS. THIS INTERACTION BETWEEN PAHS AND EPIGENETIC FACTORS RESULTS IN AN ALTERED PROFILE OF THESE MARKS, GLOBALLY AND LOCUS-SPECIFIC. SOME OF THE EPIGENETIC CHANGES DUE TO EXPOSURE TO PAHS LEAD TO INCREASED DISEASE SUSCEPTIBILITY AND PROGRESSION. IT IS WELL UNDERSTOOD THAT EXPOSURE TO ENVIRONMENTAL CARCINOGENS, SUCH AS PAH TRIGGERS DISEASE PATHWAYS THROUGH CHANGES IN THE GENOME. SEVERAL EVIDENCE REPORTED DUE TO THE EPIGENOME-WIDE ASSOCIATION STUDIES, THAT EARLY LIFE ADVERSE ENVIRONMENTAL EVENTS MAY TRIGGER WIDESPREAD AND PERSISTENT VARIATIONS IN TRANSCRIPTIONAL PROFILING. MOREOVER, THESE VARIATIONS RESPOND TO DNA DAMAGE AND/OR A CONSEQUENCE OF EPIGENETIC MODIFICATIONS THAT NEED FURTHER INVESTIGATION. GROWING EVIDENCE HAS ASSOCIATED PAHS WITH EPIGENETIC VARIATIONS INVOLVING ALTERATIONS IN DNA METHYLATION, HISTONE MODIFICATION, AND MICRO RNA (MIRNA) REGULATION. EPIGENETIC ALTERATIONS TO PAH EXPOSURE WERE RELATED TO CHRONIC DISEASES, SUCH AS PULMONARY DISEASE, CARDIOVASCULAR DISEASE, ENDOCRINE DISRUPTOR, NERVOUS SYSTEM DISORDER, AND CANCER. THIS HORMETIC RESPONSE GIVES A NOVEL PERCEPTION CONCERNING THE TOXICITY OF PAHS AND THE BIOLOGICAL REACTION THAT MAY BE A DISTINCT RELIANCE ON EXPOSURE. THIS REVIEW SHEDS LIGHT ON UNDERSTANDING THE LATEST EVIDENCE ABOUT HOW PAHS CAN ALTER EPIGENETIC PATTERNS AND HUMAN HEALTH. IN CONCLUSION, AS SEVERAL EPIGENETIC CHANGE MECHANISMS REMAIN UNCLEAR YET, FURTHER ANALYSES DERIVED FROM PAHS EXPOSURE MUST BE PERFORMED TO FIND NEW TARGETS AND DISEASE BIOMARKERS. IN SPITE OF THE CURRENT LIMITATIONS, NUMEROUS EVIDENCE SUPPORTS THE PERCEPTION THAT EPIGENETICS GRIPS SUBSTANTIAL POTENTIAL FOR ADVANCING OUR KNOWLEDGE ABOUT THE MOLECULAR MECHANISMS OF ENVIRONMENTAL TOXICANTS, ALSO FOR PREDICTING HEALTH-ASSOCIATED RISKS DUE TO ENVIRONMENTAL CIRCUMSTANCES EXPOSURE AND INDIVIDUAL SUSCEPTIBILITY. 2022 8 5960 42 TELOMERE LENGTH IN HEPATOCELLULAR CARCINOMA AND PAIRED ADJACENT NON-TUMOR TISSUES BY QUANTITATIVE PCR. TELOMERE SHORTENING LIMITS THE PROLIFERATIVE CAPACITY OF HUMAN CELLS, RESTRAINS THE REGENERATIVE CAPACITY OF ORGAN SYSTEMS DURING CHRONIC DISEASES AND AGING AND ALSO INDUCES CHROMOSOMAL INSTABILITY AS WELL AS INITIATION OF CANCER. PREVIOUS STUDIES DEMONSTRATED THAT TELOMERES ARE OFTEN SIGNIFICANTLY SHORTER IN TUMOR TISSUE, INCLUDING HEPATOCELLULAR CARCINOMA (HCC), COMPARED TO THE SURROUNDING TISSUE, BUT TELOMERE LENGTH IN HCC TISSUES WAS NOT CORRELATED WITH SEVERAL CLINICAL PARAMETERS, SUCH AS AGE, SEX, HBV OR HCV INFECTIONS AND TUMOR SIZE. IN THE PRESENT STUDY, THE TELOMERE LENGTH RATIO OF 36 PAIRED HCC, AND THEIR ADJACENT NON-TUMOR TISSUES