1 1092 124 COHESIN MUTATIONS IN MYELOID MALIGNANCIES. COHESIN IS A MULTISUBUNIT PROTEIN COMPLEX THAT FORMS A RING-LIKE STRUCTURE AROUND DNA. IT IS ESSENTIAL FOR SISTER CHROMATID COHESION, CHROMATIN ORGANIZATION, TRANSCRIPTIONAL REGULATION, AND DNA DAMAGE REPAIR AND PLAYS A MAJOR ROLE IN DYNAMICALLY SHAPING THE GENOME ARCHITECTURE AND MAINTAINING DNA INTEGRITY. THE CORE COMPLEX SUBUNITS STAG2, RAD21, SMC1, AND SMC3, AS WELL AS ITS MODULATORS PDS5A/B, WAPL, AND NIPBL, HAVE BEEN FOUND TO BE RECURRENTLY MUTATED IN HEMATOLOGIC AND SOLID MALIGNANCIES. THESE MUTATIONS ARE FOUND ACROSS THE FULL SPECTRUM OF MYELOID NEOPLASIA, INCLUDING PEDIATRIC DOWN SYNDROME-ASSOCIATED ACUTE MEGAKARYOBLASTIC LEUKEMIA, MYELODYSPLASTIC SYNDROMES, CHRONIC MYELOMONOCYTIC LEUKEMIA, AND DE NOVO AND SECONDARY ACUTE MYELOID LEUKEMIAS. THE MECHANISMS BY WHICH COHESIN MUTATIONS ACT AS DRIVERS OF CLONAL EXPANSION AND DISEASE PROGRESSION ARE STILL POORLY UNDERSTOOD. RECENT STUDIES HAVE DESCRIBED THE IMPACT OF COHESIN ALTERATIONS ON SELF-RENEWAL AND DIFFERENTIATION OF HEMATOPOIETIC STEM AND PROGENITOR CELLS, WHICH ARE ASSOCIATED WITH CHANGES IN CHROMATIN AND EPIGENETIC STATE DIRECTING LINEAGE COMMITMENT, AS WELL AS GENOMIC INTEGRITY. HEREIN, WE REVIEW THE ROLE OF THE COHESIN COMPLEX IN HEALTHY AND MALIGNANT HEMATOPOIESIS. WE DISCUSS CLINICAL IMPLICATIONS OF COHESIN MUTATIONS IN MYELOID MALIGNANCIES AND DISCUSS OPPORTUNITIES FOR THERAPEUTIC TARGETING. 2021 2 1122 31 COMPARISON OF GENE EXPRESSION PROFILES IN CHROMATE TRANSFORMED BEAS-2B CELLS. BACKGROUND: HEXAVALENT CHROMIUM [CR(VI)] IS A POTENT HUMAN CARCINOGEN. OCCUPATIONAL EXPOSURE HAS BEEN ASSOCIATED WITH INCREASED RISK OF RESPIRATORY CANCER. MULTIPLE MECHANISMS HAVE BEEN SHOWN TO CONTRIBUTE TO CR(VI) INDUCED CARCINOGENESIS, INCLUDING DNA DAMAGE, GENOMIC INSTABILITY, AND EPIGENETIC MODULATION, HOWEVER, THE MOLECULAR MECHANISM AND DOWNSTREAM GENES MEDIATING CHROMIUM'S CARCINOGENICITY REMAIN TO BE ELUCIDATED. METHODS/RESULTS: WE ESTABLISHED CHROMATE TRANSFORMED CELL LINES BY CHRONIC EXPOSURE OF NORMAL HUMAN BRONCHIAL EPITHELIAL BEAS-2B CELLS TO LOW DOSES OF CR(VI) FOLLOWED BY ANCHORAGE-INDEPENDENT GROWTH. THESE TRANSFORMED CELL LINES NOT ONLY EXHIBITED CONSISTENT MORPHOLOGICAL CHANGES BUT ALSO ACQUIRED ALTERED AND DISTINCT GENE EXPRESSION PATTERNS COMPARED WITH NORMAL BEAS-2B CELLS AND CONTROL CELL LINES (UNTREATED) THAT AROSE SPONTANEOUSLY IN SOFT AGAR. INTERESTINGLY, THE GENE EXPRESSION PROFILES OF SIX CR(VI) TRANSFORMED CELL LINES WERE REMARKABLY SIMILAR TO EACH OTHER YET DIFFERED SIGNIFICANTLY FROM THAT OF EITHER CONTROL CELL LINES OR NORMAL BEAS-2B CELLS. A TOTAL OF 409 DIFFERENTIALLY EXPRESSED GENES WERE IDENTIFIED IN CR(VI) TRANSFORMED CELLS COMPARED TO CONTROL CELLS. GENES RELATED TO CELL-TO-CELL JUNCTION WERE UPREGULATED IN ALL CR(VI) TRANSFORMED CELLS, WHILE GENES ASSOCIATED WITH THE INTERACTION BETWEEN CELLS AND THEIR EXTRACELLULAR MATRICES WERE DOWN-REGULATED. ADDITIONALLY, EXPRESSION OF GENES INVOLVED IN CELL PROLIFERATION AND APOPTOSIS WERE ALSO CHANGED. CONCLUSION: THIS STUDY IS THE FIRST TO REPORT GENE EXPRESSION PROFILING OF CR(VI) TRANSFORMED CELLS. THE GENE EXPRESSION CHANGES ACROSS INDIVIDUAL CHROMATE EXPOSED CLONES WERE REMARKABLY SIMILAR TO EACH OTHER BUT DIFFERED SIGNIFICANTLY FROM THE GENE EXPRESSION FOUND IN ANCHORAGE-INDEPENDENT CLONES THAT AROSE SPONTANEOUSLY. OUR ANALYSIS IDENTIFIED MANY NOVEL GENE EXPRESSION CHANGES THAT MAY CONTRIBUTE TO CHROMATE INDUCED CELL TRANSFORMATION, AND COLLECTIVELY THIS TYPE OF INFORMATION WILL PROVIDE A BETTER UNDERSTANDING OF THE MECHANISM UNDERLYING CHROMATE CARCINOGENICITY. 2011 3 4484 29 MOLECULAR SIGNATURE OF CAID SYNDROME: NONCANONICAL ROLES OF SGO1 IN REGULATION OF TGF-BETA SIGNALING AND EPIGENOMICS. BACKGROUND & AIMS: A GENERALIZED HUMAN PACEMAKING SYNDROME, CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA (CAID) (OMIM 616201), IS CAUSED BY A HOMOZYGOUS SGO1 MUTATION (K23E), LEADING TO CHRONIC INTESTINAL PSEUDO-OBSTRUCTION AND ARRHYTHMIAS. BECAUSE CAID PATIENTS DO NOT SHOW PHENOTYPES CONSISTENT WITH PERTURBATION OF KNOWN ROLES OF SGO1, WE HYPOTHESIZED THAT NONCANONICAL ROLES OF SGO1 DRIVE THE CLINICAL MANIFESTATIONS OBSERVED. METHODS: TO IDENTIFY A MOLECULAR SIGNATURE FOR CAID SYNDROME, WE ACHIEVED UNBIASED SCREENS IN CELL LINES AND GUT TISSUES FROM CAID PATIENTS VS WILD-TYPE CONTROLS. WE PERFORMED RNA SEQUENCING ALONG WITH STABLE ISOTOPE LABELING WITH AMINO ACIDS IN CELL CULTURE. IN ADDITION, WE DETERMINED THE GENOME-WIDE DNA METHYLATION AND CHROMATIN ACCESSIBILITY SIGNATURES USING REDUCED REPRESENTATIVE BISULFITE SEQUENCING AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH HIGH-THROUGHPUT SEQUENCING. FUNCTIONAL STUDIES INCLUDED PATCH-CLAMP, QUANTITATION OF TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA) SIGNALING, AND IMMUNOHISTOCHEMISTRY IN CAID PATIENT GUT BIOPSY SPECIMENS. RESULTS: PROTEOME AND TRANSCRIPTOME STUDIES CONVERGE ON CELL-CYCLE REGULATION, CARDIAC CONDUCTION, AND SMOOTH MUSCLE REGULATION AS DRIVERS OF