1 3469 162 HYPOXIA-INDUCIBLE HISTONE LYSINE DEMETHYLASES: IMPACT ON THE AGING PROCESS AND AGE-RELATED DISEASES. HYPOXIA IS AN ENVIRONMENTAL STRESS AT HIGH ALTITUDE AND UNDERGROUND CONDITIONS BUT IT IS ALSO PRESENT IN MANY CHRONIC AGE-RELATED DISEASES, WHERE BLOOD FLOW INTO TISSUES IS IMPAIRED. THE OXYGEN-SENSING SYSTEM STIMULATES GENE EXPRESSION PROTECTING TISSUES AGAINST HYPOXIC INSULTS. HYPOXIA STABILIZES THE EXPRESSION OF HYPOXIA-INDUCIBLE TRANSCRIPTION FACTOR-1ALPHA (HIF-1ALPHA), WHICH CONTROLS THE EXPRESSION OF HUNDREDS OF SURVIVAL GENES RELATED TO E.G. ENHANCED ENERGY METABOLISM AND AUTOPHAGY. MOREOVER, MANY STRESS-RELATED SIGNALING MECHANISMS, SUCH AS OXIDATIVE STRESS AND ENERGY METABOLIC DISTURBANCES, AS WELL AS THE SIGNALING CASCADES VIA CERAMIDE, MTOR, NF-KAPPAB, AND TGF-BETA PATHWAYS, CAN ALSO INDUCE THE EXPRESSION OF HIF-1ALPHA PROTEIN TO FACILITATE CELL SURVIVAL IN NORMOXIA. HYPOXIA IS LINKED TO PROMINENT EPIGENETIC CHANGES IN CHROMATIN LANDSCAPE. SCREENING STUDIES HAVE INDICATED THAT THE STABILIZATION OF HIF-1ALPHA INCREASES THE EXPRESSION OF DISTINCT HISTONE LYSINE DEMETHYLASES (KDM). HIF-1ALPHA STIMULATES THE EXPRESSION OF KDM3A, KDM4B, KDM4C, AND KDM6B, WHICH ENHANCE GENE TRANSCRIPTION BY DEMETHYLATING H3K9 AND H3K27 SITES (REPRESSIVE EPIGENETIC MARKS). IN ADDITION, HIF-1ALPHA INDUCES THE EXPRESSION OF KDM2B AND KDM5B, WHICH REPRESS TRANSCRIPTION BY DEMETHYLATING H3K4ME2,3 SITES (ACTIVATING MARKS). HYPOXIA-INDUCIBLE KDMS SUPPORT LOCALLY THE GENE TRANSCRIPTION INDUCED BY HIF-1ALPHA, ALTHOUGH THEY CAN ALSO CONTROL GENOME-WIDE CHROMATIN LANDSCAPE, ESPECIALLY KDMS WHICH DEMETHYLATE H3K9 AND H3K27 SITES. THESE EPIGENETIC MARKS HAVE IMPORTANT ROLE IN THE CONTROL OF HETEROCHROMATIN SEGMENTS AND 3D FOLDING OF CHROMOSOMES, AS WELL AS THE GENETIC LOCI REGULATING CELL TYPE COMMITMENT, PROLIFERATION, AND CELLULAR SENESCENCE, E.G. THE INK4 BOX. A CHRONIC STIMULATION OF HIF-1ALPHA CAN PROVOKE TISSUE FIBROSIS AND CELLULAR SENESCENCE, WHICH BOTH ARE INCREASINGLY PRESENT WITH AGING AND AGE-RELATED DISEASES. WE WILL REVIEW THE REGULATION OF HIF-1ALPHA-DEPENDENT INDUCTION OF KDMS AND CLARIFY THEIR ROLE IN PATHOLOGICAL PROCESSES EMPHASIZING THAT LONG-TERM STRESS-RELATED INSULTS CAN IMPAIR THE MAINTENANCE OF CHROMATIN LANDSCAPE AND PROVOKE CELLULAR SENESCENCE AND TISSUE FIBROSIS ASSOCIATED WITH AGING AND AGE-RELATED DISEASES. 2016 2 2114 33 EPIGENETIC HETEROCHROMATIN MARKERS DISTINGUISH TERMINALLY DIFFERENTIATED LEUKOCYTES FROM INCOMPLETELY DIFFERENTIATED LEUKEMIA CELLS IN HUMAN BLOOD. OBJECTIVE: DURING TERMINAL CELL DIFFERENTIATION, NUCLEAR CHROMATIN BECOMES CONDENSED AND THE REPERTOIRE OF EPIGENTIC HETEROCHROMATIN PROTEINS RESPONSIBLE FOR CHROMATIN CONDENSATION IS DRAMATICALLY CHANGED. IN ORDER TO IDENTIFY THE CHROMATIN REGULATORY FACTORS ASSOCIATED WITH INCOMPLETE CELL DIFFERENTIATION AND IMPAIRED CHROMATIN CONDENSATION IN HEMATOLOGICAL MALIGNANCIES, WE EXAMINED EXPRESSION LEVELS OF MAJOR HETEROCHROMATIN PROTEINS IN NORMAL BLOOD CELLS AND CELLS DERIVED FROM A NUMBER OF CHRONIC AND ACUTE MYELOID LEUKEMIA PATIENTS EXHIBITING DIFFERENT DEGREES OF DIFFERENTIATION. METHODS: WE USED IMMUNOBLOTTING AND IMMUNOFLUORESCENCE TO EXAMINE THE LEVELS AND LOCALIZATION OF EPIGENETIC HETEROCHROMATIN FACTORS IN ISOLATED CELL NUCLEI AND FRACTIONATED PERIPHERAL BLOOD CELLS. RESULTS: WHILE THE MAJOR EPIGENETIC HETEROCHROMATIN FACTOR, HISTONE H3 METHYLATED AT LYSINE 9, IS PRESENT IN ALL CELL TYPES, ITS MAIN COUNTERPARTS, NONHISTONE PROTEINS, HETEROCHROMATIN PROTEINS 1 (HP1) ALPHA, BETA, AND GAMMA, ARE DRAMATICALLY REDUCED IN PERIPHERAL BLOOD LEUKOCYTES OF NORMAL DONORS AND CHRONIC MYELOID LEUKEMIA PATIENTS, BUT ARE SUBSTANTIALLY INCREASED IN THE BLOOD OF ACCELERATED PHASE AND BLAST CRISIS PATIENTS. IN THE TERMINALLY