1 912 77 CHRONIC EXPOSURE TO WATER POLLUTANT TRICHLOROETHYLENE INCREASED EPIGENETIC DRIFT IN CD4(+) T CELLS. AIM: AUTOIMMUNE DISEASE AND CD4(+) T-CELL ALTERATIONS ARE INDUCED IN MICE EXPOSED TO THE WATER POLLUTANT TRICHLOROETHYLENE (TCE). WE EXAMINED HERE WHETHER TCE ALTERED GENE-SPECIFIC DNA METHYLATION IN CD4(+) T CELLS AS A POSSIBLE MECHANISM OF IMMUNOTOXICITY. MATERIALS & METHODS: NAIVE AND EFFECTOR/MEMORY CD4(+) T CELLS FROM MICE EXPOSED TO TCE (0.5 MG/ML IN DRINKING WATER) FOR 40 WEEKS WERE EXAMINED BY BISULFITE NEXT-GENERATION DNA SEQUENCING. RESULTS: A PROBABILISTIC MODEL CALCULATED FROM MULTIPLE GENES SHOWED THAT TCE DECREASED METHYLATION CONTROL IN CD4(+) T CELLS. DATA FROM INDIVIDUAL GENES FITTED TO A QUADRATIC REGRESSION MODEL SHOWED THAT TCE INCREASED GENE-SPECIFIC METHYLATION VARIANCE IN BOTH CD4 SUBSETS. CONCLUSION: TCE INCREASED EPIGENETIC DRIFT OF SPECIFIC CPG SITES IN CD4(+) T CELLS. 2016 2 1986 33 EPIGENETIC ALTERATIONS MAY REGULATE TEMPORARY REVERSAL OF CD4(+) T CELL ACTIVATION CAUSED BY TRICHLOROETHYLENE EXPOSURE. PREVIOUS STUDIES HAVE SHOWN THAT SHORT-TERM (4 WEEKS) OR CHRONIC (32 WEEKS) EXPOSURE TO TRICHLOROETHYLENE (TCE) IN DRINKING WATER OF FEMALE MRL+/+ MICE GENERATED CD4(+) T CELLS THAT SECRETED INCREASED LEVELS OF INTERFERON (IFN)-GAMMA AND EXPRESSED AN ACTIVATED (CD44(HI)CD62L(LO)) PHENOTYPE. IN CONTRAST, THE CURRENT STUDY OF SUBCHRONIC TCE EXPOSURE SHOWED THAT MIDWAY IN THE DISEASE PROCESS BOTH OF THESE PARAMETERS OF CD4(+) T CELL ACTIVATION WERE REVERSED. THIS PHASE OF THE DISEASE PROCESS MAY REPRESENT AN ATTEMPT BY THE BODY TO COUNTERACT THE INFLAMMATORY EFFECTS OF TCE. THE DECREASE IN CD4(+) T CELL PRODUCTION OF IFN-GAMMA FOLLOWING SUBCHRONIC TCE EXPOSURE COULD NOT BE ATTRIBUTED TO SKEWING TOWARD A TH2 OR TH17 PHENOTYPE OR TO AN INCREASE IN TREG CELLS. INSTEAD, THE SUPPRESSION CORRESPONDED TO ALTERATIONS IN MARKERS USED TO ASSESS DNA METHYLATION, NAMELY INCREASED EXPRESSION OF RETROTRANSPOSONS IAP (INTRACISTERNAL A PARTICLE) AND MUERV (MURINE ENDOGENOUS RETROVIRUS). ALSO OBSERVED WAS AN INCREASE IN THE EXPRESSION OF DNMT1 (DNA METHYLTRANSFERASE-1) AND DECREASED EXPRESSION OF SEVERAL GENES KNOWN TO BE DOWNREGULATED BY DNA METHYLATION, NAMELY IFNG, IL2, AND CDKN1A. CD4(+) T CELLS FROM A SECOND STUDY IN WHICH MRL+/+ MICE WERE TREATED FOR 17 WEEKS WITH TCE SHOWED A SIMILAR INCREASE IN IAP AND DECREASE IN CDKN1A. IN ADDITION, DNA COLLECTED FROM THE CD4(+) T CELLS IN THE SECOND STUDY SHOWED TCE-DECREASED GLOBAL DNA METHYLATION. THUS, THESE RESULTS DESCRIBED THE BIPHASIC NATURE OF TCE-INDUCED ALTERATIONS IN CD4(+) T CELL FUNCTION AND SUGGESTED THAT THESE CHANGES REPRESENTED POTENTIALLY REVERSIBLE ALTERATIONS IN EPIGENETIC PROCESSES. 2012 3 1161 45 CONTINUOUS DEVELOPMENTAL AND EARLY LIFE TRICHLOROETHYLENE EXPOSURE PROMOTED DNA METHYLATION ALTERATIONS IN POLYCOMB PROTEIN BINDING SITES IN EFFECTOR/MEMORY CD4(+) T CELLS. TRICHLOROETHYLENE (TCE) IS AN INDUSTRIAL SOLVENT AND DRINKING WATER POLLUTANT ASSOCIATED WITH CD4(+) T CELL-MEDIATED AUTOIMMUNITY. IN OUR MOUSE MODEL, DISCONTINUATION OF TCE EXPOSURE DURING ADULTHOOD AFTER DEVELOPMENTAL EXPOSURE DID NOT PREVENT IMMUNOTOXICITY. TO DETERMINE WHETHER PERSISTENT EFFECTS WERE LINKED TO EPIGENETIC CHANGES WE CONDUCTED WHOLE GENOME REDUCED REPRESENTATION BISULFITE SEQUENCING (RRBS) TO EVALUATE METHYLATION OF CPG SITES IN AUTOSOMAL CHROMOSOMES IN ACTIVATED EFFECTOR/MEMORY CD4(+) T CELLS. FEMALE MRL+/+ MICE WERE EXPOSED TO VEHICLE CONTROL OR TCE IN THE DRINKING WATER FROM GESTATION UNTIL ~37 WEEKS OF AGE [POSTNATAL DAY (PND) 259]. IN A SUBSET OF MICE, TCE EXPOSURE WAS DISCONTINUED AT ~22 WEEKS OF AGE (PND 154). AT PND 259, RRBS ASSESSMENT REVEALED MORE GLOBAL METHYLATION CHANGES IN THE CONTINUOUS EXPOSURE GROUP VS. THE DISCONTINUOUS EXPOSURE GROUP. A MAJORITY OF THE DIFFERENTIALLY METHYLATED CPG REGIONS (DMRS) ACROSS PROMOTERS, ISLANDS, AND REGULATORY ELEMENTS WERE HYPERMETHYLATED (~90%). HOWEVER, CONTINUOUS DEVELOPMENTAL TCE EXPOSURE ALTERED THE METHYLATION OF 274 CPG SITES IN PROMOTERS AND CPG ISLANDS. IN CONTRAST, ONLY 4 CPG ISLAND REGIONS WERE DIFFERENTIALLY METHYLATED (HYPERMETHYLATED) IN THE DISCONTINUOUS GROUP. INTERESTINGLY, 2 OF THESE 4 SITES WERE ALSO HYPERMETHYLATED IN THE CONTINUOUS EXPOSURE GROUP, AND BOTH OF THESE ISLAND REGIONS ARE ASSOCIATED WITH LYSINE 27 ON HISTONE H3 (H3K27) INVOLVED IN POLYCOMB COMPLEX-DEPENDENT TRANSCRIPTIONAL REPRESSION VIA H3K27 TRI-METHYLATION. CPG SITES WERE OVERLAPPED WITH THE OPEN REGULATORY ANNOTATION DATABASE. UNLIKE THE DISCONTINUOUS