CAID SYNDROME. SPECIFICALLY, THE INWARD RECTIFIER CURRENT, AN IMPORTANT REGULATOR OF CELLULAR FUNCTION, WAS DISRUPTED. IMMUNOHISTOCHEMISTRY CONFIRMED OVEREXPRESSION OF BUDDING UNINHIBITED BY BENZIMIDAZOLES 1 (BUB1) IN PATIENTS, IMPLICATING THE TGF-BETA PATHWAY IN CAID PATHOGENESIS. CANONICAL TGF-BETA SIGNALING WAS UP-REGULATED AND UNCOUPLED FROM NONCANONICAL SIGNALING IN CAID PATIENTS. REDUCED REPRESENTATIVE BISULFITE SEQUENCING AND ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH HIGH-THROUGHPUT SEQUENCING EXPERIMENTS SHOWED SIGNIFICANT CHANGES OF CHROMATIN STATES IN CAID, POINTING TO EPIGENETIC REGULATION AS A POSSIBLE PATHOLOGIC MECHANISM. CONCLUSIONS: OUR FINDINGS POINT TO IMPAIRED INWARD RECTIFIER POTASSIUM CURRENT, DYSREGULATION OF CANONICAL TGF-BETA SIGNALING, AND EPIGENETIC REGULATION AS POTENTIAL DRIVERS OF INTESTINAL AND CARDIAC MANIFESTATIONS OF CAID SYNDROME. TRANSCRIPT PROFILING AND GENOMICS DATA ARE AS FOLLOWS: REPOSITORY URL: HTTPS://WWW.NCBI.NLM.NIH.GOV/GEO; SUPERSERIES GSE110612 WAS COMPOSED OF THE FOLLOWING SUBSERIES: GSE110309, GSE110576, AND GSE110601. 2019 4 1987 29 EPIGENETIC ALTERATIONS OF CXCL5 IN CR(VI)-INDUCED CARCINOGENESIS. CHRONIC EXPOSURE TO HEXAVALENT CHROMIUM COMPOUNDS [CR(VI)] IS ASSOCIATED WITH AN INCREASED RISK OF CANCERS, BUT THE MOLECULAR MECHANISMS REMAIN TO BE ELUCIDATED. IN THIS STUDY, WE FOUND THAT CXCL5 LEVELS IN PERIPHERAL BLOOD MONOCYTES (PBMCS) AND PLASMA FROM WORKERS WITH OCCUPATIONAL EXPOSURE TO CR(VI) WERE DRAMATICALLY UPREGULATED COMPARED TO NON-EXPOSURE HEALTHY SUBJECTS, AND PLASMA C-X-C MOTIF CHEMOKINE LIGAND 5 (CXCL5) CXCL5 LEVELS WERE POSITIVELY CORRELATED WITH CR CONCENTRATIONS IN SUBJECTS' TOENAILS. ZINC CHROMATE EXPOSED MICE SHOWED HIGHER LEVELS OF CXCL5 AND ITS RECEPTOR CXCR2 IN LUNG TISSUES, AND IN PBMCS. SIMILAR CXCL5 UPREGULATION WAS EVIDENT IN CR(VI)-INDUCED TRANSFORMED (CR-T) CELLS WITH LONG-TERM CR(VI) TREATMENT. MECHANISTIC STUDIES SHOWED THAT ELEVATED CXCL5 EXPRESSION LEVELS WERE REGULATED BY CR(VI)-INDUCED HISTONE MODIFICATIONS AND DNA HYPOMETHYLATION, AND THAT THE C-MYC/P300 COMPLEX WAS A KEY UPSTREAM REGULATOR OF HISTONE H3 ACETYLATION. CXCL5 OVEREXPRESSION PROMOTED CR(VI)-INDUCED THE EPITHELIAL TO MESENCHYME TRANSITION (EMT) BY UPREGULATING ZINC FINGER E-BOX BINDING HOMEOBOX 1 (ZEB1) TO PROMOTE TUMOR DEVELOPMENT. OUR FINDINGS IDENTIFY A NOVEL MECHANISM BY WHICH CXCL5 IS UPREGULATED AND PROMOTES EMT AND CARCINOGENESIS UPON CHRONIC CR(VI) EXPOSURE. OUR WORK ALSO IMPLIES THAT CXCL5 MRNA AND PROTEIN LEVELS WILL ELEVATE IN PBMCS AND SERUM AFTER OCCUPATIONAL CR(VI) EXPOSURE, WHICH MAY BE A POTENTIAL TARGET AND BIOMARKER FOR CANCER PREVENTION AND HEALTH SURVEILLANCE AMONG POPULATIONS EXPOSED TO CR(VI). 2022 5 1993 31 EPIGENETIC AND EPITRANSCRIPTOMIC MECHANISMS OF CHROMIUM CARCINOGENESIS. HEXAVALENT CHROMIUM [CR(VI)], A GROUP I CARCINOGEN CLASSIFIED BY THE INTERNATIONAL AGENCY FOR RESEARCH ON CANCER (IARC), REPRESENTS ONE OF THE MOST COMMON OCCUPATIONAL AND ENVIRONMENTAL POLLUTANTS. THE FINDINGS FROM HUMAN EPIDEMIOLOGICAL AND LABORATORY ANIMAL STUDIES SHOW THAT LONG-TERM EXPOSURE TO CR(VI) CAUSES LUNG CANCER AND OTHER CANCER. ALTHOUGH CR(VI) IS A WELL-RECOGNIZED CARCINOGEN, THE MECHANISM OF CR(VI) CARCINOGENESIS HAS NOT BEEN WELL UNDERSTOOD. DUE TO THE FACT THAT CR(VI) UNDERGOES A SERIES OF METABOLIC REDUCTIONS ONCE ENTERING CELLS TO GENERATE REACTIVE CR METABOLITES AND REACTIVE OXYGEN SPECIES (ROS) CAUSING GENOTOXICITY, CR(VI) IS GENERALLY CONSIDERED AS A GENOTOXIC CARCINOGEN. HOWEVER, MORE AND MORE STUDIES HAVE DEMONSTRATED THAT ACUTE OR CHRONIC CR(VI) EXPOSURE ALSO CAUSES EPIGENETIC DYSREGULATIONS INCLUDING CHANGING DNA METHYLATION, HISTONE POSTTRANSLATIONAL MODIFICATIONS AND REGULATORY NON-CODING RNA (MICRORNA AND LONG NON-CODING RNA) EXPRESSIONS. MOREOVER, EMERGING EVIDENCE SHOWS THAT CR(VI) EXPOSURE IS ALSO CAPABLE OF ALTERING CELLULAR EPITRANSCRIPTOME. GIVEN THE INCREASINGLY RECOGNIZED IMPORTANCE OF EPIGENETIC AND EPITRANSCRIPTOMIC DYSREGULATIONS IN CANCER INITIATION AND PROGRESSION, IT IS BELIEVED THAT CR(VI) EXPOSURE-CAUSED EPIGENETIC AND EPITRANSCRIPTOMIC CHANGES COULD PLAY IMPORTANT ROLES IN CR(VI) CARCINOGENESIS. THE GOAL OF THIS CHAPTER IS TO REVIEW THE EPIGENETIC AND EPITRANSCRIPTOMIC EFFECTS OF CR(VI) EXPOSURE AND DISCUSS THEIR ROLES IN CR(VI) CARCINOGENESIS. BETTER UNDERSTANDING THE MECHANISM OF CR(VI) CARCINOGENESIS MAY IDENTIFY NEW MOLECULAR TARGETS FOR MORE EFFICIENT PREVENTION AND TREATMENT OF CANCER RESULTING FROM CR(VI) EXPOSURE. 