DIFFERENTIATED CELLS, NUCLEAR CHROMATIN ACCUMULATES A NUCLEOCYTOPLASMIC SERPIN, MONOCYTE AND NEUTROPHIL ELASTASE INHIBITOR (MNEI). HP1 AND MNEI LEVELS INVERSELY CORRELATE IN A NUMBER OF NORMAL AND LEUKEMIA MYELOID CELLS AND SHOW STRIKINGLY OPPOSITE COORDINATED CHANGES DURING DIFFERENTIATION OF U937 CELL LINE INDUCED BY RETINOIC ACID. CONCLUSIONS: OUR RESULTS SUGGEST THAT REPRESSION OF HP1 AND ACCUMULATION OF MNEI ARE LINKED TO TERMINAL CELL DIFFERENTIATION AND THAT THEIR LEVELS MAY BE MONITORED IN BLOOD CELL POPULATIONS TO DETECT TRANSITIONS IN CELL DIFFERENTIATION ASSOCIATED WITH LEUKEMIA PROGRESSION AND TREATMENT. 2006 3 3189 33 HBX RELIEVES CHROMATIN-MEDIATED TRANSCRIPTIONAL REPRESSION OF HEPATITIS B VIRAL CCCDNA INVOLVING SETDB1 HISTONE METHYLTRANSFERASE. BACKGROUND & AIMS: MAINTENANCE OF THE COVALENTLY CLOSED CIRCULAR HBV DNA (CCCDNA) THAT SERVES AS A TEMPLATE FOR HBV TRANSCRIPTION IS RESPONSIBLE FOR THE FAILURE OF ANTIVIRAL THERAPIES. WHILE STUDIES IN CHRONIC HEPATITIS PATIENTS HAVE SHOWN THAT HIGH VIREMIA CORRELATES WITH HYPERACETYLATION OF CCCDNA-ASSOCIATED HISTONES, THE MOLECULAR MECHANISMS CONTROLLING CCCDNA STABILITY AND TRANSCRIPTIONAL REGULATION ARE STILL POORLY UNDERSTOOD. THIS STUDY AIMED TO DECIPHER THE ROLE OF CHROMATIN AND CHROMATIN MODIFIER PROTEINS ON HBV TRANSCRIPTION. METHODS: WE ANALYZED THE CHROMATIN STRUCTURE OF ACTIVELY TRANSCRIBED OR SILENCED CCCDNA BY INFECTING PRIMARY HUMAN HEPATOCYTES AND DIFFERENTIATED HEPARG CELLS WITH WILD-TYPE VIRUS OR VIRUS DEFICIENT (HBVX-) FOR THE EXPRESSION OF HEPATITIS B VIRUS X PROTEIN (HBX), THAT IS REQUIRED FOR HBV EXPRESSION. RESULTS: IN THE ABSENCE OF HBX, HBV CCCDNA WAS TRANSCRIPTIONALLY SILENCED WITH THE CONCOMITANT DECREASE OF HISTONE 3 (H3) ACETYLATION AND H3K4ME3, INCREASE OF H3 DI- AND TRI-METHYLATION (H3K9ME) AND THE RECRUITMENT OF HETEROCHROMATIN PROTEIN 1 FACTORS (HP1) THAT CORRELATE WITH CONDENSED CHROMATIN. SETDB1 WAS FOUND TO BE THE MAIN HISTONE METHYLTRANSFERASE RESPONSIBLE FOR THE DEPOSITION OF H3K9ME3 AND HBV REPRESSION. FINALLY, FULL TRANSCRIPTIONAL REACTIVATION OF HBVX- UPON HBX RE-EXPRESSION CORRELATED WITH AN INCREASE OF HISTONE ACETYLATION AND H3K4ME3, AND A CONCOMITANT DECREASE OF HP1 BINDING AND OF H3K9ME3 ON THE CCCDNA. CONCLUSION: UPON HBV INFECTION, CELLULAR MECHANISMS INVOLVING SETDB1-MEDIATED H3K9ME3 AND HP1 INDUCE SILENCING OF HBV CCCDNA TRANSCRIPTION THROUGH MODULATION OF CHROMATIN STRUCTURE. HBX IS ABLE TO RELIEVE THIS REPRESSION AND ALLOW THE ESTABLISHMENT OF ACTIVE CHROMATIN. 2015 4 1906 36 ENHANCER OF ZESTE HOMOLOG 2-CATALYSED H3K27 TRIMETHYLATION PLAYS A KEY ROLE IN ACUTE-ON-CHRONIC LIVER FAILURE VIA TNF-MEDIATED PATHWAY. ACUTE-ON-CHRONIC LIVER FAILURE IS MAINLY DUE TO HOST IMMUNITY SELF-DESTRUCTION. THE HISTONE H3 LYSINE 27 (H3K27) TRIMETHYLATING ENZYME, ENHANCER OF ZESTE HOMOLOG 2 (EZH2) MEDIATES EPIGENETIC SILENCING OF GENE EXPRESSION AND REGULATES IMMUNITY, ALSO INVOLVES PATHOGENESIS OF SEVERAL LIVER DISEASES. THE CURRENT STUDY WAS TO DETERMINE THE ROLE OF METHYLTRANSFERASE EZH2 AND ITS CATALYSED H3K27 TRIMETHYLATION (H3K27ME3) IN LIVER FAILURE, AND TO FURTHER INVESTIGATE THE POTENTIAL TARGET FOR LIVER FAILURE TREATMENT. EZH2 AND ITS CATALYSED H3K27ME3 WERE DETERMINED IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) FROM LIVER FAILURE PATIENTS AND KUPFFER CELLS FROM EXPERIMENTAL MICE. FURTHERMORE, GSK126 (AN INHIBITOR FOR EZH2 TRIMETHYLATION FUNCTION) WAS APPLIED IN LIVER FAILURE MICE IN VIVO, AND LIPOPOLYSACCHARIDE-STIMULATED MONONUCLEAR CELLS IN VITRO. EZH2 AND H3K27ME3 WERE SIGNIFICANTLY UPREGULATED IN HUMAN PBMC FROM LIVER FAILURE PATIENTS OR MURINE KUPFFER CELLS FROM THE LIVER FAILURE ANIMALS, RESPECTIVELY. GSK126 AMELIORATED DISEASE SEVERITY IN LIVER FAILURE MICE, WHICH MAYBE ATTRIBUTE