GROUP, CONTINUOUS TCE TREATMENT RESULTED IN 129 DMRS INCLUDING 12 UNIQUE TRANSCRIPTION FACTORS AND REGULATORY ELEMENTS; 80% OF WHICH WERE ENRICHED FOR ONE OR MORE POLYCOMB GROUP (PCG) PROTEIN BINDING REGIONS (I.E., SUZ12, EZH2, JARID2, AND MTF2). PATHWAY ANALYSIS OF THE DMRS INDICATED THAT TCE PRIMARILY ALTERED THE METHYLATION OF GENES ASSOCIATED WITH REGULATION OF CELLULAR METABOLISM AND CELL SIGNALING. THE RESULTS DEMONSTRATED THAT CONTINUOUS DEVELOPMENTAL EXPOSURE TO TCE DIFFERENTIALLY METHYLATED BINDING SITES OF PCG PROTEINS IN EFFECTOR/MEMORY CD4(+) CELLS. THERE WERE MINIMAL YET POTENTIALLY BIOLOGICALLY SIGNIFICANT EFFECTS THAT OCCURRED WHEN EXPOSURE WAS DISCONTINUED. THESE RESULTS POINT TOWARD A NOVEL MECHANISM BY WHICH CHRONIC DEVELOPMENTAL TCE EXPOSURE MAY ALTER TERMINALLY DIFFERENTIATED CD4(+) T CELL FUNCTION IN ADULTHOOD. 2019 4 2467 24 EPIGENETIC TOXICITY OF TRICHLOROETHYLENE: A SINGLE-MOLECULE PERSPECTIVE. THE VOLATILE, WATER SOLUBLE TRICHLOROETHYLENE (TCE) IS A HAZARDOUS INDUSTRIAL WASTE AND COULD LEAD TO VARIOUS HEALTH PROBLEMS, INCLUDING CANCER, NEUROPATHY, CARDIOVASCULAR DEFECTS, AND IMMUNE DISEASES. TOXICOLOGICAL STUDIES TAKING USE OF IN VITRO AND IN VIVO MODELS HAVE BEEN CONDUCTED TO UNDERSTAND THE BIOLOGICAL IMPACTS OF TCE AT THE GENETIC, TRANSCRIPTOMIC, METABOLOMIC, AND SIGNALING LEVELS. THE EPIGENETIC ABERRATIONS INDUCED BY TCE HAVE ALSO BEEN REPORTED IN A NUMBER OF MODEL ORGANISMS, WHILE A DETAILED MECHANISTIC ELUCIDATION IS LACKING. IN THIS STUDY WE UNCOVER AN UNREPORTED MECHANISM ACCOUNTING FOR THE EPIGENETIC TOXICITY DUE TO TCE EXPOSURE BY MONITORING THE SINGLE-MOLECULE DYNAMICS OF DNA METHYLTRANSFERASE 3A (DNMT3A) IN LIVING CELLS. TCE-INDUCED GLOBAL DNA HYPOMETHYLATION COULD BE PARTLY ATTRIBUTED TO THE DISRUPTED DNMT3A-DNA ASSOCIATION. BY ANALYZING THE COMPONENTS OF DETACHED DNMT3A, WE FOUND THAT THE DNMT3A OLIGOMERS (E.G., DIMER, TRIMER, AND HIGH-ORDER OLIGOMERS) DISSOCIATED FROM HETEROCHROMATIN IN A DOSE-DEPENDENT MANNER UPON EXPOSURE. THEREAFTER THE DIMINISHED DNA-BINDING AFFINITY OF DNMT3A RESULTED IN A SIGNIFICANT DECREASE IN 5-METHYLCYTOSINE (5MC) UNDER BOTH ACUTE HIGH-DOSAGE AND CHRONIC LOW-DOSAGE TCE EXPOSURE. THE RESULTING DNA DEMETHYLATION MIGHT ALSO BE CONTRIBUTED BY THE ELEVATED EXPRESSION OF TEN-ELEVEN-TRANSLOCATION (TET) ENZYMES AND REFORMED CYSTEINE CYCLE. BESIDES THE GLOBAL EFFECT, WE FURTHER IDENTIFIED THAT A GROUP OF HETEROCHROMATIN-LOCATED, CANCER-RELATED MICRORNAS (MIRNAS) EXPERIENCED PROMOTER DEMETHYLATION UPON TCE EXPOSURE. 2016 5 2392 29 EPIGENETIC REPRESSION OF INTERLEUKIN 2 EXPRESSION IN SENESCENT CD4+ T CELLS DURING CHRONIC HIV TYPE 1 INFECTION. THE MOLECULAR MECHANISMS FOR IL2 GENE-SPECIFIC DYSREGULATION DURING CHRONIC HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 (HIV-1) INFECTION ARE UNKNOWN. HERE, WE INVESTIGATED THE ROLE OF DNA METHYLATION IN SUPPRESSING INTERLEUKIN 2 (IL-2) EXPRESSION IN MEMORY CD4(+) T CELLS DURING CHRONIC HIV-1 INFECTION. WE OBSERVED THAT CPG SITES IN THE IL2 PROMOTER OF CD4(+) T CELLS WERE FULLY METHYLATED IN NAIVE CD4(+) T CELLS AND SIGNIFICANTLY DEMETHYLATED IN THE MEMORY POPULATIONS. INTERESTINGLY, WE FOUND THAT THE MEMORY CELLS THAT HAD A TERMINALLY DIFFERENTIATED PHENOTYPE AND EXPRESSED CD57 HAD INCREASED IL2 PROMOTER METHYLATION RELATIVE TO LESS DIFFERENTIATED MEMORY CELLS IN HEALTHY INDIVIDUALS. IMPORTANTLY, EARLY EFFECTOR MEMORY SUBSETS FROM HIV-1-INFECTED SUBJECTS EXPRESSED HIGH LEVELS OF CD57 AND WERE HIGHLY METHYLATED AT THE IL2 LOCUS. FURTHERMORE, THE INCREASED CD57 EXPRESSION ON MEMORY CD4(+) T CELLS WAS INVERSELY CORRELATED WITH IL-2 PRODUCTION. THESE DATA SUGGEST THAT DNA METHYLATION AT THE IL2 LOCUS IN CD4(+) T CELLS IS COUPLED TO IMMUNOSENESCENCE AND PLAYS A CRITICAL ROLE IN THE BROAD DYSFUNCTION THAT OCCURS IN POLYCLONAL T CELLS DURING HIV-1 INFECTION. 2015 6 1500 26 DNA METHYLATION ANALYSIS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS. PSORIASIS IS A CHRONIC INFLAMMATORY SKIN DISEASE THAT IS CHARACTERIZED BY ABERRANT CROSS-TALK BETWEEN KERATINOCYTES AND IMMUNE CELLS SUCH AS CD4+ T CELLS, RESULTING IN KERATINOCYTE HYPERPROLIFERATION IN THE EPIDERMIS. DNA METHYLATION, ONE OF SEVERAL EPIGENETIC MECHANISMS, PLAYS AN IMPORTANT ROLE IN GENE EXPRESSION WITHOUT CHANGING THE DNA SEQUENCE. SEVERAL STUDIES HAVE SUGGESTED THE INVOLVEMENT OF EPIGENETIC REGULATION IN SKIN LESIONS FROM PATIENTS WITH PSORIASIS. IN THIS STUDY, WE INVESTIGATED THE GENOME-WIDE DNA METHYLATION STATUS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS COMPARED WITH