WAS MEASURED BY QUANTITATIVE PCR (Q-PCR). THE MEAN TELOMERE LENGTHS (SD) FOR HCC AND ADJACENT NON-TUMOR TISSUES WERE 0.26 (0.10) AND 0.47 (0.20) RESPECTIVELY (T = 6.22, P < 0.0001). THERE WAS A LARGE DIFFERENCE IN THE DISTRIBUTION OF SUBJECTS BASED ON TELOMERE LENGTH IN TUMOR AND ADJACENT NON-TUMOR TISSUES. THE NUMBER OF TUMORS WITH TELOMERE LENGTH SHORTER THAN 0.50 WAS MUCH HIGHER THAN THAT OF ADJACENT NON-TUMOR TISSUES; MORE THAN 90% OF THE TISSUES WITH TELOMERE LENGTH > OR = 0.50 WERE ADJACENT NON-TUMOR TISSUES. THE CORRELATIONS BETWEEN TELOMERE LENGTH AND AFLATOXIN B1- AND POLYCYCLIC AROMATIC HYDROCARBON-DNA ADDUCTS LEVEL, P53 MUTATIONS AND P16 HYPERMETHYLATION STATUS WERE ALSO TESTED, BUT NO SIGNIFICANT ASSOCIATIONS WERE FOUND. THE RELATIONSHIP BETWEEN TELOMERE LENGTH SHORTENING, CHEMICAL CARCINOGEN EXPOSURE, AND GENETIC AND EPIGENETIC CHANGES IN HEPATOCARCINOGENESIS NEEDS FURTHER INVESTIGATION. 2007 9 299 33 AIR POLLUTION AND DNA METHYLATION: EFFECTS OF EXPOSURE IN HUMANS. AIR POLLUTION EXPOSURE IS ESTIMATED TO CONTRIBUTE TO APPROXIMATELY SEVEN MILLION EARLY DEATHS EVERY YEAR WORLDWIDE AND MORE THAN 3% OF DISABILITY-ADJUSTED LIFE YEARS LOST. AIR POLLUTION HAS NUMEROUS HARMFUL EFFECTS ON HEALTH AND CONTRIBUTES TO THE DEVELOPMENT AND MORBIDITY OF CARDIOVASCULAR DISEASE, METABOLIC DISORDERS, AND A NUMBER OF LUNG PATHOLOGIES, INCLUDING ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). EMERGING DATA INDICATE THAT AIR POLLUTION EXPOSURE MODULATES THE EPIGENETIC MARK, DNA METHYLATION (DNAM), AND THAT THESE CHANGES MIGHT IN TURN INFLUENCE INFLAMMATION, DISEASE DEVELOPMENT, AND EXACERBATION RISK. SEVERAL TRAFFIC-RELATED AIR POLLUTION (TRAP) COMPONENTS, INCLUDING PARTICULATE MATTER (PM), BLACK CARBON (BC), OZONE (O(3)), NITROGEN OXIDES (NO(X)), AND POLYAROMATIC HYDROCARBONS (PAHS), HAVE BEEN ASSOCIATED WITH CHANGES IN DNAM; TYPICALLY LOWERING DNAM AFTER EXPOSURE. EFFECTS OF AIR POLLUTION ON DNAM HAVE BEEN OBSERVED ACROSS THE HUMAN LIFESPAN, BUT IT IS NOT YET CLEAR WHETHER EARLY LIFE DEVELOPMENTAL SENSITIVITY OR THE ACCUMULATION OF EXPOSURES HAVE THE MOST SIGNIFICANT EFFECTS ON HEALTH. AIR POLLUTION EXPOSURE-ASSOCIATED DNAM PATTERNS ARE OFTEN CORRELATED WITH LONG-TERM NEGATIVE RESPIRATORY HEALTH OUTCOMES, INCLUDING THE DEVELOPMENT OF LUNG DISEASES, A FOCUS IN THIS REVIEW. RECENTLY, INTERVENTIONS SUCH AS EXERCISE AND B VITAMINS HAVE BEEN PROPOSED TO REDUCE THE IMPACT OF AIR POLLUTION ON DNAM AND HEALTH. ULTIMATELY, IMPROVED KNOWLEDGE OF HOW EXPOSURE-INDUCED CHANGE IN DNAM IMPACTS HEALTH, BOTH ACUTELY AND CHRONICALLY, MAY ENABLE PREVENTATIVE AND REMEDIAL STRATEGIES TO REDUCE MORBIDITY IN POLLUTED ENVIRONMENTS. 