TO DOWN-REGULATE CIRCULATING AND HEPATIC PROINFLAMMATORY CYTOKINES, ESPECIALLY TNF VIA REDUCING H3K27ME3. IN-DEPTH CHROMATIN IMMUNOPRECIPITATION ANALYSIS UNRAVELLED THAT DECREASED ENRICHMENT OF H3K27ME3 ON TNF PROMOTOR, RESULTING IN TNF ELEVATION IN KUPFFER CELLS FROM LIVER FAILURE MICE. NUCLEAR FACTOR KAPPA B (NF-KAPPAB) AND PROTEIN KINASE B (AKT) SIGNALLING PATHWAYS WERE ACTIVATED UPON LIPOPOLYSACCHARIDE STIMULATION, BUT ATTENUATED BY USING GSK126, ACCOMPANIED WITH DECREASED TNF IN VITRO. IN CONCLUSION, EZH2 AND H3K27ME3 CONTRIBUTED TO THE PATHOGENESIS OF LIVER FAILURE VIA TRIGGERING TNF AND OTHER INDISPENSABLE PROINFLAMMATORY CYTOKINES. EZH2 WAS TO MODIFY H3K27ME3 ENRICHMENT, AS WELL AS, ACTIVATION OF THE DOWNSTREAM NF-KAPPAB AND AKT SIGNALLING PATHWAYS. 2018 5 5715 40 SIRT3 RESTRICTS HEPATITIS B VIRUS TRANSCRIPTION AND REPLICATION THROUGH EPIGENETIC REGULATION OF COVALENTLY CLOSED CIRCULAR DNA INVOLVING SUPPRESSOR OF VARIEGATION 3-9 HOMOLOG 1 AND SET DOMAIN CONTAINING 1A HISTONE METHYLTRANSFERASES. HEPATITIS B VIRUS (HBV) INFECTION REMAINS A MAJOR HEALTH PROBLEM WORLDWIDE. MAINTENANCE OF THE COVALENTLY CLOSED CIRCULAR DNA (CCCDNA), WHICH SERVES AS A TEMPLATE FOR HBV RNA TRANSCRIPTION, IS RESPONSIBLE FOR THE FAILURE OF ERADICATING CHRONIC HBV DURING CURRENT ANTIVIRAL THERAPY. CCCDNA IS ASSEMBLED WITH CELLULAR HISTONE PROTEINS INTO CHROMATIN, BUT LITTLE IS KNOWN ABOUT THE REGULATION OF HBV CHROMATIN BY HISTONE POSTTRANSLATIONAL MODIFICATIONS. IN THIS STUDY, WE IDENTIFIED SILENT MATING TYPE INFORMATION REGULATION 2 HOMOLOG 3 (SIRT3) AS A HOST FACTOR RESTRICTING HBV TRANSCRIPTION AND REPLICATION BY SCREENING SEVEN MEMBERS OF THE SIRTUIN FAMILY, WHICH IS THE CLASS III HISTONE DEACETYLASE. ECTOPIC SIRT3 EXPRESSION SIGNIFICANTLY REDUCED TOTAL HBV RNAS, 3.5-KB RNA, AS WELL AS REPLICATIVE INTERMEDIATE DNA IN HBV-INFECTED HEPG2-NA(+) /TAUROCHOLATE COTRANSPORTING POLYPEPTIDE CELLS AND PRIMARY HUMAN HEPATOCYTES. IN CONTRAST, GENE SILENCING OF SIRT3 PROMOTED HBV TRANSCRIPTION AND REPLICATION. A MECHANISTIC STUDY FOUND THAT NUCLEAR SIRT3 WAS RECRUITED TO THE HBV CCCDNA, WHERE IT DEACETYLATED HISTONE 3 LYSINE 9. IMPORTANTLY, OCCUPANCY OF SIRT3 ON CCCDNA COULD INCREASE THE RECRUITMENT OF HISTONE METHYLTRANSFERASE SUPPRESSOR OF VARIEGATION 3-9 HOMOLOG 1 TO CCCDNA AND DECREASE RECRUITMENT OF SET DOMAIN CONTAINING 1A, LEADING TO A MARKED INCREASE OF TRIMETHYL-HISTONE H3 (LYS9) AND A DECREASE OF TRIMETHYL-HISTONE H3 (LYS4) ON CCCDNA. MOREOVER, SIRT3-MEDIATED HBV CCCDNA TRANSCRIPTIONAL REPRESSION INVOLVED DECREASED BINDING OF HOST RNA POLYMERASE II AND TRANSCRIPTION FACTOR YIN YANG 1 TO CCCDNA. FINALLY, HEPATITIS B VIRAL X PROTEIN COULD RELIEVE SIRT3-MEDIATED CCCDNA TRANSCRIPTIONAL REPRESSION BY INHIBITING BOTH SIRT3 EXPRESSION AND ITS RECRUITMENT TO CCCDNA. CONCLUSION: SIRT3 IS A HOST FACTOR EPIGENETICALLY RESTRICTING HBV CCCDNA TRANSCRIPTION BY ACTING COOPERATIVELY WITH HISTONE METHYLTRANSFERASE; THESE DATA PROVIDE A RATIONALE FOR THE USE OF SIRT3 ACTIVATORS IN THE PREVENTION OR TREATMENT OF HBV INFECTION. (HEPATOLOGY 2018). 2018 6 1442 34 DIFFERENTIAL RESPONSE OF HUMAN HEPATOCYTE CHROMATIN TO HDAC INHIBITORS AS A FUNCTION OF MICROENVIRONMENTAL GLUCOSE LEVEL. DIABETES IS A COMPLEX MULTIFACTORIAL DISORDER CHARACTERIZED BY CHRONIC HYPERGLYCEMIA DUE TO IMPAIRED INSULIN SECRETION. RECENT OBSERVATIONS SUGGEST THAT THE COMPLEXITY OF THE DISEASE CANNOT BE ENTIRELY ACCOUNTED FOR GENETIC PREDISPOSITION AND A COMPELLING ARGUMENT FOR AN EPIGENETIC COMPONENT IS RAPIDLY EMERGING. THE USE OF HISTONE DEACETYLASE INHIBITOR (HDACI) IN CLINICAL SETTING IS AN EMERGING AREA OF INVESTIGATION. IN THIS STUDY, WE HAVE AIMED TO UNDERSTAND AND COMPARE THE RESPONSE OF HEPATOCYTE CHROMATIN TO VALPROIC ACID (VPA) AND TRICHOSTATIN A (TSA) TREATMENTS UNDER NORMOGLYCEMIC OR HYPERGLYCEMIC CONDITIONS TO EXPAND OUR KNOWLEDGE ABOUT THE CONSEQUENCES OF HDACI TREATMENT IN A DIABETES CELL MODEL. UNDER NORMOGLYCEMIC CONDITIONS, THESE TREATMENTS PROMOTED CHROMATIN REMODELING, AS ASSESSED BY IMAGE ANALYSIS AND H3K9AC AND H3K9ME2 ABUNDANCE. SIMULTANEOUSLY, H3K9AC MARKS SHIFTED TO THE NUCLEAR PERIPHERY ACCOMPANIED BY HP1 DISSOCIATION FROM THE HETEROCHROMATIN AND A G1 CELL CYCLE ARREST. MORE STRIKING CHANGES IN THE CELL CYCLE PROGRESSION AND MITOTIC RATIOS REQUIRED DRASTIC TREATMENT. UNDER HYPERGLYCEMIC CONDITIONS, HIGH GLUCOSE PER SE PROMOTED CHROMATIN CHANGES SIMILAR TO THOSE PROMOTED BY VPA AND TSA. NONETHELESS, THESE RESULTS WERE NOT INTENSIFIED IN CELLS TREATED WITH HDACIS UNDER HYPERGLYCEMIC CONDITIONS. DESPITE THE ABSENCE OF MORPHOLOGICAL CHANGES BEING PROMOTED, HDACI TREATMENT SEEMS TO CONFER A PHYSIOLOGICAL MEANING, AMELIORATING THE CELLULAR HYPERGLYCEMIC STATE THROUGH REDUCTION OF GLUCOSE PRODUCTION. THESE OBSERVATIONS ALLOW US TO CONCLUDE THAT THE GLUCOSE LEVEL TO WHICH THE HEPATOCYTES ARE SUBJECTED AFFECTS HOW CHROMATIN RESPONDS TO HDACI AND THEIR ACTION UNDER HIGH-GLUCOSE ENVIRONMENT MIGHT NOT REFLECT ON CHROMATIN REMODELING. J. CELL. PHYSIOL. 231: 2257-2265, 2016. (C) 2016 WILEY PERIODICALS, INC. 2016 7 3781 26 INTERFERON SIGNATURE IN PATIENTS WITH STAT1 GAIN-OF-FUNCTION MUTATION IS EPIGENETICALLY DETERMINED. STAT1 GAIN-OF-FUNCTION (GOF) VARIANTS LEAD TO DEFECTIVE TH17 CELL DEVELOPMENT AND CHRONIC MUCOCUTANEOUS CANDIDIASIS (CMC), BUT FREQUENTLY ALSO TO AUTOIMMUNITY. STIMULATION OF CELLS WITH STAT1 INDUCING CYTOKINES LIKE INTERFERONS (IFN) RESULT IN HYPERPHOSPHORYLATION AND DELAYED DEPHOSPHORYLATION OF GOF STAT1. HOWEVER, THE MECHANISM HOW THE DELAYED DEPHOSPHORYLATION EXACTLY CAUSES THE INCREASED EXPRESSION OF STAT1-DEPENDENT GENES, AND HOW THE INTRACELLULAR SIGNAL TRANSDUCTION FROM CYTOKINE RECEPTORS IS AFFECTED, REMAINS UNKNOWN. IN THIS STUDY WE SHOW THAT THE CIRCULATING LEVELS OF IFN-ALPHA WERE NOT PERSISTENTLY ELEVATED IN STAT1 GOF PATIENTS. NEVERTHELESS, THE EXPRESSION OF INTERFERON SIGNATURE GENES WAS EVIDENT EVEN IN THE PATIENT WITH LOW OR UNDETECTABLE SERUM IFN-ALPHA LEVELS. CHROMATIN IMMUNOPRECIPITATION (CHIP) EXPERIMENTS REVEALED THAT THE ACTIVE CHROMATIN MARK TRIMETHYLATION OF LYSINE 4 OF HISTONE 3 (H3K4ME3), WAS SIGNIFICANTLY ENRICHED IN AREAS ASSOCIATED WITH INTERFERON-STIMULATED GENES IN STAT1 GOF CELLS IN COMPARISON TO CELLS FROM HEALTHY DONORS. THIS SUGGESTS THAT THE CHROMATIN BINDING OF GOF STAT1 VARIANT PROMOTES EPIGENETIC CHANGES COMPATIBLE WITH HIGHER GENE EXPRESSION AND ELEVATED REACTIVITY TO TYPE I INTERFERONS, AND POSSIBLY PREDISPOSES FOR INTERFERON-RELATED AUTOIMMUNITY. THE RESULTS ALSO SUGGEST THAT EPIGENETIC REWIRING MAY BE RESPONSIBLE FOR TREATMENT FAILURE OF JANUS KINASE 1/2 (JAK1/2) INHIBITORS IN CERTAIN PATIENTS. 2019 8 329 24 ALPHA-OXOGLUTARATE INHIBITS THE PROLIFERATION OF IMMORTALIZED NORMAL BLADDER EPITHELIAL CELLS VIA AN EPIGENETIC SWITCH INVOLVING ARID1A. INTERSTITIAL CYSTITIS (IC) IS A CHRONIC URINARY TRACT DISEASE THAT IS CHARACTERIZED BY UNPLEASANT SENSATIONS, SUCH AS PERSISTENT PELVIC PAIN, IN THE ABSENCE OF INFECTION OR OTHER IDENTIFIABLE CAUSES. WE PREVIOUSLY PERFORMED COMPREHENSIVE METABOLOMICS PROFILING OF URINE SAMPLES FROM IC PATIENTS USING NUCLEAR MAGNETIC RESONANCE AND GAS-CHROMATOGRAPHY/MASS SPECTROMETRY AND FOUND THAT URINARY ALPHA-OXOGLUTARATE (ALPHA-OG), WAS SIGNIFICANTLY ELEVATED. ALPHA-OG, A TRICARBOXYLIC ACID (TCA) CYCLE INTERMEDIATE, REPORTEDLY FUNCTIONS TO SUPPRESS THE PROLIFERATION OF IMMORTALIZED NORMAL HUMAN BLADDER EPITHELIAL CELLS. HERE, WE IDENTIFIED AT-RICH INTERACTIVE DOMAIN 1 A (ARID1A), A KEY CHROMATIN REMODELER, AS BEING HYPOMETHYLATED AND UPREGULATED BY