HEALTHY SUBJECTS USING METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING (MEDIP-SEQ). THE RESULTS OF MEDIP-SEQ SHOWED THAT THE GLOBAL METHYLATION VALUES OF CD4+ T CELLS ARE HIGHER IN PATIENTS WITH PSORIASIS THAN IN HEALTHY CONTROLS, PARTICULARLY IN THE PROMOTER REGIONS. AMONG THE MOST HYPERMETHYLATED GENES IN THE PROMOTER REGIONS, WE SELECTED THE GENES WHOSE EXPRESSION IS SIGNIFICANTLY REDUCED IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. STUDIES USING THE METHYLATION INHIBITOR 5-AZACYTIDINE IN VITRO METHYLATION ASSAYS HAVE SHOWN THAT THE DIFFERENTIAL EXPRESSION LEVELS WERE ASSOCIATED WITH THE METHYLATION STATUS OF EACH GENE. BISULFITE SEQUENCING OF THE TRANSCRIPTION START REGION OF PHOSPHATIDIC ACID PHOSPHATASE TYPE 2 DOMAIN CONTAINING 3 (PPAPDC3), ONE OF THE SELECTED GENES, SHOWED HYPERMETHYLATION IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. THESE RESULTS SUGGESTED THAT THE METHYLATION STATUS, WHICH IS IDENTIFIED BY MEDIP-SEQ OF THE GENES, WAS CORRELATED WITH THE MRNA EXPRESSION LEVEL OF THE GENES. COLLECTIVELY, THE DNA METHYLATION STATUS IN CD4+ T CELLS MIGHT BE ASSOCIATED WITH THE PATHOGENESIS OF PSORIASIS. 2014 7 1566 29 DNA METHYLATION OF TH1/TH2 CYTOKINE GENES AFFECTS SENSITIZATION AND PROGRESS OF EXPERIMENTAL ASTHMA. BACKGROUND: EPIGENETIC CHANGES IN DNA METHYLATION HAVE RECENTLY BEEN DEMONSTRATED TO BE INVOLVED IN EFFECTOR T-CELL POLARIZATION, RESULTING IN DIFFERENTIAL SECRETION OF T(H)1 AND T(H)2 CYTOKINES. HOWEVER, THE CONTRIBUTION TO THE DEVELOPMENT OF A CHRONIC INFLAMMATORY PHENOTYPE REMAINS STILL UNCLEAR. OBJECTIVE: WE SOUGHT TO INVESTIGATE CHANGES IN DNA METHYLATION IN MARKER GENES OF T-CELL SUBSETS DURING ALLERGEN SENSITIZATION/CHALLENGE AND THEIR INFLUENCE ON THE DEVELOPMENT OF AN ALLERGIC AIRWAY INFLAMMATORY RESPONSE. METHODS: THE RELATIONSHIP BETWEEN CHANGES IN DNA METHYLATION AND PHENOTYPE DEVELOPMENT WERE EXAMINED IN A WELL-ESTABLISHED MODEL OF EXPERIMENTAL ASTHMA. DNA METHYLATION WAS INVESTIGATED AT GENOMIC LOCI ASSOCIATED WITH T(H)1 (IFNG PROMOTER) OR T(H)2 (CONSERVED NONCODING SEQUENCE 1 [CNS1]) CYTOKINE PRODUCTION BY USING BISULFITE PYROSEQUENCING. RESULTS: ANALYSIS OF CD4(+) T CELLS REVEALED A SIGNIFICANT INCREASE IN DNA METHYLATION AT THE IFNG PROMOTER AFTER ALLERGEN SENSITIZATION/CHALLENGE, WHICH CORRELATED WITH DECREASED IFN-GAMMA CYTOKINE EXPRESSION, WHEREAS ONLY MINOR CHANGES WERE OBSERVED AT THE CNS1 LOCUS. FURTHERMORE, THE INCREASE IN DNA METHYLATION AT THE IFNG PROMOTER COULD BE REVERSED WITH A DNA METHYLTRANSFERASE (DNMT) INHIBITOR IN VITRO AND IN VIVO WITH BENEFICIAL EFFECTS ON SENSITIZATION STATUS AND ALLERGIC PHENOTYPE. THE SPECIFIC IMPORTANCE OF THE DNA METHYLATION STATUS IN CD4(+) T CELLS COULD BE CONFIRMED BY USING ADOPTIVE TRANSFER EXPERIMENTS. CONCLUSION: WE HERE REPORT THE NOVEL FINDING THAT EPIGENETIC REGULATION IN T CELLS CONTRIBUTES TO THE DEVELOPMENT OF EXPERIMENTAL ASTHMA AND CAN BE TARGETED PHARMACOLOGICALLY. 2012 8 6382 28 THE ROLE OF PARTICULATE MATTERS ON METHYLATION OF IFN-GAMMA AND IL-4 PROMOTER GENES IN PEDIATRIC ALLERGIC RHINITIS. ALLERGIC RHINITIS (AR) IS A CHRONIC INFLAMMATORY DISORDER DRIVEN BY T CELL ACTIVATION. HOW PARTICULATE MATTER CONTRIBUTES TO EPIGENETIC CHANGES THAT IN TURN INFLUENCE CYTOKINE GENE EXPRESSION IN CD4(+)T CELLS REMAINS UNCLEAR. IN THIS STUDY, 105 CHILDREN DIAGNOSED WITH AR AND 90 HEALTHY CONTROLS WERE RECRUITED TO EXPLORE THE POSSIBLE MECHANISM OF PARTICULATE MATTER (PM) ON THE EPIGENETIC REGULATION OF CD4(+)T IFN-GAMMA AND IL-4 PROMOTER GENES. DAILY AVERAGE PM(10) AND PM(2.5) WERE OBTAINED FROM FIVE STATE-CONTROLLED MONITORING STATIONS, AND ACTIVITY-BASED DYNAMIC EXPOSURE AND PERSONAL EXPOSURE DATA WERE COLLECTED. DNA METHYLATION PATTERNS OF IFN-GAMMA AND IL-4 PROMOTER REGIONS WERE ANALYZED USING BISULFITE SEQUENCING. MRNA LEVELS WERE DETECTED BY REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION. WE FOUND THAT THE METHYLATION RATE IN IFN-GAMMA WAS HIGHER IN AR CD4(+)T CELLS THAN IN THE CONTROLS. IFN-GAMMA MRNA EXPRESSION WAS SIGNIFICANTLY DECREASED IN CD4(+)T CELLS, AND NEGATIVELY CORRELATED WITH THE MEAN METHYLATION LEVEL OF IFN-GAMMA. HOWEVER, NO CORRELATION BETWEEN IL-4 METHYLATION AND IL-4 MRNA EXPRESSION WAS FOUND. AFTER ADJUSTING FOR AGE, GENDER, EXCLUSIVE BREASTFEEDING WITHIN 4 MONTHS AFTER BIRTH AND PARENTAL HISTORY OF ALLERGIC DISEASE, OUT DATA SHOWED THAT PM(2.5) EXPOSURE LEVEL WAS POSITIVELY CORRELATED WITH METHYLATION LEVEL IN IFN-GAMMA PROMOTER REGION AND DECREASED CYTOKINE EXPRESSION. WE CONCLUDE THAT THE EFFECT OF PM(2.5) ON PEDIATRIC AR MAY BE MEDIATED THROUGH EPIGENETIC MODIFICATION OF IFN-GAMMA PROMOTER REGION. 