2023 6 2961 34 GENETIC AND EPIGENETIC MECHANISMS IN METAL CARCINOGENESIS AND COCARCINOGENESIS: NICKEL, ARSENIC, AND CHROMIUM. CHRONIC EXPOSURE TO NICKEL(II), CHROMIUM(VI), OR INORGANIC ARSENIC (IAS) HAS LONG BEEN KNOWN TO INCREASE CANCER INCIDENCE AMONG AFFECTED INDIVIDUALS. RECENT EPIDEMIOLOGICAL STUDIES HAVE FOUND THAT CARCINOGENIC RISKS ASSOCIATED WITH CHROMATE AND IAS EXPOSURES WERE SUBSTANTIALLY HIGHER THAN PREVIOUSLY THOUGHT, WHICH LED TO MAJOR REVISIONS OF THE FEDERAL STANDARDS REGULATING AMBIENT AND DRINKING WATER LEVELS. GENOTOXIC EFFECTS OF CR(VI) AND IAS ARE STRONGLY INFLUENCED BY THEIR INTRACELLULAR METABOLISM, WHICH CREATES SEVERAL REACTIVE INTERMEDIATES AND BYPRODUCTS. TOXIC METALS ARE CAPABLE OF POTENT AND SURPRISINGLY SELECTIVE ACTIVATION OF STRESS-SIGNALING PATHWAYS, WHICH ARE KNOWN TO CONTRIBUTE TO THE DEVELOPMENT OF HUMAN CANCERS. DEPENDING ON THE METAL, ASCORBATE (VITAMIN C) HAS BEEN FOUND TO ACT EITHER AS A STRONG ENHANCER OR SUPPRESSOR OF TOXIC RESPONSES IN HUMAN CELLS. IN ADDITION TO GENETIC DAMAGE VIA BOTH OXIDATIVE AND NONOXIDATIVE (DNA ADDUCTS) MECHANISMS, METALS CAN ALSO CAUSE SIGNIFICANT CHANGES IN DNA METHYLATION AND HISTONE MODIFICATIONS, LEADING TO EPIGENETIC SILENCING OR REACTIVATION OF GENE EXPRESSION. IN VITRO GENOTOXICITY EXPERIMENTS AND RECENT ANIMAL CARCINOGENICITY STUDIES PROVIDED STRONG SUPPORT FOR THE IDEA THAT METALS CAN ACT AS COCARCINOGENS IN COMBINATION WITH NONMETAL CARCINOGENS. COCARCINOGENIC AND COMUTAGENIC EFFECTS OF METALS ARE LIKELY TO STEM FROM THEIR ABILITY TO INTERFERE WITH DNA REPAIR PROCESSES. OVERALL, METAL CARCINOGENESIS APPEARS TO REQUIRE THE FORMATION OF SPECIFIC METAL COMPLEXES, CHROMOSOMAL DAMAGE, AND ACTIVATION OF SIGNAL TRANSDUCTION PATHWAYS PROMOTING SURVIVAL AND EXPANSION OF GENETICALLY/EPIGENETICALLY ALTERED CELLS. 2008 7 6145 45 THE EXPANDING PHENOTYPES OF COHESINOPATHIES: ONE RING TO RULE THEM ALL! PRESERVATION AND DEVELOPMENT OF LIFE DEPEND ON THE ADEQUATE SEGREGATION OF SISTER CHROMATIDS DURING MITOSIS AND MEIOSIS. THIS PROCESS IS ENSURED BY THE COHESIN MULTI-SUBUNIT COMPLEX. MUTATIONS IN THIS COMPLEX HAVE BEEN ASSOCIATED WITH AN INCREASING NUMBER OF DISEASES, TERMED COHESINOPATHIES. THE BEST CHARACTERIZED COHESINOPATHY IS CORNELIA DE LANGE SYNDROME (CDLS), IN WHICH INTELLECTUAL AND GROWTH RETARDATIONS ARE THE MAIN PHENOTYPIC MANIFESTATIONS. DESPITE SOME OVERLAP, THE CLINICAL MANIFESTATIONS OF COHESINOPATHIES VARY CONSIDERABLY. NOVEL ROLES OF THE COHESIN COMPLEX HAVE EMERGED DURING THE PAST DECADES, SUGGESTING THAT IMPORTANT CELL CYCLE REGULATORS EXERT IMPORTANT BIOLOGICAL EFFECTS THROUGH NON-COHESION-RELATED FUNCTIONS AND BROADENING THE POTENTIAL PATHOMECHANISMS INVOLVED IN COHESINOPATHIES. THIS REVIEW FOCUSES ON NON-COHESION-RELATED FUNCTIONS OF THE COHESIN COMPLEX, GENE DOSAGE EFFECT, EPIGENETIC REGULATION AND TGF-BETA IN COHESINOPATHY CONTEXT, ESPECIALLY IN COMPARISON TO CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA (CAID) SYNDROME, A VERY DISTINCT COHESINOPATHY CAUSED BY A HOMOZYGOUS SHUGOSHIN-1 (SGO1) MUTATION (K23E) AND CHARACTERIZED BY PACEMAKER FAILURE IN BOTH HEART (SICK SINUS SYNDROME FOLLOWED BY ATRIAL FLUTTER) AND GUT (CHRONIC INTESTINAL PSEUDO-OBSTRUCTION) WITH NO INTELLECTUAL OR GROWTH DELAY. WE DISCUSS THE POSSIBLE IMPACT OF SGO1 ALTERATIONS IN HUMAN PATHOLOGIES AND THE POTENTIAL IMPACT OF THE SGO1 K23E MUTATION IN THE SINUS NODE AND GUT DEVELOPMENT AND FUNCTIONS. WE SUGGEST THAT THE HUMAN PHENOTYPES OBSERVED IN CDLS, CAID SYNDROME AND OTHER COHESINOPATHIES CAN INFORM FUTURE STUDIES INTO THE LESS WELL-KNOWN NON-COHESION-RELATED FUNCTIONS OF COHESIN COMPLEX GENES. ABBREVIATIONS: AD: ALZHEIMER DISEASE; AFF4: AF4/FMR2 FAMILY MEMBER 4; ANKRD11: ANKYRIN REPEAT DOMAIN 11; APC: ANAPHASE PROMOTER COMPLEX; ASD: ATRIAL SEPTAL DEFECT; ATRX: ATRX CHROMATIN REMODELER; ATRX: ALPHA THALASSEMIA X-LINKED INTELLECTUAL DISABILITY SYNDROME; BIRC5: BACULOVIRAL IAP REPEAT CONTAINING 5; BMP: BONE MORPHOGENETIC PROTEIN; BRD4: BROMODOMAIN CONTAINING 4; BUB1: BUB1 MITOTIC CHECKPOINT SERINE/THREONINE KINASE; CAID: CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA; CDK1: CYCLIN DEPENDENT KINASE 1; CDLS: CORNELIA DE LANGE SYNDROME; CHD: CONGENITAL HEART DISEASE; CHOPS: COGNITIVE IMPAIRMENT, COARSE FACIES, HEART DEFECTS, OBESITY, PULMONARY INVOLVEMENT, SHORT STATURE, AND SKELETAL DYSPLASIA; CIPO: CHRONIC INTESTINAL PSEUDO-OBSTRUCTION; C-KIT: KIT PROTO-ONCOGENE RECEPTOR TYROSINE KINASE; COATS: COHESIN ACETYLTRANSFERASES; CTCF: CCCTC-BINDING FACTOR; DDX11: DEAD/H-BOX HELICASE 11; ERG: TRANSCRIPTIONAL REGULATOR ERG; ESCO2: ESTABLISHMENT OF SISTER CHROMATID COHESION N-ACETYLTRANSFERASE 2; GJC1: GAP JUNCTION PROTEIN GAMMA 1; H2A: HISTONE H2A; H3K4: HISTONE H3 LYSINE 4; H3K9: HISTONE H3 LYSINE 9; HCN4: HYPERPOLARIZATION ACTIVATED CYCLIC NUCLEOTIDE GATED POTASSIUM AND SODIUM CHANNEL 4;P HDAC8: HISTONE DEACETYLASES 8; HP1: HETEROCHROMATIN PROTEIN 1; ICC: INTERSTITIAL CELLS OF CAJAL; ICC-MP: MYENTERIC PLEXUS INTERSTITIAL CELLS OF CAJAL; ICC-DMP: DEEP MUSCULAR PLEXUS INTERSTITIAL CELLS OF CAJAL; I(F): PACEMAKER FUNNY CURRENT; IP3: INOSITOL TRISPHOSPHATE; JNK: C-JUN N-TERMINAL KINASE; LDS: LOEYS-DIETZ SYNDROME; LOAD: LATE-ONSET ALZHEIMER DISEASE; MAPK: MITOGEN-ACTIVATED PROTEIN KINASE; MAU: MAU SISTER CHROMATID COHESION FACTOR; MFS: MARFAN SYNDROME; NIPBL: NIPBL, COHESIN LOADING FACTOR; OCT4: OCTAMER-BINDING PROTEIN 4; P38: P38 MAP KINASE; PDA: PATENT DUCTUS ARTERIOSUS; PDS5: PDS5 COHESIN ASSOCIATED FACTOR; P-H3: PHOSPHO HISTONE H3; PLK1: POLO LIKE KINASE 