ALPHA-OG TREATMENT. THIS WAS DONE THROUGH EPIC DNA METHYLATION PROFILING AND SUBSEQUENT BIOCHEMICAL APPROACHES, INCLUDING QUANTITATIVE RT-PCR AND WESTERN BLOT ANALYSES. FURTHERMORE, WE FOUND THAT ALPHA-OG ALMOST COMPLETELY SUPPRESSES TEN-ELEVEN TRANSLOCATION (TET) ACTIVITY, BUT DOES NOT AFFECT DNA METHYLTRANSFERASE (DNMT) ACTIVITY. ALTOGETHER, OUR STUDIES REVEAL THE POTENTIAL ROLE OF ALPHA-OG IN EPIGENETIC REMODELING THROUGH ITS EFFECTS ON ARID1A AND TET EXPRESSION IN THE BLADDER. THIS MAY PROVIDE A NEW POSSIBLE THERAPEUTIC STRATEGY IN TREATING IC. 2018 9 3357 33 HISTONE H3 LYSINE 9 DI-METHYLATION AS AN EPIGENETIC SIGNATURE OF THE INTERFERON RESPONSE. EFFECTIVE ANTIVIRAL IMMUNITY DEPENDS ON THE ABILITY OF INFECTED CELLS OR CELLS TRIGGERED WITH VIRUS-DERIVED NUCLEIC ACIDS TO PRODUCE TYPE I INTERFERON (IFN), WHICH ACTIVATES TRANSCRIPTION OF NUMEROUS ANTIVIRAL GENES. HOWEVER, DISPROPORTIONATELY STRONG OR CHRONIC IFN EXPRESSION IS A COMMON CAUSE OF INFLAMMATORY AND AUTOIMMUNE DISEASES. WE DESCRIBE AN EPIGENETIC MECHANISM THAT DETERMINES CELL TYPE-SPECIFIC DIFFERENCES IN IFN AND IFN-STIMULATED GENE (ISG) EXPRESSION IN RESPONSE TO EXOGENOUS SIGNALS. WE IDENTIFY DI-METHYLATION OF HISTONE H3 AT LYSINE 9 (H3K9ME2) AS A SUPPRESSOR OF IFN AND IFN-INDUCIBLE ANTIVIRAL GENE EXPRESSION. WE SHOW THAT LEVELS OF H3K9ME2 AT IFN AND ISG CORRELATE INVERSELY WITH THE SCOPE AND AMPLITUDE OF IFN AND ISG EXPRESSION IN FIBROBLASTS AND DENDRITIC CELLS. ACCORDINGLY, GENETIC ABLATION OR PHARMACOLOGICAL INACTIVATION OF LYSINE METHYLTRANSFERASE G9A, WHICH IS ESSENTIAL FOR THE GENERATION OF H3K9ME2, RESULTED IN PHENOTYPIC CONVERSION OF FIBROBLASTS INTO HIGHLY POTENT IFN-PRODUCING CELLS AND RENDERED THESE CELLS RESISTANT TO PATHOGENIC RNA VIRUSES. IN SUMMARY, OUR STUDIES IMPLICATE H3K9ME2 AND ENZYMES CONTROLLING ITS ABUNDANCE AS KEY REGULATORS OF INNATE ANTIVIRAL IMMUNITY. 2012 10 1158 39 CONTEXT-DEPENDENT EPIGENETIC REGULATION OF NUCLEAR FACTOR OF ACTIVATED T CELLS 1 IN PANCREATIC PLASTICITY. BACKGROUND & AIMS: THE ABILITY OF EXOCRINE PANCREATIC CELLS TO CHANGE THE CELLULAR PHENOTYPE IS REQUIRED FOR TISSUE REGENERATION UPON INJURY, BUT ALSO CONTRIBUTES TO THEIR MALIGNANT TRANSFORMATION AND TUMOR PROGRESSION. WE INVESTIGATED CONTEXT-DEPENDENT SIGNALING AND TRANSCRIPTION MECHANISMS THAT DETERMINE PANCREATIC CELL FATE DECISIONS TOWARD REGENERATION AND MALIGNANCY. IN PARTICULAR, WE STUDIED THE FUNCTION AND REGULATION OF THE INFLAMMATORY TRANSCRIPTION FACTOR NUCLEAR FACTOR OF ACTIVATED T CELLS 1 (NFATC1) IN PANCREATIC CELL PLASTICITY AND TISSUE ADAPTATION. METHODS: WE ANALYZED CELL PLASTICITY DURING PANCREATIC REGENERATION AND TRANSFORMATION IN MICE WITH PANCREAS-SPECIFIC EXPRESSION OF A CONSTITUTIVELY ACTIVE FORM OF NFATC1, OR DEPLETION OF ENHANCER OF ZESTE 2 HOMOLOGUE 2 (EZH2), IN THE CONTEXT OF WILD-TYPE OR CONSTITUTIVELY ACTIVATE KRAS, RESPECTIVELY. ACUTE AND CHRONIC PANCREATITIS WERE INDUCED BY INTRAPERITONEAL INJECTION OF CAERULEIN. EZH2-DEPENDENT REGULATION OF NFATC1 EXPRESSION WAS STUDIED IN MOUSE IN HUMAN PANCREATIC TISSUE AND CELLS BY IMMUNOHISTOCHEMISTRY, IMMUNOBLOTTING, AND QUANTITATIVE REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION. WE USED GENETIC AND PHARMACOLOGIC APPROACHES OF EZH2 AND NFATC1 INHIBITION TO STUDY THE CONSEQUENCES OF PATHWAY DISRUPTION ON PANCREATIC MORPHOLOGY AND FUNCTION. EPIGENETIC MODIFICATIONS ON THE NFATC1 GENE WERE INVESTIGATED BY CHROMATIN IMMUNOPRECIPITATION ASSAYS. RESULTS: NFATC1 WAS RAPIDLY AND TRANSIENTLY INDUCED IN EARLY ADAPTATION TO ACINAR CELL INJURY IN HUMAN SAMPLES AND IN MICE, WHERE IT PROMOTED ACINAR CELL TRANSDIFFERENTIATION AND BLOCKED PROLIFERATION OF METAPLASTIC PANCREATIC CELLS. HOWEVER, IN LATE STAGES OF REGENERATION, NFATC1 WAS EPIGENETICALLY SILENCED BY EZH2-DEPENDENT