2018 9 1739 30 EARLY DNA METHYLATION CHANGES IN CHILDREN DEVELOPING BETA CELL AUTOIMMUNITY AT A YOUNG AGE. AIMS/HYPOTHESIS: TYPE 1 DIABETES IS A CHRONIC AUTOIMMUNE DISEASE OF COMPLEX AETIOLOGY, INCLUDING A POTENTIAL ROLE FOR EPIGENETIC REGULATION. PREVIOUS EPIGENOMIC STUDIES FOCUSED MAINLY ON CLINICALLY DIAGNOSED INDIVIDUALS. THE AIM OF THE STUDY WAS TO ASSESS EARLY DNA METHYLATION CHANGES ASSOCIATED WITH TYPE 1 DIABETES ALREADY BEFORE THE DIAGNOSIS OR EVEN BEFORE THE APPEARANCE OF AUTOANTIBODIES. METHODS: REDUCED REPRESENTATION BISULPHITE SEQUENCING (RRBS) WAS APPLIED TO STUDY DNA METHYLATION IN PURIFIED CD4(+) T CELL, CD8(+) T CELL AND CD4(-)CD8(-) CELL FRACTIONS OF 226 PERIPHERAL BLOOD MONONUCLEAR CELL SAMPLES LONGITUDINALLY COLLECTED FROM SEVEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL INDIVIDUALS MATCHED FOR AGE, SEX, HLA RISK AND PLACE OF BIRTH. WE ALSO EXPLORED CORRELATIONS BETWEEN DNA METHYLATION AND GENE EXPRESSION USING RNA SEQUENCING DATA FROM THE SAME SAMPLES. TECHNICAL VALIDATION OF RRBS RESULTS WAS PERFORMED USING PYROSEQUENCING. RESULTS: WE IDENTIFIED 79, 56 AND 45 DIFFERENTIALLY METHYLATED REGIONS IN CD4(+) T CELLS, CD8(+) T CELLS AND CD4(-)CD8(-) CELL FRACTIONS, RESPECTIVELY, BETWEEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL PARTICIPANTS. THE ANALYSIS OF PRE-SEROCONVERSION SAMPLES IDENTIFIED DNA METHYLATION SIGNATURES AT THE VERY EARLY STAGE OF DISEASE, INCLUDING DIFFERENTIAL METHYLATION AT THE PROMOTER OF IRF5 IN CD4(+) T CELLS. FURTHER, WE VALIDATED RRBS RESULTS USING PYROSEQUENCING AT THE FOLLOWING CPG SITES: CHR19:18118304 IN THE PROMOTER OF ARRDC2; CHR21:47307815 IN THE INTRON OF PCBP3; AND CHR14:81128398 IN THE INTERGENIC REGION NEAR TRAF3 IN CD4(+) T CELLS. CONCLUSIONS/INTERPRETATION: THESE PRELIMINARY RESULTS PROVIDE NOVEL INSIGHTS INTO CELL TYPE-SPECIFIC DIFFERENTIAL EPIGENETIC REGULATION OF GENES, WHICH MAY CONTRIBUTE TO TYPE 1 DIABETES PATHOGENESIS AT THE VERY EARLY STAGE OF DISEASE DEVELOPMENT. SHOULD THESE FINDINGS BE VALIDATED, THEY MAY SERVE AS A POTENTIAL SIGNATURE USEFUL FOR DISEASE PREDICTION AND MANAGEMENT. 2022 10 1215 25 CPG PROMOTER METHYLATION STATUS IS NOT A PROGNOSTIC INDICATOR OF GENE EXPRESSION IN BERYLLIUM CHALLENGE. INDIVIDUALS EXPOSED TO BERYLLIUM (BE) MAY DEVELOP BE SENSITIZATION (BES) AND PROGRESS TO CHRONIC BERYLLIUM DISEASE (CBD). RECENT STUDIES WITH OTHER METAL ANTIGENS SUGGEST EPIGENETIC MECHANISMS MAY BE INVOLVED IN INFLAMMATORY DISEASE PROCESSES, INCLUDING GRANULOMATOUS LUNG DISORDERS AND THAT A NUMBER OF METAL CATIONS ALTER GENE METHYLATION. THE OBJECTIVE OF THIS STUDY WAS TO DETERMINE IF BE CAN EXERT AN EPIGENETIC EFFECT ON GENE EXPRESSION BY ALTERING METHYLATION IN THE PROMOTER REGION OF SPECIFIC GENES KNOWN TO BE INVOLVED IN BE ANTIGEN-MEDIATED GENE EXPRESSION. TO INVESTIGATE THIS OBJECTIVE, THREE MACROPHAGE TUMOR MOUSE CELL LINES KNOWN TO DIFFERENTIALLY PRODUCE TUMOR NECROSIS FACTOR (TNF)-ALPHA, BUT NOT INTERFERON (IFN)-GAMMA, IN RESPONSE TO BE ANTIGEN WERE CULTURED WITH BE OR CONTROLS. FOLLOWING CHALLENGES, ELISA WERE PERFORMED TO QUANTIFY INDUCED TNFALPHA AND IFNGAMMA EXPRESSION. BISULFATE-CONVERTED DNA WAS EVALUATED BY PYROSEQUENCING TO QUANTIFY CPG METHYLATION WITHIN THE PROMOTERS OF TNFALPHA AND IFNGAMMA. BE-CHALLENGED H36.12J CELLS EXPRESSED HIGHER LEVELS OF TNFALPHA COMPARED TO EITHER H36.12E CELLS OR P388D.1 CELLS. HOWEVER, THERE WERE NO VARIATIONS IN TNFALPHA PROMOTER CPG METHYLATION LEVELS BETWEEN CELL LINES AT THE SIX CPG SITES TESTED. H36.12J CELL TNFALPHA EXPRESSION WAS SHOWN TO BE METAL-SPECIFIC BY THE INDUCTION OF SIGNIFICANTLY MORE TNFALPHA WHEN EXPOSED TO BE THAN WHEN EXPOSED TO ALUMINUM SULFATE, OR NICKEL (II) CHLORIDE, BUT NOT WHEN EXPOSED TO COBALT (II) CHLORIDE. HOWEVER, H36.12J CELL METHYLATION LEVELS AT THE SIX CPG SITES EXAMINED IN THE TNFALPHA PROMOTER DID NOT CORRELATE WITH CYTOKINE EXPRESSION DIFFERENCES. NONETHELESS, ALL THREE CELL LINES HAD SIGNIFICANTLY MORE PROMOTER METHYLATION AT THE SIX CPG SITES INVESTIGATED WITHIN THE IFNGAMMA PROMOTER (A GENE THAT IS NOT EXPRESSED) WHEN COMPARED TO THE SIX CPG SITES INVESTIGATED IN THE TNFALPHA PROMOTER, REGARDLESS OF TREATMENT CONDITION (P < 1.17 X 10(-9)). THESE FINDINGS SUGGEST THAT, IN THIS CELL SYSTEM, PROMOTER HYPO-METHYLATION MAY BE NECESSARY TO ALLOW EXPRESSION OF METAL-INDUCED TNFALPHA AND THAT PROMOTER HYPER-METHYLATION IN THE IFNGAMMA PROMOTER MAY INTERFERE WITH EXPRESSION. ALSO, AT THE DOZEN CPG SITES INVESTIGATED IN THE PROMOTER REGIONS OF BOTH GENES, BERYLLIUM HAD NO IMPACT ON PROMOTER METHYLATION STATUS, DESPITE ITS ABILITY TO INDUCE PRO-INFLAMMATORY CYTOKINE EXPRESSION. 