2019 10 298 30 AIR POLLUTION AND AIRWAY DISEASE. EPIDEMIOLOGICAL AND TOXICOLOGICAL RESEARCH CONTINUES TO SUPPORT A LINK BETWEEN URBAN AIR POLLUTION AND AN INCREASED INCIDENCE AND/OR SEVERITY OF AIRWAY DISEASE. DETRIMENTAL EFFECTS OF OZONE (O(3)), NITROGEN DIOXIDE (NO(2)) AND PARTICULATE MATTER (PM), AS WELL AS TRAFFIC-RELATED POLLUTION AS A WHOLE, ON RESPIRATORY SYMPTOMS AND FUNCTION ARE WELL DOCUMENTED. NOT ONLY DO WE HAVE STRONG EPIDEMIOLOGICAL EVIDENCE OF A RELATIONSHIP BETWEEN AIR POLLUTION AND EXACERBATION OF ASTHMA AND RESPIRATORY MORBIDITY AND MORTALITY IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), BUT RECENT STUDIES, PARTICULARLY IN URBAN AREAS, HAVE SUGGESTED A ROLE FOR POLLUTANTS IN THE DEVELOPMENT OF BOTH ASTHMA AND COPD. SIMILARLY, WHILE PREVALENCE AND SEVERITY OF ATOPIC CONDITIONS APPEAR TO BE MORE COMMON IN URBAN COMPARED WITH RURAL COMMUNITIES, EVIDENCE IS EMERGING THAT TRAFFIC-RELATED POLLUTANTS MAY CONTRIBUTE TO THE DEVELOPMENT OF ALLERGY. FURTHERMORE, NUMEROUS EPIDEMIOLOGICAL AND EXPERIMENTAL STUDIES SUGGEST AN ASSOCIATION BETWEEN EXPOSURE TO NO(2) , O(3) , PM AND COMBUSTION PRODUCTS OF BIOMASS FUELS AND AN INCREASED SUSCEPTIBILITY TO AND MORBIDITY FROM RESPIRATORY INFECTION. GIVEN THE CONSIDERABLE CONTRIBUTION THAT TRAFFIC EMISSIONS MAKE TO URBAN AIR POLLUTION RESEARCHERS HAVE SOUGHT TO CHARACTERIZE THE RELATIVE TOXICITY OF TRAFFIC-RELATED PM POLLUTANTS. RECENT ADVANCES IN MECHANISMS IMPLICATED IN THE ASSOCIATION OF AIR POLLUTANTS AND AIRWAY DISEASE INCLUDE EPIGENETIC ALTERATION OF GENES BY COMBUSTION-RELATED POLLUTANTS AND HOW POLYMORPHISMS IN GENES INVOLVED IN ANTIOXIDANT PATHWAYS AND AIRWAY INFLAMMATION CAN MODIFY RESPONSES TO AIR POLLUTION EXPOSURES. OTHER INTERESTING EPIDEMIOLOGICAL OBSERVATIONS RELATED TO INCREASED HOST SUSCEPTIBILITY INCLUDE A POSSIBLE LINK BETWEEN CHRONIC PM EXPOSURE DURING CHILDHOOD AND VULNERABILITY TO COPD IN ADULTHOOD, AND THAT INFANTS SUBJECTED TO HIGHER PRENATAL LEVELS OF AIR POLLUTION MAY BE AT GREATER RISK OF DEVELOPING RESPIRATORY CONDITIONS. WHILE THE CHARACTERIZATION OF POLLUTANT COMPONENTS AND SOURCES PROMISE TO GUIDE POLLUTION CONTROL STRATEGIES, THE IDENTIFICATION OF SUSCEPTIBLE SUBPOPULATIONS WILL BE NECESSARY IF TARGETED THERAPY/PREVENTION OF POLLUTION-INDUCED RESPIRATORY DISEASES IS TO BE DEVELOPED. 