HISTONE METHYLATION, TO ENABLE ACINAR CELL REDIFFERENTIATION AND PREVENT ORGAN ATROPHY AND EXOCRINE INSUFFICIENCY. IN CONTRAST, ONCOGENIC ACTIVATION OF KRAS SIGNALING IN PANCREATIC DUCTAL ADENOCARCINOMA CELLS REVERSED THE EZH2-DEPENDENT EFFECTS ON THE NFATC1 GENE AND WAS REQUIRED FOR EZH2-MEDIATED TRANSCRIPTIONAL ACTIVATION OF NFATC1. CONCLUSIONS: IN STUDIES OF HUMAN AND MOUSE PANCREATIC CELLS AND TISSUE, WE IDENTIFIED CONTEXT-SPECIFIC EPIGENETIC REGULATION OF NFATC1 ACTIVITY AS AN IMPORTANT MECHANISM OF PANCREATIC CELL PLASTICITY. INHIBITORS OF EZH2 MIGHT THEREFORE INTERFERE WITH ONCOGENIC ACTIVITY OF NFATC1 AND BE USED IN TREATMENT OF PANCREATIC DUCTAL ADENOCARCINOMA. 2017 11 4546 32 MUTANT P53 REGULATES ENHANCER-ASSOCIATED H3K4 MONOMETHYLATION THROUGH INTERACTIONS WITH THE METHYLTRANSFERASE MLL4. MONOMETHYLATION OF HISTONE H3 LYSINE 4 (H3K4ME1) IS ENRICHED AT ENHANCERS THAT ARE PRIMED FOR ACTIVATION AND THE LEVELS OF THIS HISTONE MARK ARE FREQUENTLY ALTERED IN VARIOUS HUMAN CANCERS. YET, HOW ALTERATIONS IN H3K4ME1 ARE ESTABLISHED AND THE CONSEQUENCES OF THESE EPIGENETIC CHANGES IN TUMORIGENESIS ARE NOT WELL UNDERSTOOD. USING CHIP-SEQ IN HUMAN COLON CANCER CELLS, WE DEMONSTRATE THAT MUTANT P53 DEPLETION RESULTS IN DECREASED H3K4ME1 LEVELS AT ACTIVE ENHANCERS THAT REVEAL A STRIKING COLOCALIZATION OF MUTANT P53 AND THE H3K4 MONOMETHYLTRANSFERASE MLL4 FOLLOWING CHRONIC TUMOR NECROSIS FACTOR ALPHA (TNFALPHA) SIGNALING. WE FURTHER REVEAL THAT MUTANT P53 FORMS PHYSIOLOGICAL ASSOCIATIONS AND DIRECT INTERACTIONS WITH MLL4 AND PROMOTES THE ENHANCER BINDING OF MLL4, WHICH IS REQUIRED FOR TNFALPHA-INDUCIBLE H3K4ME1 AND HISTONE H3 LYSINE 27 ACETYLATION (H3K27AC) LEVELS, ENHANCER-DERIVED TRANSCRIPT (ERNA) SYNTHESIS, AND MUTANT P53-DEPENDENT TARGET GENE ACTIVATION. COMPLEMENTARY IN VITRO STUDIES WITH RECOMBINANT CHROMATIN AND PURIFIED PROTEINS DEMONSTRATE THAT BINDING OF THE MLL3/4 COMPLEX AND H3K4ME1 DEPOSITION IS ENHANCED BY MUTANT P53 AND P300-MEDIATED ACETYLATION, WHICH IN TURN REFLECTS A MLL3/4-DEPENDENT ENHANCEMENT OF MUTANT P53 AND P300-DEPENDENT TRANSCRIPTIONAL ACTIVATION. COLLECTIVELY, OUR FINDINGS ESTABLISH A MECHANISM IN WHICH MUTANT P53 COOPERATES WITH MLL4 TO REGULATE ABERRANT ENHANCER ACTIVITY AND TUMOR-PROMOTING GENE EXPRESSION IN RESPONSE TO CHRONIC IMMUNE SIGNALING. 2018 12 6622 39 UNDERSTANDING HAT1: A COMPREHENSIVE REVIEW OF NONCANONICAL ROLES AND CONNECTION WITH DISEASE. HISTONE ACETYLATION PLAYS A VITAL ROLE IN ORGANIZING CHROMATIN, REGULATING GENE EXPRESSION AND CONTROLLING THE CELL CYCLE. THE FIRST HISTONE ACETYLTRANSFERASE TO BE IDENTIFIED WAS HISTONE ACETYLTRANSFERASE 1 (HAT1), BUT IT REMAINS ONE OF THE LEAST UNDERSTOOD ACETYLTRANSFERASES. HAT1 CATALYZES THE ACETYLATION OF NEWLY SYNTHESIZED H4 AND, TO A LESSER EXTENT, H2A IN THE CYTOPLASM. HOWEVER, 20 MIN AFTER ASSEMBLY, HISTONES LOSE ACETYLATION MARKS. MOREOVER, NEW NONCANONICAL FUNCTIONS HAVE BEEN DESCRIBED FOR HAT1, REVEALING ITS COMPLEXITY AND COMPLICATING THE UNDERSTANDING OF ITS FUNCTIONS. RECENTLY DISCOVERED ROLES INCLUDE FACILITATING THE TRANSLOCATION OF THE H3H4 DIMER INTO THE NUCLEUS, INCREASING THE STABILITY OF THE DNA REPLICATION FORK, REPLICATION-COUPLED CHROMATIN ASSEMBLY, COORDINATION OF HISTONE PRODUCTION, DNA DAMAGE REPAIR, TELOMERIC SILENCING, EPIGENETIC REGULATION OF NUCLEAR LAMINA-ASSOCIATED HETEROCHROMATIN, REGULATION OF THE NF-KAPPAB RESPONSE, SUCCINYL TRANSFERASE ACTIVITY AND MITOCHONDRIAL PROTEIN ACETYLATION. IN ADDITION, THE FUNCTIONS AND EXPRESSION LEVELS OF HAT1 HAVE BEEN LINKED TO MANY DISEASES, SUCH AS MANY TYPES OF CANCER, VIRAL INFECTIONS (HEPATITIS B VIRUS, HUMAN IMMUNODEFICIENCY VIRUS AND VIPERIN SYNTHESIS) AND INFLAMMATORY DISEASES (CHRONIC OBSTRUCTIVE PULMONARY DISEASE, ATHEROSCLEROSIS AND ISCHEMIC STROKE). THE COLLECTIVE DATA REVEAL THAT HAT1 IS A PROMISING THERAPEUTIC TARGET, AND NOVEL THERAPEUTIC APPROACHES, SUCH AS RNA INTERFERENCE AND THE USE OF APTAMERS, BISUBSTRATE INHIBITORS AND SMALL-MOLECULE INHIBITORS, ARE BEING EVALUATED AT THE PRECLINICAL LEVEL. 