1; POPDC1: POPEYE DOMAIN CONTAINING 1; POPDC2: POPEYE DOMAIN CONTAINING 2; PP2A: PROTEIN PHOSPHATASE 2; RAD21: RAD21 COHESIN COMPLEX COMPONENT; RBS: ROBERTS SYNDROME; REC8: REC8 MEIOTIC RECOMBINATION PROTEIN; RNAP2: RNA POLYMERASE II; SAN: SINOATRIAL NODE; SCN5A: SODIUM VOLTAGE-GATED CHANNEL ALPHA SUBUNIT 5; SEC: SUPER ELONGATION COMPLEX; SGO1: SHOGOSHIN-1; SMAD: SMAD FAMILY MEMBER; SMC1A: STRUCTURAL MAINTENANCE OF CHROMOSOMES 1A; SMC3: STRUCTURAL MAINTENANCE OF CHROMOSOMES 3; SNV: SINGLE NUCLEOTIDE VARIANT; SOX2: SRY-BOX 2; SOX17: SRY-BOX 17; SSS: SICK SINUS SYNDROME; STAG2: COHESIN SUBUNIT SA-2; TADS: TOPOLOGY ASSOCIATED DOMAINS; TBX: T-BOX TRANSCRIPTION FACTORS; TGF-BETA: TRANSFORMING GROWTH FACTOR BETA; TGFBR: TRANSFORMING GROWTH FACTOR BETA RECEPTOR; TOF: TETRALOGY OF FALLOT; TREK1: TREK-1 K(+) CHANNEL SUBUNIT; VSD: VENTRICULAR SEPTAL DEFECT; WABS: WARSAW BREAKAGE SYNDROME; WAPL: WAPL COHESIN RELEASE FACTOR. 2019 8 6663 25 UPREGULATION OF HISTONE-LYSINE METHYLTRANSFERASES PLAYS A CAUSAL ROLE IN HEXAVALENT CHROMIUM-INDUCED CANCER STEM CELL-LIKE PROPERTY AND CELL TRANSFORMATION. WHILE HEXAVALENT CHROMIUM [CR(VI)] IS GENERALLY CONSIDERED AS A GENOTOXIC ENVIRONMENTAL CARCINOGEN, STUDIES SHOWED THAT CR(VI) EXPOSURE ALSO CAUSES EPIGENETIC CHANGES. HOWEVER, WHETHER CR(VI)-CAUSED EPIGENETIC DYSREGULATIONS PLAYS AN IMPORTANT ROLE IN CR(VI) CARCINOGENICITY REMAIN LARGELY UNKNOWN. THE AIM OF THIS STUDY WAS TO DETERMINE IF CHRONIC LOW DOSE CR(VI) EXPOSURE CAUSES EPIGENETIC CHANGES, THE UNDERLYING MECHANISM AND WHETHER CHRONIC LOW DOSE CR(VI) EXPOSURE-CAUSED EPIGENETIC DYSREGULATION CONTRIBUTES CAUSALLY TO CR(VI)-INDUCED CANCER STEM CELL (CSC)-LIKE PROPERTY AND CELL TRANSFORMATION. TWO IMMORTALIZED HUMAN BRONCHIAL EPITHELIAL CELL LINES (BEAS-2B AND 16HBE) WERE EXPOSED TO 0.25 MUM OF K(2)CR(2)O(7) FOR 20 AND 40 WEEKS TO INDUCE CELL TRANSFORMATION, RESPECTIVELY. CR(VI)-INDUCED EPIGENETIC CHANGES WERE EXAMINED IN CR(VI)-TRANSFORMED CELLS AND CR(VI) EXPOSURE-CAUSED HUMAN LUNG CANCER TISSUES. PHARMACOLOGICAL INHIBITORS AND GENE KNOCKDOWN EXPERIMENTS WERE USED TO DETERMINE THE ROLE OF EPIGENETIC DYSREGULATION IN CR(VI) CARCINOGENICITY. WE FOUND THAT CHRONIC CR(VI) EXPOSURE CAUSES EPIGENETIC DYSREGULATION AS EVIDENCED BY THE INCREASED LEVELS OF HISTONE H3 REPRESSIVE METHYLATION MARKS (H3K9ME2 AND H3K27ME3) AND THE RELATED HISTONE-LYSING METHYLTRANSFERASES (HMTASES). PHARMACOLOGICAL INHIBITION OR KNOCKDOWN OF HMTASES REDUCES H3 REPRESSIVE METHYLATION MARKS AND MALIGNANT PHENOTYPES OF CR(VI)-TRANSFORMED CELLS. MOREOVER, KNOCKDOWN OF HMTASES IN PARENTAL CELLS SIGNIFICANTLY REDUCES CHRONIC CR(VI) EXPOSURE-INDUCED CSC-LIKE PROPERTY AND CELL TRANSFORMATION. FURTHER MECHANISTIC STUDY REVEALED THAT KNOCKDOWN OF HMTASES DECREASES CR(VI) EXPOSURE-CAUSED DNA DAMAGE. OUR FINDINGS INDICATE THAT CHRONIC CR(VI) EXPOSURE INCREASES H3 REPRESSIVE METHYLATION MARKS BY INCREASING THE RELATED HMTASES EXPRESSION; AND THAT INCREASED EXPRESSION OF HMTASES PLAYS A CAUSAL ROLE IN CR(VI)-INDUCED CSC-LIKE PROPERTY AND CELL TRANSFORMATION. 2018 9 5722 27 SISTER CHROMATID EXCHANGE AND PROLIFERATIVE RATE INDEX IN THE LONGITUDINAL RISK ASSESSMENT OF OCCUPATIONAL EXPOSURE TO PESTICIDES. AT PRESENT, THERE ARE MORE THAN 1,000 CHEMICALS CLASSIFIED AS PESTICIDES AND MANY REPORTS HAVE SHOWN THAT SOME OF THEM HAVE GENOTOXIC PROPERTIES. IN THE PRESENT LONGITUDINAL STUDY, POSSIBLE GENETIC DAMAGE ON A POPULATION OF WORKERS OCCUPATIONALLY EXPOSED TO A MIXTURE OF PESTICIDES BY USING SISTER CHROMATID EXCHANGE (SCE) ANALYSIS HAS BEEN EVALUATED. AS AN ADDITIONAL CYTOGENETIC PARAMETER, THE PROPORTION OF LYMPHOCYTES THAT UNDERGO ONE, TWO OR THREE CELL DIVISIONS AS WELL AS PROLIFERATIVE RATE INDEX HAVE BEEN DETERMINED. THIS STUDY WAS PERFORMED ON THE EXPOSED GROUP OF WORKERS EMPLOYED IN PESTICIDE PRODUCTION, SIMULTANEOUSLY EXPOSED TO A COMPLEX MIXTURE OF PESTICIDES (ATRAZINE, ALACHLOR, CYANAZINE, 2,4-DICHLOROPHENOXYACETIC ACID, AND MALATHION). THE BLOOD SAMPLES OF THE EXPOSED SUBJECTS WERE COLLECTED IN THREE DIFFERENT PERIODS: BEFORE THE BEGINNING OF THE NEW PESTICIDE PRODUCTION PERIOD, AFTER 8 MONTHS OF EVERYDAY WORK IN THE PESTICIDE PRODUCTION, AND 8 MONTHS AFTER THE REMOVAL OF SUBJECTS OUT OF THE PRODUCTION. IN ALL THREE SAMPLINGS, THE MEAN VALUE OF SCE AND NUMBER OF CELLS WITH HIGH SISTER CHROMATID EXCHANGE FREQUENCY (HFC) IN THE EXPOSED GROUP WAS SIGNIFICANTLY HIGHER IN THE COMPARISON WITH THE CONTROL GROUP. THERE WERE NO DIFFERENCES IN THE PROLIFERATIVE RATE INDEX (PRI) BETWEEN THE CONTROL AND EXPOSED GROUP, REGARDLESS OF THE SAMPLING PERIOD. IN BOTH GROUPS EXAMINED, THE MAJORITY OF LYMPHOCYTES WERE FOUND IN THE SECOND CELL DIVISION, FOLLOWING CULTIVATION. THESE RESULTS SUGGEST THAT THE INCREASE IN THE NUMBER OF SCE FOUND IN THE EXPOSED SUBJECTS IS NOT THE RESULT OF EITHER CYTOTOXIC OR EPIGENETIC ACTION OF PESTICIDE MIXTURE, BUT CHRONIC OCCUPATIONAL EXPOSURE TO MIXTURE OF PESTICIDES. 