2016 11 6845 24 [METHYLATION STATUS OF APOPTOSIS GENES AND INTENSITY OF APOPTOTIC DEATH OF PERIPHERAL BLOOD LYMPHOCYTES IN PERSONS CHRONICALLY EXPOSED TO RADIATION]. METHYLATION OF THE CPG ISLANDS OF GENE PROMOTER REGIONS IS THE MOST COMMON EPIGENETIC MODIFICATION INVOLVED IN THE REGULATION OF GENE EXPRESSION. A NUMBER OF STUDIES HAVE SHOWN THAT IONIZING RADIATION CAN CAUSE BOTH HYPER- AND HYPOMETHYLATION OF DNA. ABERRANT METHYLATION AFFECTS CELLULAR PROCESSES AND CAN LEAD TO THE DEVELOPMENT OF VARIOUS PATHOLOGICAL STATES. IN THE LITERATURE, THERE ARE FEW STUDIES ON THE METHYLATION STATUS OF HUMAN DNA A LONG TIME AFTER RADIATION EXPOSURE. HERE, THE METHYLATION LEVEL OF CPG ISLANDS OF THE PROMOTER REGIONS OF APOPTOSIS GENES (BCL2, ATM, MDM2, CDKN1A, STAT3, AND NFKB1), AND ALSO ITS INFLUENCE ON APOPTOSIS OF PERIPHERAL BLOOD LYMPHOCYTES IN CHRONICALLY EXPOSED PERSONS WERE STUDIED. RESIDENTS OF THE SOUTH URAL REGION WHO WERE CHRONICALLY EXPOSED TO RADIATION (AFTER DISCHARGES OF RADIOACTIVE WASTES INTO THE TECHA RIVER BY THE "MAYAK PRODUCTION ASSOCIATION" IN 1949-1956) WERE INCLUDED IN THE STUDY. IT WAS ESTABLISHED THAT THE PROPORTION OF INDIVIDUALS WITH HYPERMETHYLATED BCL2 GENE PROMOTER AMONG THE EXPOSED PEOPLE WAS STATISTICALLY SIGNIFICANTLY HIGHER THAN IN THE CONTROL GROUP. THE PERCENTAGE OF METHYLATION OF THE ATM GENE PROMOTER WEAKLY POSITIVELY CORRELATED WITH DOSE AND AGE CHARACTERISTICS. DIFFERENCES IN THE FREQUENCY OF LYMPHOCYTE APOPTOSIS IN EXPOSED INDIVIDUALS WITH A HYPO- OR HYPERMETHYLATED ATM GENE PROMOTER WERE ALSO ESTABLISHED. THE DATA INDICATE THAT, IN THE LONG-TERM, AFTER CHRONIC LOW INTENSITY RADIATION EXPOSURE AT LOW AND MEDIUM DOSES, EPIGENETIC MODIFICATIONS OF THE GENOME OCCUR, WHICH ARE MANIFESTED AS CHANGES IN METHYLATION OF PROMOTER REGIONS OF BCL2 AND ATM GENES. 2022 12 2400 29 EPIGENETIC REPROGRAMMING OF IMMUNE CELLS IN WOMEN WITH PCOS IMPACT GENES CONTROLLING REPRODUCTIVE FUNCTION. CONTEXT: POLYCYSTIC OVARY SYNDROME (PCOS) IS A CHRONIC DISEASE AFFECTING REPRODUCTIVE FUNCTION AND WHOLE-BODY METABOLISM. ALTHOUGH THE ETIOLOGY IS UNCLEAR, EMERGING EVIDENCE INDICATES THAT THE EPIGENETICS MAY BE A CONTRIBUTING FACTOR. OBJECTIVE: TO DETERMINE THE ROLE OF GLOBAL AND GENOME-WIDE EPIGENETIC MODIFICATIONS IN SPECIFIC IMMUNE CELLS IN PCOS COMPARED WITH CONTROLS AND WHETHER THESE COULD BE RELATED TO CLINICAL FEATURES OF PCOS. DESIGN: CROSS-SECTIONAL STUDY. PARTICIPANTS: WOMEN WITH (N = 17) OR WITHOUT PCOS (N = 17). SETTING: RECRUITED FROM THE GENERAL COMMUNITY. MAIN OUTCOME MEASURES: ISOLATED PERIPHERAL BLOOD MONONUCLEAR CELLS WERE ANALYZED USING MULTICOLOR FLOW CYTOMETRY METHODS TO DETERMINE GLOBAL DNA METHYLATION LEVELS IN A CELL-SPECIFIC FASHION. TRANSCRIPTOMIC AND GENOME-WIDE DNA METHYLATION ANALYSES WERE PERFORMED ON T HELPER CELLS USING RNA SEQUENCING AND REDUCED REPRESENTATION BISULFITE SEQUENCING. RESULTS: WOMEN WITH PCOS HAD LOWER GLOBAL DNA METHYLATION IN MONOCYTES (P = 0.006) AND IN T HELPER (P = 0.004), T CYTOTOXIC (P = 0.004), AND B CELLS (P = 0.03). SPECIFIC GENOME-WIDE DNA METHYLATION ANALYSIS OF T HELPER CELLS FROM WOMEN WITH PCOS IDENTIFIED 5581 DIFFERENTIALLY METHYLATED CPG SITES. FUNCTIONAL GENE ONTOLOGY ENRICHMENT ANALYSIS SHOWED THAT GENES LOCATED AT THE PROXIMITY OF DIFFERENTIALLY METHYLATED CPG SITES BELONG TO PATHWAYS RELATED TO REPRODUCTIVE FUNCTION AND IMMUNE CELL FUNCTION. HOWEVER, THESE GENES WERE NOT ALTERED AT THE TRANSCRIPTOMIC LEVEL. CONCLUSIONS: IT WAS SHOWN THAT PCOS IS ASSOCIATED WITH GLOBAL AND GENE-SPECIFIC DNA METHYLATION REMODELING IN A CELL TYPE-SPECIFIC MANNER. FURTHER INVESTIGATION IS WARRANTED TO DETERMINE WHETHER EPIGENETIC REPROGRAMMING OF IMMUNE CELLS IS IMPORTANT IN DETERMINING THE DIFFERENT PHENOTYPES OF PCOS. 2019 13 3422 29 HUMAN MONOCYTE-TO-MACROPHAGE DIFFERENTIATION INVOLVES HIGHLY LOCALIZED GAIN AND LOSS OF DNA METHYLATION AT TRANSCRIPTION FACTOR BINDING SITES. BACKGROUND: MACROPHAGES AND THEIR PRECURSORS MONOCYTES PLAY A KEY ROLE IN INFLAMMATION AND CHRONIC INFLAMMATORY DISORDERS. MONOCYTE-TO-MACROPHAGE DIFFERENTIATION AND ACTIVATION PROGRAMS ARE ACCOMPANIED BY SIGNIFICANT EPIGENETIC REMODELING WHERE DNA METHYLATION ASSOCIATES WITH CELL IDENTITY. HERE WE SHOW THAT DNA METHYLATION CHANGES CHARACTERISTIC FOR MONOCYTE-TO-MACROPHAGE DIFFERENTIATION OCCUR AT TRANSCRIPTION FACTOR BINDING