2023 13 6599 33 TWIST1 AND TWIST2 INDUCE HUMAN MACROPHAGE MEMORY UPON CHRONIC INNATE RECEPTOR TREATMENT BY HDAC-MEDIATED DEACETYLATION OF CYTOKINE PROMOTERS. INTESTINAL TISSUES ARE CONTINUOUSLY EXPOSED TO MICROBIAL PRODUCTS THAT STIMULATE PATTERN-RECOGNITION RECEPTORS (PRRS). ONGOING PRR STIMULATION CAN CONFER EPIGENETIC CHANGES IN MACROPHAGES, WHICH CAN THEN REGULATE SUBSEQUENT IMMUNE OUTCOMES AND ADAPTATION TO THE LOCAL ENVIRONMENT. MECHANISMS LEADING TO THESE CHANGES ARE INCOMPLETELY UNDERSTOOD. WE FOUND THAT SHORT-TERM STIMULATION OF THE PRR NOD2 IN PRIMARY HUMAN MONOCYTE-DERIVED MACROPHAGES RESULTED IN INCREASED H3 AND H4 ACETYLATION OF CYTOKINE PROMOTERS, CONSISTENT WITH THE INCREASED CYTOKINE SECRETION OBSERVED. HOWEVER, WITH PROLONGED NOD2 STIMULATION, BOTH THE ACETYLATION AND CYTOKINE SECRETION WERE DRAMATICALLY DECREASED. CHRONIC NOD2 STIMULATION UPREGULATED THE TRANSCRIPTION FACTORS TWIST1 AND TWIST2, WHICH BOUND TO THE PROMOTERS OF THE HISTONE DEACETYLASES HDAC1 AND HDAC3 AND INDUCED HDAC1 AND HDAC3 EXPRESSION. HDAC1 AND HDAC3 THEN MEDIATED HISTONE DEACETYLATION AT CYTOKINE PROMOTERS AND, IN TURN, CYTOKINE DOWNREGULATION UNDER THESE CONDITIONS. SIMILAR REGULATION WAS OBSERVED UPON CHRONIC STIMULATION OF MULTIPLE PRRS. CONSISTENT WITH THE CHRONIC MICROBIAL EXPOSURE IN THE INTESTINAL ENVIRONMENT, TWIST1, TWIST2, HDAC1, AND HDAC3 WERE UPREGULATED IN HUMAN INTESTINAL RELATIVE TO PERIPHERAL MACROPHAGES. IMPORTANTLY, COMPLEMENTING HDAC1 AND HDAC3 IN TWIST1/TWIST2-DEFICIENT MONOCYTE-DERIVED MACROPHAGES RESTORED THE REDUCED HISTONE ACETYLATION ON CYTOKINE PROMOTERS AND THE DECREASED CYTOKINE SECRETION WITH CHRONIC NOD2 STIMULATION. TAKEN TOGETHER, WE IDENTIFY MECHANISMS WHEREIN TWIST1 AND TWIST2 PROMOTE CHROMATIN MODIFICATIONS, RESULTING IN MACROPHAGE INSTRUCTION AND ADAPTATION TO CONDITIONS IN THE INTESTINAL MICROENVIRONMENT. 2019 14 3289 38 HIF-1ALPHA MEDIATES TUMOR HYPOXIA TO CONFER A PERPETUAL MESENCHYMAL PHENOTYPE FOR MALIGNANT PROGRESSION. ALTHOUGH TUMOR PROGRESSION INVOLVES GENETIC AND EPIGENETIC ALTERATIONS TO NORMAL CELLULAR BIOLOGY, THE UNDERLYING MECHANISMS OF THESE CHANGES REMAIN OBSCURE. NUMEROUS STUDIES HAVE SHOWN THAT HYPOXIA-INDUCIBLE FACTOR 1ALPHA (HIF-1ALPHA) IS OVEREXPRESSED IN MANY HUMAN CANCERS AND UP-REGULATES A HOST OF HYPOXIA-RESPONSIVE GENES FOR CANCER GROWTH AND SURVIVAL. WE RECENTLY IDENTIFIED AN ALTERNATIVE MECHANISM OF HIF-1ALPHA FUNCTION THAT INDUCES GENETIC ALTERATIONS BY SUPPRESSING DNA REPAIR. HERE, WE SHOW THAT LONG-TERM HYPOXIA, WHICH MIMICS THE TUMOR MICROENVIRONMENT, DRIVES A PERPETUAL EPITHELIAL-MESENCHYMAL TRANSITION (EMT) THROUGH UP-REGULATION OF THE ZINC FINGER E-BOX BINDING HOMEOBOX PROTEIN ZEB2, WHEREAS SHORT-TERM HYPOXIA INDUCES A REVERSIBLE EMT THAT REQUIRES THE TRANSCRIPTION FACTOR TWIST1. MOREOVER, WE SHOW THAT THE PERPETUAL EMT DRIVEN BY CHRONIC HYPOXIA DEPENDS ON HIF-1ALPHA INDUCTION OF GENETIC ALTERATIONS RATHER THAN ITS CANONICAL TRANSCRIPTIONAL ACTIVATOR FUNCTION. THESE MESENCHYMAL TUMOR CELLS NOT ONLY ACQUIRE TUMORIGENICITY BUT ALSO DISPLAY CHARACTERISTICS OF ADVANCED CANCERS, INCLUDING NECROSIS, AGGRESSIVE INVASION, AND METASTASIS. HENCE, THESE RESULTS REVEAL A MECHANISM BY WHICH HIF-1ALPHA PROMOTES A PERPETUAL MESENCHYMAL PHENOTYPE, THEREBY ADVANCING TUMOR PROGRESSION. 