2002 10 1093 18 COHESIN RAD21 GENE PROMOTER METHYLATION IN PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS THE MOST COMMON TYPE OF LEUKEMIA IN ADULTS AND IS CHARACTERIZED BY THE PRESENCE OF SPECIFIC CYTOGENETIC ABNORMALITIES. CLL RESEARCH HAS BEEN FOCUSED ON EPIGENETIC PROCESSES LIKE GENE PROMOTER METHYLATION OF CPG ISLANDS. IN THE PRESENT STUDY, THE METHYLATION STATUS OF THE RAD21 GENE IS STUDIED AND ASSOCIATED WITH CYTOGENETIC FINDINGS IN CLL PATIENTS IN ORDER TO INVESTIGATE ITS POSSIBLE IMPLICATION IN CLL PATHOGENESIS AND THE FORMATION OF CLL CHROMOSOMAL ABNORMALITIES. 2018 11 6569 22 TRANSPLANTATION OF EPIGENETICALLY MODIFIED ADULT CARDIAC C-KIT+ CELLS RETARDS REMODELING AND IMPROVES CARDIAC FUNCTION IN ISCHEMIC HEART FAILURE MODEL. CARDIAC C-KIT+ CELLS HAVE A MODEST CARDIOGENIC POTENTIAL THAT COULD LIMIT THEIR EFFICACY IN HEART DISEASE TREATMENT. THE PRESENT STUDY WAS DESIGNED TO AUGMENT THE CARDIOGENIC POTENTIAL OF CARDIAC C-KIT+ CELLS THROUGH CLASS I HISTONE DEACETYLASE (HDAC) INHIBITION AND EVALUATE THEIR THERAPEUTIC POTENCY IN THE CHRONIC HEART FAILURE (CHF) ANIMAL MODEL. MYOCARDIAL INFARCTION (MI) WAS CREATED BY CORONARY ARTERY OCCLUSION IN RATS. C-KIT+ CELLS WERE TREATED WITH MOCETINOSTAT (MOCE), A SPECIFIC CLASS I HDAC INHIBITOR. AT 3 WEEKS AFTER MI, CHF ANIMALS WERE RETROGRADELY INFUSED WITH UNTREATED (CONTROL) OR MOCE-TREATED C-KIT+ CELLS (MOCE/C-KIT+ CELLS) AND EVALUATED AT 3 WEEKS AFTER CELL INFUSION. WE FOUND THAT CLASS I HDAC INHIBITION IN C-KIT+ CELLS ELEVATED THE LEVEL OF ACETYLATED HISTONE H3 (ACH3) AND INCREASED ACH3 LEVELS IN THE PROMOTER REGIONS OF PLURIPOTENT AND CARDIAC-SPECIFIC GENES. EPIGENETIC CHANGES WERE ACCOMPANIED BY INCREASED EXPRESSION OF CARDIAC-SPECIFIC MARKERS. TRANSPLANTATION OF CHF RATS WITH EITHER CONTROL OR MOCE/C-KIT+ CELLS RESULTED IN AN IMPROVEMENT IN CARDIAC FUNCTION, RETARDATION OF CHF REMODELING MADE EVIDENT BY INCREASED VASCULARIZATION AND SCAR SIZE, AND CARDIOMYOCYTE HYPERTROPHY REDUCTION. COMPARED WITH CHF INFUSED WITH CONTROL CELLS, INFUSION OF MOCE/C-KIT+ CELLS RESULTED IN A FURTHER REDUCTION IN LEFT VENTRICLE END-DIASTOLIC PRESSURE AND TOTAL COLLAGEN AND AN INCREASE IN INTERLEUKIN-6 EXPRESSION. THE LOW ENGRAFTMENT OF INFUSED CELLS SUGGESTS THAT PARACRINE EFFECTS MIGHT ACCOUNT FOR THE BENEFICIAL EFFECTS OF C-KIT+ CELLS IN CHF. IN CONCLUSION, SELECTIVE INHIBITION OF CLASS I HDACS INDUCED EXPRESSION OF CARDIAC MARKERS IN C-KIT+ CELLS AND PARTIALLY AUGMENTED THE EFFICACY OF THESE CELLS FOR CHF REPAIR. SIGNIFICANCE: THE STUDY HAS SHOWN THAT SELECTIVE CLASS 1 HISTONE DEACETYLASE INHIBITION IS SUFFICIENT TO REDIRECT C-KIT+ CELLS TOWARD A CARDIAC FATE. EPIGENETICALLY MODIFIED C-KIT+ CELLS IMPROVED CONTRACTILE FUNCTION AND RETARDED REMODELING OF THE CONGESTIVE HEART FAILURE HEART. THIS STUDY PROVIDES NEW INSIGHTS INTO THE EFFICACY OF CARDIAC C-KIT+ CELLS IN THE ISCHEMIC HEART FAILURE MODEL. 2015 12 6540 28 TRANSCRIPTIONAL, EPIGENETIC, AND FUNCTIONAL REPROGRAMMING OF MONOCYTES FROM NON-HUMAN PRIMATES FOLLOWING CHRONIC ALCOHOL DRINKING. CHRONIC HEAVY DRINKING (CHD) OF ALCOHOL IS A KNOWN RISK FACTOR FOR INCREASED SUSCEPTIBILITY TO BACTERIAL AND VIRAL INFECTION AS WELL AS IMPAIRED WOUND HEALING. EVIDENCE SUGGESTS THAT THESE DEFECTS ARE MEDIATED BY A DYSREGULATED INFLAMMATORY RESPONSE ORIGINATING FROM MYELOID CELLS, NOTABLY MONOCYTES AND MACROPHAGES, BUT THE MECHANISMS REMAIN POORLY UNDERSTOOD. OUR ABILITY TO STUDY CHD IS IMPACTED BY THE COMPLEXITIES OF HUMAN DRINKING PATTERNS AND BEHAVIOR AS WELL AS COMORBIDITIES AND CONFOUNDING RISK FACTORS FOR PATIENTS WITH ALCOHOL USE DISORDERS. TO OVERCOME THESE CHALLENGES, WE UTILIZED A TRANSLATIONAL RHESUS MACAQUE MODEL OF VOLUNTARY ETHANOL SELF-ADMINISTRATION THAT CLOSELY RECAPITULATES HUMAN DRINKING PATTERNS AND CHRONICITY. IN THIS STUDY, WE EXAMINED THE EFFECTS OF CHD ON BLOOD MONOCYTES IN CONTROL AND CHD FEMALE MACAQUES AFTER 12 MONTHS OF DAILY ETHANOL CONSUMPTION. WHILE MONOCYTES FROM CHD FEMALE MACAQUES GENERATED A HYPER-INFLAMMATORY RESPONSE TO EX VIVO LPS STIMULATION, THEIR RESPONSE TO E. COLI WAS DAMPENED. IN DEPTH SCRNA-SEQ ANALYSIS OF PURIFIED MONOCYTES REVEALED SIGNIFICANT SHIFTS IN CLASSICAL MONOCYTE SUBSETS WITH ACCUMULATION OF CELLS EXPRESSING MARKERS OF HYPOXIA (HIF1A) AND INFLAMMATION (NFKB SIGNALING PATHWAY) IN CHD MACAQUES. THE INCREASED PRESENCE OF MONOCYTE SUBSETS SKEWED TOWARDS INFLAMMATORY PHENOTYPES WAS COMPLEMENTED BY EPIGENETIC ANALYSIS, WHICH REVEALED HIGHER ACCESSIBILITY OF PROMOTER REGIONS THAT REGULATE GENES INVOLVED IN CYTOKINE SIGNALING PATHWAYS. COLLECTIVELY, DATA PRESENTED IN THIS MANUSCRIPT DEMONSTRATE THAT CHD SHIFTS CLASSICAL MONOCYTE SUBSET COMPOSITION AND PRIMES THE MONOCYTES TOWARDS A MORE HYPER-INFLAMMATORY RESPONSE TO LPS, BUT COMPROMISED PATHOGEN RESPONSE. 