SITES, AND, IN CONTRAST TO WHAT WAS PREVIOUSLY DESCRIBED, ARE GENERALLY HIGHLY LOCALIZED AND ENCOMPASS BOTH LOSSES AND GAINS OF DNA METHYLATION. RESULTS: WE COMPARED GENOME-WIDE DNA METHYLATION ACROSS 440,292 CPG SITES BETWEEN HUMAN MONOCYTES, NAIVE MACROPHAGES AND MACROPHAGES FURTHER ACTIVATED TOWARD A PRO-INFLAMMATORY STATE (USING LPS/IFNGAMMA), AN ANTI-INFLAMMATORY STATE (IL-4) OR FOAM CELLS (OXLDL AND ACLDL). MOREOVER, WE INTEGRATED THESE DATA WITH PUBLIC WHOLE-GENOME SEQUENCING DATA ON MONOCYTES AND MACROPHAGES TO DEMARCATE DIFFERENTIALLY METHYLATED REGIONS. OUR ANALYSIS SHOWED THAT DIFFERENTIAL DNA METHYLATION WAS MOST PRONOUNCED DURING MONOCYTE-TO-MACROPHAGE DIFFERENTIATION, WAS TYPICALLY RESTRICTED TO SINGLE CPGS OR VERY SHORT REGIONS, AND CO-LOCALIZED WITH LINEAGE-SPECIFIC ENHANCERS IRRESPECTIVE OF WHETHER IT CONCERNS GAIN OR LOSS OF METHYLATION. FURTHERMORE, DIFFERENTIALLY METHYLATED CPGS WERE LOCATED AT SITES CHARACTERIZED BY INCREASED BINDING OF TRANSCRIPTION FACTORS KNOWN TO BE INVOLVED IN MONOCYTE-TO-MACROPHAGE DIFFERENTIATION INCLUDING C/EBP AND ETS FOR GAIN AND AP-1 FOR LOSS OF METHYLATION. CONCLUSION: OUR STUDY HIGHLIGHTS THE INVOLVEMENT OF SUBTLE, YET HIGHLY LOCALIZED REMODELING OF DNA METHYLATION AT REGULATORY REGIONS IN CELL DIFFERENTIATION. 2019 14 3069 27 GENOME-WIDE DNA METHYLATION PROFILING IDENTIFIES EPIGENETIC CHANGES IN CD4+ AND CD14+ CELLS OF MULTIPLE SCLEROSIS PATIENTS. MULTIPLE SCLEROSIS (MS) IS A CHRONIC AUTOIMMUNE AND DEGENERATIVE DISEASE OF THE CENTRAL NERVOUS SYSTEM, WHICH DEVELOPS IN GENETICALLY PREDISPOSED INDIVIDUALS UPON EXPOSURE TO ENVIRONMENTAL INFLUENCES. ENVIRONMENTAL TRIGGERS OF MS, SUCH AS VIRAL INFECTIONS OR SMOKING, WERE DEMONSTRATED TO AFFECT DNA METHYLATION, AND THUS TO INVOLVE THIS IMPORTANT EPIGENETIC MECHANISM IN THE DEVELOPMENT OF PATHOLOGICAL PROCESS. TO IDENTIFY MS-ASSOCIATED DNA METHYLATION HALLMARKS, WE PERFORMED GENOME-WIDE DNA METHYLATION PROFILING OF TWO CELL POPULATIONS (CD4+ T-LYMPHOCYTES AND CD14+ MONOCYTES), COLLECTED FROM THE SAME TREATMENT-NAIVE RELAPSING-REMITTING MS PATIENTS AND HEALTHY SUBJECTS, USING ILLUMINA 450 K METHYLATION ARRAYS. WE REVEALED SIGNIFICANT CHANGES IN DNA METHYLATION FOR BOTH CELL POPULATIONS IN MS. IN CD4+ CELLS OF MS PATIENTS THE MAJORITY OF DIFFERENTIALLY METHYLATED POSITIONS (DMPS) WERE SHOWN TO BE HYPOMETHYLATED, WHILE IN CD14+ CELLS - HYPERMETHYLATED. DIFFERENTIAL METHYLATION OF HLA-DRB1 GENE IN CD4+ AND CD14+ CELLS WAS ASSOCIATED WITH CARRIAGE OF DRB1*15 ALLELE INDEPENDENTLY FROM THE DISEASE STATUS. BESIDES, ABOUT 20% OF IDENTIFIED DMPS WERE SHARED BETWEEN TWO CELL POPULATIONS AND HAD THE SAME DIRECTION OF METHYLATION CHANGES; THEY MAY BE INVOLVED IN BASIC EPIGENETIC PROCESSES OCCURING IN MS. THESE FINDINGS SUGGEST THAT THE EPIGENETIC MECHANISM OF DNA METHYLATION IN IMMUNE CELLS CONTRIBUTES TO MS; FURTHER STUDIES ARE NOW REQUIRED TO VALIDATE THESE RESULTS AND UNDERSTAND THEIR FUNCTIONAL SIGNIFICANCE. 2022 15 3077 26 GENOME-WIDE METHYL-SEQ ANALYSIS OF BLOOD-BRAIN TARGETS OF GLUCOCORTICOID EXPOSURE. CHRONIC EXPOSURE TO GLUCOCORTICOIDS (GCS) CAN LEAD TO PSYCHIATRIC COMPLICATIONS THROUGH EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION (DNAM). WE SOUGHT TO DETERMINE WHETHER EPIGENETIC CHANGES IN A PERIPHERAL TISSUE CAN SERVE AS A SURROGATE FOR THOSE IN A RELATIVELY INACCESSIBLE TISSUE SUCH AS THE BRAIN. DNA EXTRACTED FROM THE HIPPOCAMPUS AND BLOOD OF MICE TREATED WITH GCS OR VEHICLE SOLUTION WAS ASSAYED USING A GENOME-WIDE DNAM PLATFORM (METHYL-SEQ) TO IDENTIFY DIFFERENTIALLY METHYLATED REGIONS (DMRS) INDUCED BY GC TREATMENT. WE OBSERVED THAT APPROXIMATELY 70% OF THE DMRS IN BOTH TISSUES LOST METHYLATION FOLLOWING GC TREATMENT. OF THE 3,095 DMRS THAT MAPPED TO THE SAME GENES IN BOTH TISSUES, 1,853 DMRS UNDERWENT DNAM CHANGES IN THE SAME DIRECTION. INTERESTINGLY, ONLY 209 DMRS (<7%) OVERLAPPED IN GENOMIC COORDINATES BETWEEN THE 2 TISSUES, SUGGESTING TISSUE-SPECIFIC DIFFERENCES IN GC-TARGETED LOCI. PATHWAY ANALYSIS SHOWED THAT THE DMR-ASSOCIATED GENES WERE MEMBERS OF PATHWAYS INVOLVED IN METABOLISM, IMMUNE FUNCTION, AND NEURODEVELOPMENT. ALSO, CHANGES IN CELL TYPE COMPOSITION OF BLOOD AND BRAIN WERE EXAMINED BY FLUORESCENCE-ACTIVATED CELL SORTING. SEPARATION OF THE CORTEX INTO NEURONAL AND NON-NEURONAL FRACTIONS AND THE LEUKOCYTES INTO T-CELLS, B-CELLS, AND NEUTROPHILS SHOWED THAT GC-INDUCED METHYLATION CHANGES PRIMARILY OCCURRED IN NEURONS AND T-CELLS, WITH THE BLOOD TISSUE ALSO UNDERGOING A SHIFT IN THE PROPORTION OF CONSTITUENT CELL TYPES WHILE THE PROPORTION OF NEURONS AND GLIA IN THE BRAIN REMAINED STABLE. FROM THE CURRENT PILOT STUDY, WE FOUND THAT DESPITE TISSUE-SPECIFIC EPIGENETIC CHANGES AND CELLULAR HETEROGENEITY, BLOOD CAN SERVE AS A SURROGATE FOR GC-INDUCED CHANGES IN THE BRAIN. 