2011 11 6492 47 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 12 1223 36 CRITICAL REVIEW ON EMERGING HEALTH EFFECTS ASSOCIATED WITH THE INDOOR AIR QUALITY AND ITS SUSTAINABLE MANAGEMENT. INDOOR AIR QUALITY (IAQ) IS ONE OF THE FUNDAMENTAL ELEMENTS AFFECTING PEOPLE'S HEALTH AND WELL-BEING. CURRENTLY, THERE IS A LACK OF AWARENESS AMONG PEOPLE ABOUT THE QUANTIFICATION, IDENTIFICATION, AND POSSIBLE HEALTH EFFECTS OF IAQ. AIRBORNE POLLUTANTS SUCH AS VOLATILE ORGANIC COMPOUNDS (VOCS), PARTICULATE MATTER (PM), SULFUR DIOXIDE (SO2), CARBON MONOXIDE (CO), NITROUS OXIDE (NO), POLYCYCLIC AROMATIC HYDROCARBONS (PAHS) MICROBIAL SPORES, POLLEN, ALLERGENS, ETC. PRIMARILY CONTRIBUTE TO IAQ DETERIORATION. THIS REVIEW DISCUSSES THE SOURCES OF MAJOR INDOOR AIR POLLUTANTS, MOLECULAR TOXICITY MECHANISMS, AND THEIR EFFECTS ON CARDIOVASCULAR, OCULAR, NEUROLOGICAL, WOMEN, AND FOETAL HEALTH. ADDITIONALLY, CONTEMPORARY STRATEGIES AND SUSTAINABLE METHODS FOR REGULATING AND REDUCING POLLUTANT CONCENTRATIONS ARE EMPHASIZED, AND CURRENT INITIATIVES TO ADDRESS AND ENHANCE IAQ ARE EXPLORED, ALONG WITH THEIR UNIQUE ADVANTAGES AND POTENTIALS. DUE TO THEIR LONGER EXPOSURE TIMES AND PARTICULAR PHYSICAL CHARACTERISTICS, WOMEN AND CHILDREN ARE MORE AT RISK FOR POOR INDOOR AIR QUALITY. BY TRIGGERING MANY TOXICITY MECHANISMS, INCLUDING OXIDATIVE STRESS, DNA METHYLATION, EPIGENETIC MODIFICATIONS, AND GENE ACTIVATION, INDOOR AIR POLLUTION CAN CAUSE A RANGE OF HEALTH ISSUES. LOW BIRTH WEIGHT, ACUTE LOWER RESPIRATORY TRACT INFECTIONS, SICK BUILDING SYNDROMES (SBS), AND EARLY DEATH ARE MORE PREVALENT IN EXPOSED RESIDENTS. ON THE OTHER HAND, THE MAIN CAUSES OF INCAPACITY AND EARLY MORTALITY ARE LUNG CANCER, CHRONIC OBSTRUCTIVE PULMONARY DISEASE, AND CARDIOVASCULAR DISORDERS. IT'S CRUCIAL TO ACKNOWLEDGE ANTICIPATED RESEARCH NEEDS AND IMPLEMENTED EFFICIENT INTERVENTIONS AND POLICIES TO LOWER HEALTH HAZARDS. 2023 13 906 28 CHRONIC EXPOSURE TO ENVIRONMENTAL LEVEL PHENANTHRENE INDUCES NON-OBESITY-DEPENDENT INSULIN RESISTANCE IN MALE MICE. EPIDEMIOLOGICAL EVIDENCE SHOWS THAT THE BODY BURDEN OF POLYCYCLIC AROMATIC HYDROCARBONS (PAHS) IS RELATED TO THE DISRUPTION OF GLUCOSE HOMEOSTASIS. HOWEVER, THE CONTRIBUTION OF PAHS TO THE DEVELOPMENT OF DIABETES REMAINS POORLY DOCUMENTED. IN THE CURRENT WORK, MALE KUNMING MICE RECEIVED PHENANTHRENE (PHE) (5, 50, AND 500 NG/KG) BY GAVAGE ADMINISTRATION ONCE EVERY 2 DAYS FOR 28 WEEKS. THE SIGNIFICANT ELEVATION OF HOMEOSTASIS MODEL ASSESSMENT-INSULIN RESISTANCE (HOMA-IR) AND HOMA-BETA CELL, ACCOMPANIED BY HYPERINSULINEMIA, INDICATED THE OCCURRENCE OF INSULIN RESISTANCE. THE SUPPRESSION OF THE INSULIN RECEPTOR SIGNALING PATHWAY IN SKELETAL MUSCLE MIGHT BE RESPONSIBLE FOR GLUCOSE INTOLERANCE. UNDER THE NONOBESE STATE, THE SERUM LEVELS OF RESISTIN, TUMOR NECROSIS FACTOR-ALPHA, AND INTERLEUKIN-6 WERE