2021 13 502 23 ASSOCIATION OF ARSENIC EXPOSURE WITH WHOLE BLOOD DNA METHYLATION: AN EPIGENOME-WIDE STUDY OF BANGLADESHI ADULTS. BACKGROUND: ARSENIC EXPOSURE AFFECTS [FORMULA: SEE TEXT] PEOPLE WORLDWIDE, INCLUDING [FORMULA: SEE TEXT] IN BANGLADESH. ARSENIC EXPOSURE INCREASES THE RISK OF CANCER AND OTHER CHRONIC DISEASES, AND ONE POTENTIAL MECHANISM OF ARSENIC TOXICITY IS EPIGENETIC DYSREGULATION. OBJECTIVE: WE ASSESSED ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND GENOME-WIDE DNA METHYLATION MEASURED AT BASELINE AMONG 396 BANGLADESHI ADULTS PARTICIPATING IN THE HEALTH EFFECTS OF ARSENIC LONGITUDINAL STUDY (HEALS) WHO WERE EXPOSED BY DRINKING NATURALLY CONTAMINATED WELL WATER. METHODS: METHYLATION IN WHOLE BLOOD DNA WAS MEASURED AT [FORMULA: SEE TEXT] USING THE ILLUMINA INFINIUMMETHYLATIONEPIC (EPIC) ARRAY. TO ASSESS ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND CPG METHYLATION, WE USED LINEAR REGRESSION MODELS ADJUSTED FOR COVARIATES AND SURROGATE VARIABLES (SVS) (CAPTURING UNKNOWN TECHNICAL AND BIOLOGIC FACTORS). WE ATTEMPTED REPLICATION AND CONDUCTED A META-ANALYSIS USING AN INDEPENDENT DATASET OF [FORMULA: SEE TEXT] FROM 400 BANGLADESHI INDIVIDUALS WITH ARSENICAL SKIN LESIONS. RESULTS: WE IDENTIFIED 34 CPGS ASSOCIATED WITH [FORMULA: SEE TEXT] CREATININE-ADJUSTED URINARY ARSENIC [[FORMULA: SEE TEXT]]. SIXTEEN OF THESE CPGS ANNOTATED TO THE [FORMULA: SEE TEXT] ARRAY, AND 10 ASSOCIATIONS WERE REPLICATED ([FORMULA: SEE TEXT]). THE TOP TWO CPGS ANNOTATED UPSTREAM OF THE ABR GENE (CG01912040, CG10003262 ). ALL URINARY ARSENIC-ASSOCIATED CPGS WERE ALSO ASSOCIATED WITH ARSENIC CONCENTRATION MEASURED IN DRINKING WATER ([FORMULA: SEE TEXT]). META-ANALYSIS ([FORMULA: SEE TEXT] SAMPLES) IDENTIFIED 221 URINARY ARSENIC-ASSOCIATED CPGS ([FORMULA: SEE TEXT]). THE ARSENIC-ASSOCIATED CPGS FROM THE META-ANALYSIS WERE ENRICHED IN NON-CPG ISLANDS AND SHORES ([FORMULA: SEE TEXT]) AND DEPLETED IN PROMOTER REGIONS ([FORMULA: SEE TEXT]). AMONG THE ARSENIC-ASSOCIATED CPGS ([FORMULA: SEE TEXT]), WE OBSERVED SIGNIFICANT ENRICHMENT OF GENES ANNOTATING TO THE REACTIVE OXYGEN SPECIES PATHWAY, INFLAMMATORY RESPONSE, AND TUMOR NECROSIS FACTOR [FORMULA: SEE TEXT] ([FORMULA: SEE TEXT]) SIGNALING VIA NUCLEAR FACTOR KAPPA-B ([FORMULA: SEE TEXT]) HALLMARKS ([FORMULA: SEE TEXT]). CONCLUSIONS: THE NOVEL AND REPLICABLE ASSOCIATIONS BETWEEN ARSENIC EXPOSURE AND DNA METHYLATION AT SPECIFIC CPGS OBSERVED IN THIS WORK SUGGEST THAT EPIGENETIC ALTERATIONS SHOULD BE FURTHER INVESTIGATED AS POTENTIAL MEDIATORS IN ARSENIC TOXICITY AND AS BIOMARKERS OF EXPOSURE AND EFFECT IN EXPOSED POPULATIONS. HTTPS://DOI.ORG/10.1289/EHP3849. 2019 14 1140 20 CONCENTRATION OF FOLIC ACID (FA) IN SERUM OF JAPANESE PREGNANT WOMEN. OBJECTIVES EXPOSURE TO INORGANIC ARSENIC (IAS) IS A WORLD-WIDE HEALTH CONCERN. WE REPORTED THAT JAPANESE CHILDREN AND PREGNANT WOMEN ARE EXPOSED TO MODERATE LEVELS OF IAS THROUGH FOOD. REDUCING IAS CONTAMINATION FROM FOODS OF HIGH IAS IS AN IMPORTANT ISSUE UNIQUE IN JAPAN. INTEGRATED IAS IS METHYLATED TO LESS TOXIC ORGANIC FORMS, AND S-ADENOSYL-L-METHYONINE (SAM), A COMMON METHYL-DONOR OF DNA AND HISTONES, IS UTILIZED IN THIS PROCESS. CHRONIC CONSUMPTION OF SAM BY IAS METABOLISM DUE TO EXPOSURE TO IAS MIGHT ALTER THE EPIGENETIC MODIFICATION OF GENOME. THE SAM BIOSYNTHESIS PATHWAY IS DEPENDENT ON FOLATE CYCLE, AND IT IS POSSIBLE THAT INGESTION OF SUFFICIENT FOLIC ACID (FA) IS PROTECTIVE TO IAS INDUCED TOXICITY. METHODS IN THE COURSE OF OUR CROSS-SECTIONAL BODY BURDEN ANALYSES OF PB AND IAS IN JAPANESE CHILDREN AND PREGNANT WOMEN, TERMED "PBAS STUDY", FA CONCENTRATION IN SERUM OF 104 PREGNANT WOMEN WAS MEASURED. RESULTS MEAN (+/-SEM) OF SERUM FA CONCENTRATION WAS 15.8 +/- 1.3 (NG/ML). THERE ARE SIGNIFICANT NUMBER OF PEOPLE SHOWING VERY HIGH FA (>30 NG/ ML), AND LARGE FRACTION OF THEM WERE TAKING SUPPLEMENTS DAILY. CONCLUSIONS THESE RESULTS SUGGESTED THAT LEVEL OF FA INGESTION OF JAPANESE PREGNANT WOMEN IS HIGH FOR SUPPORTING NORMAL FETAL DEVELOPMENT. 2020 15 2326 26 EPIGENETIC REGULATION OF HOTAIR IN ADVANCED CHRONIC MYELOID LEUKEMIA. PURPOSE: CHRONIC MYELOID LEUKEMIA (CML) ACCOUNTS FOR ~10% OF LEUKEMIA CASES, AND ITS PROGRESSION INVOLVES EPIGENETIC GENE REGULATION. THIS STUDY INVESTIGATED EPIGENETIC REGULATION OF HOTAIR AND ITS TARGET MICRORNA, MIR-143, IN ADVANCED CML. PATIENTS AND METHODS: WE FIRST ISOLATED BONE MARROW MONONUCLEAR CELLS FROM 70 PATIENTS WITH DIFFERENT PHASES OF CML AND FROM HEALTHY DONORS AS NORMAL CONTROL; WE ALSO CULTURED K562 AND KCL22 CELLS, TREATED WITH DEMETHYLATION DRUG; MTT ASSAY, FLOW CYTOMETRY, QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION (QPCR), METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP), WESTERN BLOT, LUCIFERASE ASSAY, RNA PULL-DOWN ASSAY AND RNA-BINDING PROTEIN IMMUNOPRECIPITATION (RIP) ASSAY WERE PERFORMED. RESULT: AS MEASURED BY QPCR, HOTAIR EXPRESSION IN K562 CELLS, KCL22 CELLS, AND SAMPLES FROM CASES OF ADVANCED-STAGE CML INCREASED WITH LEVELS OF SEVERAL DNA METHYLTRANSFERASES AND HISTONE DEACETYLATES, INCLUDING DNMT1, DNMT3A, HDAC1, EZH2, AND LSD1, AND MIR-143 LEVELS WERE DECREASED AND HOTAIR LEVELS WERE INCREASED. TREATMENT WITH 5-AZACYTIDINE, A DNA METHYLATION INHIBITOR, DECREASED DNMT1, DNMT3A, HDAC1, EZH2, LSD1 MRNA, PROTEIN LEVELS, AND HOTAIR MRNA LEVELS BUT INCREASED MIR-143 LEVELS. HOTAIR KNOCKDOWN AND MIR-143 OVEREXPRESSION BOTH INHIBITED PROLIFERATION AND PROMOTED APOPTOSIS IN KCL22 AND K562 CELLS THROUGH THE PI3K/AKT PATHWAY. RNA PULL-DOWN, MASS SPECTROMETRY, AND RIP ASSAYS SHOWED THAT HOTAIR INTERACTED WITH EZH2 AND LSD1. A DUAL-LUCIFERASE ASSAY DEMONSTRATED THAT HOTAIR INTERACTED WITH MIR-143. CONCLUSION: OUR FINDINGS DEMONSTRATE THE KEY EPIGENETIC INTERACTIONS OF HOTAIR RELATED TO CML PROGRESSION AND SUGGEST HOTAIR AS A POTENTIAL THERAPEUTIC TARGET FOR ADVANCED CML. FURTHERMORE, OUR RESULTS SUPPORT THE USE OF DEMETHYLATION DRUGS AS A CML TREATMENT STRATEGY. 