2017 16 4879 21 OVERLAPPING SIGNATURES OF CHRONIC PAIN IN THE DNA METHYLATION LANDSCAPE OF PREFRONTAL CORTEX AND PERIPHERAL T CELLS. WE TESTED THE HYPOTHESIS THAT EPIGENETIC MECHANISMS IN THE BRAIN AND THE IMMUNE SYSTEM ARE ASSOCIATED WITH CHRONIC PAIN. GENOME-WIDE DNA METHYLATION ASSESSED IN 9 MONTHS POST NERVE-INJURY (SNI) AND SHAM RATS, IN THE PREFRONTAL CORTEX (PFC) AS WELL AS IN T CELLS REVEALED A VAST DIFFERENCE IN THE DNA METHYLATION LANDSCAPE IN THE BRAIN BETWEEN THE GROUPS AND A REMARKABLE OVERLAP (72%) BETWEEN DIFFERENTIALLY METHYLATED PROBES IN T CELLS AND PREFRONTAL CORTEX. DNA METHYLATION STATES IN THE PFC SHOWED ROBUST CORRELATION WITH PAIN SCORE OF ANIMALS IN SEVERAL GENES INVOLVED IN PAIN. FINALLY, ONLY 11 DIFFERENTIALLY METHYLATED PROBES IN T CELLS WERE SUFFICIENT TO DISTINGUISH SNI OR SHAM INDIVIDUAL RATS. THIS STUDY SUPPORTS THE PLAUSIBILITY OF DNA METHYLATION INVOLVEMENT IN CHRONIC PAIN AND DEMONSTRATES THE POTENTIAL FEASIBILITY OF DNA METHYLATION MARKERS IN T CELLS AS NONINVASIVE BIOMARKERS OF CHRONIC PAIN SUSCEPTIBILITY. 2016 17 5902 26 T-HELPER 17 CELL POLARIZATION IN PULMONARY ARTERIAL HYPERTENSION. BACKGROUND: INFLAMMATION MAY CONTRIBUTE TO THE PATHOBIOLOGY OF PULMONARY ARTERIAL HYPERTENSION (PAH). DECIPHERING THE PAH FINGERPRINT ON THE INFLAMMATION ORCHESTRATED BY DENDRITIC CELLS (DCS) AND T CELLS, KEY DRIVER AND EFFECTOR CELLS, RESPECTIVELY, OF THE IMMUNE SYSTEM, MAY ALLOW THE IDENTIFICATION OF IMMUNOPATHOLOGIC APPROACHES TO PAH MANAGEMENT. METHODS: USING FLOW CYTOMETRY, WE PERFORMED IMMUNOPHENOTYPING OF MONOCYTE-DERIVED DCS (MODCS) AND CIRCULATING LYMPHOCYTES FROM PATIENTS WITH IDIOPATHIC PAH AND CONTROL SUBJECTS. WITH THE SAME TECHNIQUE, WE PERFORMED CYTOKINE PROFILING OF BOTH POPULATIONS FOLLOWING STIMULATION, COCULTURE, OR BOTH. WE TESTED THE IMMUNOMODULATORY EFFECTS OF A GLUCOCORTICOID (DEXAMETHASONE [DEX]) ON THIS IMMUNOPHENOTYPE AND CYTOKINE PROFILE. USING AN EPIGENETIC APPROACH, WE CONFIRMED THE IMMUNE POLARIZATION IN BLOOD DNA OF PATIENTS WITH PAH. RESULTS: THE PROFILE OF MEMBRANE COSTIMULATORY MOLECULES OF PAH MODCS WAS SIMILAR TO THAT OF CONTROL SUBJECTS. HOWEVER, PAH MODCS RETAINED HIGHER LEVELS OF THE T-CELL ACTIVATING MOLECULES CD86 AND CD40 AFTER DEX PRETREATMENT THAN DID CONTROL MODCS. THIS WAS ASSOCIATED WITH AN INCREASED EXPRESSION OF IL-12P40 AND A REDUCED MIGRATION TOWARD CHEMOKINE (C-C MOTIF) LIGAND 21. MOREOVER, BOTH WITH AND WITHOUT DEX, PAH MODCS INDUCED A HIGHER ACTIVATION AND PROLIFERATION OF CD4+ T CELLS, ASSOCIATED WITH A REDUCED EXPRESSION OF IL-4 (T HELPER 2 RESPONSE) AND A HIGHER EXPRESSION OF IL-17 (T HELPER 17 RESPONSE). PURIFIED PAH CD4+ T CELLS EXPRESSED A HIGHER LEVEL OF IL-17 AFTER ACTIVATION THAN DID THOSE OF CONTROL SUBJECTS. LASTLY, THERE WAS SIGNIFICANT HYPOMETHYLATION OF THE IL-17 PROMOTER IN THE PAH BLOOD DNA AS COMPARED WITH THE CONTROL BLOOD. CONCLUSIONS: WE HAVE HIGHLIGHTED T HELPER 17 CELL IMMUNE POLARIZATION IN PATIENTS WITH PAH, AS HAS BEEN PREVIOUSLY DEMONSTRATED IN OTHER CHRONIC INFLAMMATORY AND AUTOIMMUNE CONDITIONS. 2015 18 4224 21 METHYLATION CHANGES IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE EXPOSED TO ACUTE AND CHRONIC LOW-DOSE X-RAY-IRRADIATION. THE BIOLOGICAL AND GENETIC EFFECTS OF CHRONIC LOW-DOSE RADIATION (LDR) EXPOSURE AND ITS RELATIONSHIP TO CARCINOGENESIS HAVE RECEIVED A LOT OF ATTENTION IN THE RECENT YEARS. FOR EXAMPLE, RADIATION-INDUCED GENOME INSTABILITY, WHICH IS THOUGHT TO BE A PRECURSOR OF TUMOROGENESIS, WAS SHOWN TO HAVE A TRANSGENERATIONAL NATURE. THIS INDICATES A POSSIBLE INVOLVEMENT OF EPIGENETIC MECHANISMS IN LDR-INDUCED GENOME INSTABILITY. GENOMIC DNA METHYLATION IS ONE OF THE MOST IMPORTANT EPIGENETIC MECHANISMS. EXISTING DATA ON RADIATION EFFECTS ON DNA METHYLATION PATTERNS IS LIMITED, AND NO ONE HAS SPECIFICALLY STUDIED THE EFFECTS OF THE LDR. WE REPORT THE FIRST STUDY OF THE EFFECTS OF WHOLE-BODY LDR EXPOSURE ON GLOBAL GENOME METHYLATION IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE. IN PARALLEL, WE EVALUATED CHANGES IN PROMOTER METHYLATION AND EXPRESSION OF THE TUMOR SUPPRESSOR GENE P16(INKA) AND DNA REPAIR GENE O(6)-METHYLGUANINE-DNA METHYLTRANSFERASE (MGMT). WE OBSERVED DIFFERENT PATTERNS OF RADIATION-INDUCED GLOBAL GENOME DNA METHYLATION IN THE LIVER AND MUSCLE OF EXPOSED