ELEVATED, WHEREAS THE LEVELS OF ADIPONECTIN WERE REDUCED. THESE CHANGES IN ADIPOCYTOKINE LEVELS WERE CONSISTENT WITH THEIR TRANSCRIPTION IN WHITE ADIPOSE TISSUE. THE PROMOTER METHYLATION LEVELS OF RETN (ENCODING RESISTIN) AND ADIPOQ (ENCODING ADIPONECTIN) WERE INVERSELY CORRELATED WITH THEIR MRNA LEVELS, INDICATING THAT PHE EXPOSURE COULD CAUSE THE DISRUPTION OF ADIPOCYTOKINE SECRETION VIA EPIGENETIC MODIFICATION. THE RESULTS WOULD BE HELPFUL FOR UNDERSTANDING THE PATHOGENESIS IN THE DEVELOPMENT OF T2DM CAUSED BY NONOBESOGENIC POLLUTANTS. 2020 14 1919 25 ENVIRONMENTAL ENDOCRINE DISRUPTORS: NEW DIABETOGENS? THE PREVALENCE OF TYPE-2 DIABETES HAS DRAMATICALLY INCREASED WORLDWIDE DURING THE LAST FEW DECADES. WHILE LIFESTYLE FACTORS (SEDENTARINESS, NOXIOUS FOOD), TOGETHER WITH GENETIC SUSCEPTIBILITY, ARE WELL-KNOWN ACTORS, THERE IS ACCUMULATING EVIDENCE SUGGESTING THAT ENDOCRINE DISRUPTING CHEMICALS (EDCS) MAY ALSO PLAY A PATHOPHYSIOLOGICAL ROLE IN THE OCCURRENCE OF METABOLIC DISEASES. BOTH EXPERIMENTAL AND EPIDEMIOLOGICAL EVIDENCE SUPPORT A ROLE FOR EARLY AND CHRONIC EXPOSURE TO LOW DOSES OF CHEMICAL POLLUTANTS WITH ENDOCRINE AND METABOLIC DISRUPTING EFFECTS. MOST ARE PRESENT IN THE FOOD CHAIN AND ACCUMULATE IN THE FAT MASS AFTER ABSORPTION. IN RODENTS, BISPHENOL A STIMULATES SYNTHESIS AND SECRETION OF PANCREATIC BETA CELLS AND DISTURBS INSULIN SIGNALING IN LIVER, MUSCLE AND ADIPOSE TISSUE THROUGH EPIGENETIC CHANGES LEADING TO INSULIN RESISTANCE AND BETA CELL IMPAIRMENT. IN HUMANS, EPIDEMIOLOGICAL REPORTS SHOW STATISTICAL LINK BETWEEN EXPOSURE TO PESTICIDES, POLYCHLORINATED BISPHENYLS, BISPHENOL A, PHTHALATES, DIOXINS OR AROMATIC POLYCYCLIC HYDROCARBIDES OR HEAVY METALS AND DT2 AFTER ACUTE ACCIDENTAL RELEASES OR EARLY IN LIFE AND/OR CHRONIC, LOW DOSES EXPOSURE. MORE PROSPECTIVE, LONGITUDINAL STUDIES ARE NEEDED TO DETERMINE THE IMPORTANCE OF SUCH ENVIRONMENTAL RISK FACTORS. 2017 15 588 35 BENZENE EXPOSURE IS ASSOCIATED WITH EPIGENETIC CHANGES (REVIEW). BENZENE IS A VOLATILE AROMATIC HYDROCARBON SOLVENT AND IS KNOWN AS ONE OF THE PREDOMINANT AIR POLLUTANTS IN THE ENVIRONMENT. CHRONIC EXPOSURE TO BENZENE IS KNOWN TO CAUSE APLASTIC ANEMIA AND INCREASED RISK OF ACUTE MYELOGENOUS LEUKEMIA IN HUMANS. ALTHOUGH THE MECHANISMS BY WHICH BENZENE CAUSES TOXICITY REMAIN TO BE FULLY ELUCIDATED, IT IS WIDELY ACCEPTED THAT ITS METABOLISM IS CRUCIAL TO ITS TOXICITY, WITH INVOLVEMENT OF ONE OR MORE REACTIVE METABOLITES. NOVEL APPROACHES AIMED AT EVALUATING DIFFERENT MECHANISMS BY WHICH BENZENE CAN IMPACT ON HUMAN HEALTH BY ALTERING GENE REGULATION HAVE BEEN DEVELOPED. AMONG THESE NOVEL