2018 16 169 25 ABNORMALITIES OF AMPK ACTIVATION AND GLUCOSE UPTAKE IN CULTURED SKELETAL MUSCLE CELLS FROM INDIVIDUALS WITH CHRONIC FATIGUE SYNDROME. BACKGROUND: POST EXERTIONAL MUSCLE FATIGUE IS A KEY FEATURE IN CHRONIC FATIGUE SYNDROME (CFS). ABNORMALITIES OF SKELETAL MUSCLE FUNCTION HAVE BEEN IDENTIFIED IN SOME BUT NOT ALL PATIENTS WITH CFS. TO TRY TO LIMIT POTENTIAL CONFOUNDERS THAT MIGHT CONTRIBUTE TO THIS CLINICAL HETEROGENEITY, WE DEVELOPED A NOVEL IN VITRO SYSTEM THAT ALLOWS COMPARISON OF AMP KINASE (AMPK) ACTIVATION AND METABOLIC RESPONSES TO EXERCISE IN CULTURED SKELETAL MUSCLE CELLS FROM CFS PATIENTS AND CONTROL SUBJECTS. METHODS: SKELETAL MUSCLE CELL CULTURES WERE ESTABLISHED FROM 10 SUBJECTS WITH CFS AND 7 AGE-MATCHED CONTROLS, SUBJECTED TO ELECTRICAL PULSE STIMULATION (EPS) FOR UP TO 24H AND EXAMINED FOR CHANGES ASSOCIATED WITH EXERCISE. RESULTS: IN THE BASAL STATE, CFS CULTURES SHOWED INCREASED MYOGENIN EXPRESSION BUT DECREASED IL6 SECRETION DURING DIFFERENTIATION COMPARED WITH CONTROL CULTURES. CONTROL CULTURES SUBJECTED TO 16 H EPS SHOWED A SIGNIFICANT INCREASE IN BOTH AMPK PHOSPHORYLATION AND GLUCOSE UPTAKE COMPARED WITH UNSTIMULATED CELLS. IN CONTRAST, CFS CULTURES SHOWED NO INCREASE IN AMPK PHOSPHORYLATION OR GLUCOSE UPTAKE AFTER 16 H EPS. HOWEVER, GLUCOSE UPTAKE REMAINED RESPONSIVE TO INSULIN IN THE CFS CELLS POINTING TO AN EXERCISE-RELATED DEFECT. IL6 SECRETION IN RESPONSE TO EPS WAS SIGNIFICANTLY REDUCED IN CFS COMPARED WITH CONTROL CULTURES AT ALL TIME POINTS MEASURED. CONCLUSION: EPS IS AN EFFECTIVE MODEL FOR ELICITING MUSCLE CONTRACTION AND THE METABOLIC CHANGES ASSOCIATED WITH EXERCISE IN CULTURED SKELETAL MUSCLE CELLS. WE FOUND FOUR MAIN DIFFERENCES IN CULTURED SKELETAL MUSCLE CELLS FROM SUBJECTS WITH CFS; INCREASED MYOGENIN EXPRESSION IN THE BASAL STATE, IMPAIRED ACTIVATION OF AMPK, IMPAIRED STIMULATION OF GLUCOSE UPTAKE AND DIMINISHED RELEASE OF IL6. THE RETENTION OF THESE DIFFERENCES IN CULTURED MUSCLE CELLS FROM CFS SUBJECTS POINTS TO A GENETIC/EPIGENETIC MECHANISM, AND PROVIDES A SYSTEM TO IDENTIFY NOVEL THERAPEUTIC TARGETS. 2015 17 3064 29 GENOME-WIDE DNA METHYLATION ENCODES CARDIAC TRANSCRIPTIONAL REPROGRAMMING IN HUMAN ISCHEMIC HEART FAILURE. ISCHEMIC CARDIOMYOPATHY (ICM) IS THE CLINICAL ENDPOINT OF CORONARY HEART DISEASE AND A LEADING CAUSE OF HEART FAILURE. DESPITE GROWING DEMANDS TO DEVELOP PERSONALIZED APPROACHES TO TREAT ICM, PROGRESS IS LIMITED BY INADEQUATE KNOWLEDGE OF ITS PATHOGENESIS. SINCE EPIGENETICS HAS BEEN IMPLICATED IN THE DEVELOPMENT OF OTHER CHRONIC DISEASES, THE CURRENT STUDY WAS DESIGNED TO DETERMINE WHETHER TRANSCRIPTIONAL AND/OR EPIGENETIC CHANGES ARE SUFFICIENT TO DISTINGUISH ICM FROM OTHER ETIOLOGIES OF HEART FAILURE. SPECIFICALLY, WE HYPOTHESIZE THAT GENOME-WIDE DNA METHYLATION ENCODES TRANSCRIPTIONAL REPROGRAMMING IN ICM. RNA-SEQUENCING ANALYSIS WAS PERFORMED ON HUMAN ISCHEMIC LEFT VENTRICULAR TISSUE OBTAINED FROM PATIENTS WITH END-STAGE HEART FAILURE, WHICH ENRICHED KNOWN TARGETS OF THE POLYCOMB METHYLTRANSFERASE EZH2 COMPARED TO NON-ISCHEMIC HEARTS. COMBINED RNA SEQUENCING AND GENOME-WIDE DNA METHYLATION ANALYSIS REVEALED A ROBUST GENE EXPRESSION PATTERN CONSISTENT WITH SUPPRESSION OF OXIDATIVE METABOLISM, INDUCED ANAEROBIC GLYCOLYSIS, AND ALTERED CELLULAR REMODELING. LASTLY, KLF15 WAS IDENTIFIED AS A PUTATIVE UPSTREAM REGULATOR OF METABOLIC GENE EXPRESSION THAT WAS ITSELF REGULATED BY EZH2 IN A SET DOMAIN-DEPENDENT MANNER. OUR OBSERVATIONS THEREFORE DEFINE A NOVEL ROLE OF DNA METHYLATION IN THE METABOLIC REPROGRAMMING OF ICM. FURTHERMORE, WE IDENTIFY EZH2 AS AN EPIGENETIC REGULATOR OF KLF15 ALONG WITH DNA HYPERMETHYLATION, AND WE PROPOSE A NOVEL MECHANISM THROUGH WHICH CORONARY HEART DISEASE REPROGRAMS THE EXPRESSION OF BOTH INTERMEDIATE ENZYMES AND UPSTREAM REGULATORS OF CARDIAC METABOLISM SUCH AS KLF15. 