MALES AND FEMALES. WE ALSO FOUND SEX AND TISSUE-SPECIFIC DIFFERENCES IN P16(INKA) PROMOTER METHYLATION UPON LDR EXPOSURE. IN MALE LIVER TISSUE, P16(INKA) PROMOTER METHYLATION WAS MORE PRONOUNCED THAN IN FEMALE TISSUE. IN CONTRAST, NO SIGNIFICANT RADIATION-INDUCED CHANGES IN P16(INKA) PROMOTER METHYLATION WERE NOTED IN THE MUSCLE TISSUE OF EXPOSED MALES AND FEMALES. RADIATION ALSO DID NOT SIGNIFICANTLY AFFECT METHYLATION STATUS OF MGMT PROMOTER. WE ALSO OBSERVED SUBSTANTIAL SEX DIFFERENCES IN ACUTE AND CHRONIC RADIATION-INDUCED EXPRESSION OF P16(INKA) AND MGMT GENES. ANOTHER IMPORTANT OUTCOME OF OUR STUDY WAS THE FACT THAT CHRONIC LOW-DOSE RADIATION EXPOSURE PROVED TO BE A MORE POTENT INDUCER OF EPIGENETIC EFFECTS THAN THE ACUTE EXPOSURE. THIS SUPPORTS PREVIOUS FINDINGS THAT CHRONIC EXPOSURE LEADS TO GREATER GENOME DESTABILIZATION THAN ACUTE EXPOSURE. 2004 19 2766 24 EXPRESSION, POLYMORPHISM AND METHYLATION PATTERN OF INTERLEUKIN-6 IN PERIODONTAL TISSUES. PERIODONTITIS IS CONSIDERED AN INFLAMMATORY DISORDER OF BACTERIAL ETIOLOGY THAT RESULTS IN PERIODONTAL TISSUE DESTRUCTION, AS A RESULT OF COMPLEX INTERACTIONS BETWEEN PERIODONTAL PATHOGENS, HOST AND IMMUNE RESPONSE. GENETIC AND EPIGENETIC MECHANISMS MAY MODULATE THE INDIVIDUAL RESPONSE SINCE IT IS ABLE TO INFLUENCE THE GENE EXPRESSION. THE AIM OF THIS STUDY WAS TO EVALUATE THE IMPACT OF -174 G/C POLYMORPHISM AND THE METHYLATION STATUS OF THE PROMOTER REGION OF IL-6 GENE ON THE EXPRESSION OF IL-6 IN GINGIVAL SAMPLES FROM INDIVIDUALS WITH CHRONIC PERIODONTITIS. GINGIVAL BIOPSIES WERE COLLECTED FROM 21 PATIENTS WITH CHRONIC PERIODONTITIS AND 21 CONTROLS. HISTOLOGIC SECTIONS STAINED BY HEMATOXYLIN-EOSIN WERE USED FOR HISTOPATHOLOGICAL EVALUATION. THE IL-6 GENE EXPRESSION WAS ASSESSED BY QUANTITATIVE REAL-TIME PCR. THE POLYMORPHISM IL-6 -174 C/G WAS STUDIED BY POLYMERASE CHAIN REACTION (PCR) AMPLIFICATION AND RESTRICTION ENDONUCLEASE DIGESTION (HSPII). METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION WAS USED TO VERIFY THE DNA METHYLATION PATTERN. THE NUMBER OF INFLAMMATORY CELLS IN TISSUE FRAGMENTS FROM INDIVIDUALS WITH CHRONIC PERIODONTITIS WAS HIGHER THAN IN THE CONTROL GROUP AND THE INFLAMMATORY INFILTRATE WAS PREDOMINANTLY MONONUCLEAR. THE EXPRESSION OF IL-6 WAS HIGHER IN THE GROUP WITH PERIODONTITIS. IN POLYMORPHISM ASSAY, NO STATISTICAL DIFFERENCE IN THE DISTRIBUTION OF GENOTYPES AND ALLELES IN BOTH GROUPS WERE OBSERVED. THE MOST OF SAMPLES WERE PARTIALLY METHYLATED. NO DIFFERENCE WAS OBSERVED IN METHYLATION PATTERN FROM TWO DIFFERENT REGIONS OF THE IL-6 GENE AMONG GROUPS. THE HIGH EXPRESSION OF IL-6 IS AN IMPORTANT FACTOR RELATED TO CHRONIC PERIODONTITIS, BUT WAS NOT ASSOCIATED WITH METHYLATION STATUS OR THE -174 (G/C) GENETIC POLYMORPHISM, SUGGESTING THAT OTHER MECHANISMS ARE INVOLVED IN THIS GENE TRANSCRIPTION REGULATION. 2013 20 2281 26 EPIGENETIC REGULATION IN EARLY CHILDHOOD: A MINIATURIZED AND VALIDATED METHOD TO ASSESS HISTONE ACETYLATION. INTRODUCTION: CHRONIC INFLAMMATORY DISEASES INCLUDING ALLERGIES AND ASTHMA ARE THE RESULT OF COMPLEX INTERACTIONS BETWEEN GENES AND ENVIRONMENTAL FACTORS. EPIGENETIC MECHANISMS COMPRISE A SET OF BIOCHEMICAL REACTIONS THAT REGULATE GENE EXPRESSION. IN ORDER TO UNDERSTAND THE CAUSE-EFFECT RELATIONSHIP BETWEEN ENVIRONMENTAL EXPOSURES AND DISEASE DEVELOPMENT, METHODS CAPABLE OF ASSESSING EPIGENETIC REGULATION (ALSO) IN LARGE COHORTS ARE NEEDED. METHODS: FOR THIS PURPOSE, WE DEVELOPED AND EVALUATED A MINIATURIZED CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAY ALLOWING FOR A COST-EFFECTIVE ASSESSMENT OF HISTONE ACETYLATION OF CANDIDATE GENES IN A QUANTITATIVE FASHION. THIS METHOD WAS THEN APPLIED TO ASSESS H3 AND H4 HISTONE ACETYLATION CHANGES IN CORD BLOOD (CB) SAMPLES FROM AN ESTABLISHED COHORT OF AUSTRALIAN CHILDREN EXPOSED IN THE FETAL PERIOD TO EITHER VERY LOW OR VERY HIGH LEVELS OF MATERNAL FOLATE. RESULTS: OUR CHIP ASSAY WAS VALIDATED FOR A MINIMUM REQUIREMENT OF 1 X 105 TARGET CELLS (E.G. CD4+ T CELLS). VERY HIGH LEVELS OF MATERNAL FOLATE WERE SIGNIFICANTLY ASSOCIATED WITH INCREASED H3/H4 ACETYLATION AT GATA3 AND/OR IL9 PROMOTER REGIONS IN CD4+ T CELLS IN CB. CONCLUSION: WE DEVELOPED A CHIP METHOD ALLOWING RELIABLE ASSESSMENT OF H3/H4 ACETYLATION USING 1 X 105 CELLS ONLY. PRACTICAL APPLICATION OF THIS ASSAY DEMONSTRATED AN ASSOCIATION BETWEEN HIGH MATERNAL FOLATE EXPOSURE AND INCREASED HISTONE ACETYLATION, CORRESPONDING TO A MORE TRANSCRIPTIONALLY PERMISSIVE CHROMATIN STATUS IN THE PROMOTER REGIONS OF SOME TH2-RELATED GENES. 2015