APPROACHES, EPIGENETICS APPEARS TO BE PROMISING. THE PRESENT REVIEW ARTICLE SUMMARIZES THE MOST IMPORTANT FINDINGS, REPORTED FROM THE LITERATURE, ON EPIGENETIC MODIFICATIONS CORRELATED TO BENZENE EXPOSURE. A COMPUTERIZED SEARCH IN PUBMED WAS PERFORMED IN NOVEMBER 2014, USING SEARCH TERMS, INCLUDING 'BENZENE', 'EPIGENETIC', 'HISTONE MODIFICATIONS', 'DNA METHYLATION' AND 'MICRORNA'. EPIDEMIOLOGICAL AND EXPERIMENTAL STUDIES HAVE DEMONSTRATED THE POTENTIAL EPIGENETIC EFFECTS OF BENZENE EXPOSURE. SEVERAL OF THE EPIGENOMIC CHANGES OBSERVED IN RESPONSE TO ENVIRONMENTAL EXPOSURES MAY BE MECHANISTICALLY ASSOCIATED WITH SUSCEPTIBILITY TO DISEASES. HOWEVER, FURTHER ELUCIDATION OF THE MECHANISMS BY WHICH BENZENE ALTERS GENE EXPRESSION MAY IMPROVE PREDICTION OF THE TOXIC POTENTIAL OF NOVEL COMPOUNDS INTRODUCED INTO THE ENVIRONMENT, AND ALLOW FOR MORE TARGETED AND APPROPRIATE DISEASE PREVENTION STRATEGIES. 2016 16 6069 31 THE DIOXIN RECEPTOR IS SILENCED BY PROMOTER HYPERMETHYLATION IN HUMAN ACUTE LYMPHOBLASTIC LEUKEMIA THROUGH INHIBITION OF SP1 BINDING. THE TRANSCRIPTION FACTOR ARYL HYDROCARBON RECEPTOR (AHR) HAS RELEVANT FUNCTIONS IN CELL PROLIFERATION. INTERESTINGLY, THE AHR CAN EITHER PROMOTE OR INHIBIT PROLIFERATION DEPENDING ON THE CELL PHENOTYPE. ALTHOUGH RECENT DATA REVEAL POTENTIAL PATHWAYS FOR AHR SIGNALING IN CELL PROLIFERATION, THE MECHANISMS THAT REGULATE ITS ACTIVITY IN TUMOR CELLS REMAIN UNKNOWN. HERE, WE HAVE ANALYZED PROMOTER HYPERMETHYLATION AS A POTENTIAL MECHANISM CONTROLLING AHR EXPRESSION IN HUMAN TUMOR CELLS. AHR PROMOTER CPG METHYLATION WAS SPORADIC IN A PANEL OF 19 TUMOR CELL LINES EXCEPT FOR THE CHRONIC MYELOID LEUKEMIA (CML) K562 AND THE ACUTE LYMPHOBLASTIC LEUKEMIA (ALL) REH. WHEN COMPARED WITH NORMAL LYMPHOCYTES, REH HAD VERY LOW CONSTITUTIVE AHR EXPRESSION THAT COULD BE ATTRIBUTED TO PROMOTER HYPERMETHYLATION SINCE TREATMENT WITH THE DNA DEMETHYLATING AGENT 5-AZA-2'-DEOXYCITIDINE (AZA) SIGNIFICANTLY INCREASED AHR MRNA AND PROTEIN. THESE RESULTS IN LEUKEMIA-DERIVED CELL LINES WERE FURTHER CONFIRMED IN PRIMARY ALL, WHERE 33% OF THE PATIENTS (7/21) HAD AHR PROMOTER HYPERMETHYLATION. CHROMATIN IMMUNOPRECIPITATION (CHIP) SHOWED THAT METHYLATION IMPAIRED BINDING OF THE TRANSCRIPTION FACTOR SP1 TO THE AHR PROMOTER, THUS PROVIDING A MECHANISM FOR AHR DOWNREGULATION IN REH CELLS. THEREFORE, PROMOTER HYPERMETHYLATION REPRESENTS A NOVEL EPIGENETIC MECHANISM DOWNREGULATING AHR ACTIVITY IN HEMATOLOGICAL MALIGNANCIES SUCH AS ALL. 2006 17 974 45 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 18 3063 30 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