2019 18 2940 33 GENETIC AND EPIGENETIC ALTERATIONS IN NORMAL AND SENSITIVE COPD-DISEASED HUMAN BRONCHIAL EPITHELIAL CELLS REPEATEDLY EXPOSED TO AIR POLLUTION-DERIVED PM(2.5). EVEN THOUGH CLINICAL, EPIDEMIOLOGICAL AND TOXICOLOGICAL STUDIES HAVE PROGRESSIVELY PROVIDED A BETTER KNOWLEDGE OF THE UNDERLYING MECHANISMS BY WHICH AIR POLLUTION-DERIVED PARTICULATE MATTER (PM) EXERTS ITS HARMFUL HEALTH EFFECTS, FURTHER IN VITRO STUDIES ON RELEVANT CELL SYSTEMS ARE STILL NEEDED. HENCE, AIMING OF GETTING CLOSER TO THE HUMAN IN VIVO CONDITIONS, PRIMARY HUMAN BRONCHIAL EPITHELIAL CELLS DERIVED FROM NORMAL SUBJECTS (NHBE) OR SENSITIVE CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD)-DISEASED PATIENTS (DHBE) WERE DIFFERENTIATED AT THE AIR-LIQUID INTERFACE. THEREAFTER, THEY WERE REPEATEDLY EXPOSED TO AIR POLLUTION-DERIVED PM(2.5) TO STUDY THE OCCURRENCE OF SOME RELEVANT GENETIC AND/OR EPIGENETIC ENDPOINTS. CONCENTRATION-, EXPOSURE- AND SEASON-DEPENDENT INCREASES OF OH-B[A]P METABOLITES IN NHBE, AND TO A LESSER EXTENT, COPD-DHBE CELLS WERE REPORTED; HOWEVER, THERE WERE MORE TETRA-OH-B[A]P AND 8-OHDG DNA ADDUCTS IN COPD-DHBE CELLS. NO INCREASE IN PRIMARY DNA STRAND BREAK NOR CHROMOSOMAL ABERRATION WAS OBSERVED IN REPEATEDLY EXPOSED CELLS. TELOMERE LENGTH AND TELOMERASE ACTIVITY WERE MODIFIED IN A CONCENTRATION- AND EXPOSURE-DEPENDENT MANNER IN NHBE AND PARTICULARLY COPD-DHBE CELLS. THERE WERE A GLOBAL DNA HYPOMETHYLATION, A P16 GENE PROMOTER HYPERMETHYLATION, AND A DECREASING DNA METHYLTRANSFERASE ACTIVITY IN NHBE AND NOTABLY COPD-DHBE CELLS REPEATEDLY EXPOSED. CHANGES IN SITE-SPECIFIC METHYLATION, ACETYLATION, AND PHOSPHORYLATION OF HISTONE H3 (I.E., H3K4ME3, H3K9AC, H3K27AC, AND H3S10PH) AND RELATED ENZYME ACTIVITIES OCCURRED IN A CONCENTRATION- AND EXPOSURE-DEPENDENT MANNER IN ALL THE REPEATEDLY EXPOSED CELLS. COLLECTIVELY, THESE RESULTS HIGHLIGHTED THE KEY ROLE PLAYED BY GENETIC AND EVEN EPIGENETIC EVENTS IN NHBE AND PARTICULARLY SENSITIVE COPD-DHBE CELLS REPEATEDLY EXPOSED TO AIR POLLUTION-DERIVED PM(2.5) AND THEIR DIFFERENT RESPONSIVENESS. WHILE THESE SPECIFIC EPIGENETIC CHANGES HAVE BEEN ALREADY DESCRIBED IN COPD AND EVEN LUNG CANCER PHENOTYPES, OUR FINDINGS SUPPORTED THAT, TOGETHER WITH GENETIC EVENTS, THESE EPIGENETIC EVENTS COULD DRAMATICALLY CONTRIBUTE TO THE SHIFT FROM HEALTHY TO DISEASED PHENOTYPES FOLLOWING REPEATED EXPOSURE TO RELATIVELY LOW DOSES OF AIR POLLUTION-DERIVED PM(2.5). 2017 19 775 27 CELL TYPE-SPECIFIC WHOLE-GENOME LANDSCAPE OF DELTAFOSB BINDING IN THE NUCLEUS ACCUMBENS AFTER CHRONIC COCAINE EXPOSURE. BACKGROUND: THE ABILITY OF NEURONS TO RESPOND TO EXTERNAL STIMULI INVOLVES ADAPTATIONS OF GENE EXPRESSION. INDUCTION OF THE TRANSCRIPTION FACTOR DELTAFOSB IN THE NUCLEUS ACCUMBENS, A KEY BRAIN REWARD REGION, IS IMPORTANT FOR THE DEVELOPMENT OF DRUG ADDICTION. HOWEVER, A COMPREHENSIVE MAP OF DELTAFOSB'S GENE TARGETS HAS NOT YET BEEN GENERATED. METHODS: WE USED CUT&RUN (CLEAVAGE UNDER TARGETS AND RELEASE USING NUCLEASE) TO MAP THE GENOME-WIDE CHANGES IN DELTAFOSB BINDING IN THE 2 MAIN TYPES OF NUCLEUS ACCUMBENS NEURONS-D1 OR D2 MEDIUM SPINY NEURONS-AFTER CHRONIC COCAINE EXPOSURE. TO ANNOTATE GENOMIC REGIONS OF DELTAFOSB BINDING SITES, WE ALSO EXAMINED THE DISTRIBUTIONS OF SEVERAL HISTONE MODIFICATIONS. RESULTING DATASETS WERE LEVERAGED FOR MULTIPLE BIOINFORMATIC ANALYSES. RESULTS: THE MAJORITY OF DELTAFOSB PEAKS OCCUR OUTSIDE PROMOTER REGIONS, INCLUDING INTERGENIC REGIONS, AND ARE SURROUNDED BY EPIGENETIC MARKS INDICATIVE OF ACTIVE ENHANCERS. BRG1, THE CORE SUBUNIT OF THE SWI/SNF CHROMATIN REMODELING COMPLEX, OVERLAPS WITH DELTAFOSB PEAKS, A FINDING CONSISTENT WITH EARLIER STUDIES OF DELTAFOSB'S INTERACTING PROTEINS. CHRONIC COCAINE USE INDUCES BROAD CHANGES IN DELTAFOSB BINDING IN BOTH D1 AND D2 NUCLEUS ACCUMBENS MEDIUM SPINY NEURONS OF MALE AND FEMALE MICE. IN ADDITION, IN SILICO ANALYSES PREDICT THAT DELTAFOSB COOPERATIVELY REGULATES GENE EXPRESSION WITH HOMEOBOX AND T-BOX TRANSCRIPTION FACTORS. CONCLUSIONS: THESE NOVEL FINDINGS UNCOVER KEY ELEMENTS OF DELTAFOSB'S MOLECULAR MECHANISMS IN TRANSCRIPTIONAL REGULATION AT BASELINE AND IN RESPONSE TO CHRONIC COCAINE EXPOSURE. FURTHER CHARACTERIZATION OF DELTAFOSB'S COLLABORATIVE TRANSCRIPTIONAL AND CHROMATIN PARTNERS SPECIFICALLY IN D1 AND D2 MEDIUM SPINY NEURONS WILL REVEAL A BROADER PICTURE OF THE FUNCTION OF DELTAFOSB AND THE MOLECULAR BASIS OF DRUG ADDICTION. 2023 20 474 23 ARSENIC BIOTRANSFORMATION AS A CANCER PROMOTING FACTOR BY INDUCING DNA DAMAGE AND DISRUPTION OF REPAIR MECHANISMS. CHRONIC EXPOSURE TO ARSENIC IN DRINKING WATER POSES A MAJOR GLOBAL HEALTH CONCERN. POPULATIONS EXPOSED TO HIGH CONCENTRATIONS OF ARSENIC-CONTAMINATED DRINKING WATER SUFFER SERIOUS HEALTH CONSEQUENCES, INCLUDING ALARMING CANCER INCIDENCE AND DEATH RATES. ARSENIC IS BIOTRANSFORMED THROUGH SEQUENTIAL ADDITION OF METHYL GROUPS, ACQUIRED FROM S-ADENOSYLMETHIONINE (SAM). METABOLISM OF ARSENIC GENERATES A VARIETY OF GENOTOXIC AND CYTOTOXIC SPECIES, DAMAGING DNA DIRECTLY AND INDIRECTLY, THROUGH THE GENERATION OF REACTIVE OXIDATIVE SPECIES AND INDUCTION OF DNA ADDUCTS, STRAND BREAKS AND CROSS LINKS, AND INHIBITION OF THE DNA REPAIR PROCESS ITSELF. SINCE SAM IS THE METHYL GROUP DONOR USED BY DNA METHYLTRANSFERASES TO MAINTAIN NORMAL EPIGENETIC PATTERNS IN ALL HUMAN CELLS, ARSENIC IS ALSO POSTULATED TO AFFECT MAINTENANCE OF NORMAL DNA METHYLATION PATTERNS, CHROMATIN STRUCTURE, AND GENOMIC STABILITY. THE BIOLOGICAL PROCESSES UNDERLYING THE CANCER PROMOTING FACTORS OF ARSENIC METABOLISM, RELATED TO DNA DAMAGE AND REPAIR, WILL BE DISCUSSED HERE. 2011