2011 15 3470 38 HYPOXIA-INDUCIBLE KDM3A ADDICTION IN MULTIPLE MYELOMA. IN MULTIPLE MYELOMA (MM), THE BONE MARROW (BM) MICROENVIRONMENT MAY CONTAIN A MYELOMA CELL FRACTION THAT HAS ACQUIRED TREATMENT RESISTANCE BY UNDERGOING AN EPIGENETIC GENE EXPRESSION CHANGE. HYPOXIC STRESS IS AN IMPORTANT FACTOR IN THE BM MICROENVIRONMENT. RECENTLY, WE DEMONSTRATED THAT MIR-210 WAS UPREGULATED IN HYPOXIA AND DOWNREGULATED IRF4, WHICH IS KNOWN AS AN ESSENTIAL FACTOR IN MYELOMA ONCOGENESIS IN NORMOXIA. IN THE STUDY, WE DEMONSTRATED THAT MYELOMA CELLS STILL SHOWED A STRONG ANTIAPOPTOTIC PHENOTYPE DESPITE IRF4 DOWNREGULATION, SUGGESTING THAT ANOTHER ANTIAPOPTOTIC FACTOR MIGHT BE INVOLVED UNDER HYPOXIC STRESS. TO DETERMINE THE FACTOR OR FACTORS, WE CONDUCTED GENE EXPRESSION ANALYSIS ON MYELOMA CELLS (PRIMARY SAMPLES AND CELL LINES) THAT WERE EXPOSED TO CHRONIC HYPOXIA AND OBSERVED UPREGULATION OF GLYCOLYTIC GENES AND GENES ENCODING H3K9 DEMETHYLASES IN MYELOMA CELLS WITH HYPOXIA. AMONG THESE, KDM3A WAS MOST SIGNIFICANTLY UPREGULATED IN ALL EXAMINED CELLS, AND ITS KNOCKDOWN INDUCED APOPTOSIS OF MYELOMA CELLS IN CHRONIC HYPOXIA. EXPRESSION OF KDM3A WAS DEPENDENT ON HIF-1ALPHA, WHICH IS A TRANSCRIPTION FACTOR SPECIFICALLY UPREGULATED IN HYPOXIA. WE FURTHER DEMONSTRATED THAT AN ESSENTIAL TARGET OF KDM3A WAS A NONCODING GENE, MALAT1, WHOSE UPREGULATION CONTRIBUTED TO ACQUISITION OF AN ANTIAPOPTOTIC PHENOTYPE BY ACCUMULATION OF HIF-1ALPHA, LEADING TO UPREGULATION OF GLYCOLYTIC GENES UNDER HYPOXIA. THIS PROCESS WAS INDEPENDENT FROM IRF4. THESE RESULTS LED US TO CONCLUDE THAT THE HYPOXIA-INDUCIBLE HIF-1ALPHA-KDM3A-MALAT1 AXIS ALSO CONTRIBUTES TO ACQUISITION OF THE ANTIAPOPTOTIC PHENOTYPE VIA UPREGULATION OF GLYCOLYSIS-PROMOTING GENES. THUS, THIS AXIS IS A PROMISING THERAPEUTIC TARGET AGAINST MYELOMA CELLS IN THE BM MICROENVIRONMENT. 2018 16 2067 31 EPIGENETIC CONTROL OF MACROPHAGE SHAPE TRANSITION TOWARDS AN ATYPICAL ELONGATED PHENOTYPE BY HISTONE DEACETYLASE ACTIVITY. INFLAMMATORY CHRONIC PATHOLOGIES ARE COMPLEX PROCESSES CHARACTERIZED BY AN IMBALANCE BETWEEN THE RESOLUTION OF THE INFLAMMATORY PHASE AND THE ESTABLISHMENT OF TISSUE REPAIR. THE MAIN PLAYERS IN THESE INFLAMMATORY PATHOLOGIES ARE BONE MARROW DERIVED MONOCYTES (BMDMS). HOWEVER, HOW MONOCYTE DIFFERENTIATION IS MODULATED TO GIVE RISE TO SPECIFIC MACROPHAGE SUBPOPULATIONS (M1 OR M2) THAT MAY EITHER MAINTAIN THE CHRONIC INFLAMMATORY PROCESS OR LEAD TO WOUND HEALING IS STILL UNCLEAR. CONSIDERING THAT INHIBITORS OF HISTONE DEACETYLASE (HDAC) HAVE AN ANTI-INFLAMMATORY ACTIVITY, WE ASKED WHETHER THIS ENZYME WOULD PLAY A ROLE ON MONOCYTE DIFFERENTIATION INTO M1 OR M2 PHENOTYPE AND IN THE CELL SHAPE TRANSITION THAT FOLLOWS. WE THEN INDUCED MURINE BONE MARROW PROGENITORS INTO MONOCYTE/MACROPHAGE DIFFERENTIATION PATHWAY USING MEDIA CONTAINING GM-CSF AND THE HDAC BLOCKER, TRICHOSTATIN A (TSA). WE FOUND THAT THE PHARMACOLOGICAL INHIBITION OF HDAC ACTIVITY LED TO A SHAPE TRANSITION FROM THE TYPICAL MACROPHAGE PANCAKE-LIKE SHAPE INTO AN ELONGATED MORPHOLOGY, WHICH WAS CORRELATED TO A MIXED M1/M2 PROFILE OF CYTOKINE AND CHEMOKINE SECRETION. OUR RESULTS PRESENT, FOR THE FIRST TIME, THAT HDAC ACTIVITY ACTS AS A REGULATOR OF MACROPHAGE DIFFERENTIATION IN THE ABSENCE OF LYMPHOCYTE STIMULI. WE PROPOSE THAT HDAC ACTIVITY DOWN REGULATES MACROPHAGE PLASTICITY FAVORING THE PRO-INFLAMMATORY PHENOTYPE. 2015 17 4239 28 METHYLATION PROFILE OF HEPATITIS B VIRUS IS NOT INFLUENCED BY INTERFERON ALPHA IN HUMAN LIVER CANCER CELLS. INTERFERON (IFN) ALPHA IS USED FOR THE TREATMENT OF CHRONIC HEPATITIS B VIRUS (HBV) INFECTION, BUT THE MOLECULAR MECHANISMS UNDERLYING ITS ANTIVIRAL EFFECT HAVE NOT BEEN FULLY ELUCIDATED. EPIGENETIC MODIFICATIONS REGULATE THE TRANSCRIPTIONAL ACTIVITY OF COVALENTLY CLOSED CIRCULAR DNA (CCCDNA) IN CELLS WITH CHRONIC HBV INFECTION. IFN?ALPHA HAS BEEN SHOWN TO MODIFY CCCDNA?BOUND HISTONES, BUT IT IS NOT KNOWN WHETHER THE ANTI?HBV EFFECT OF IFN?ALPHA INVOLVES METHYLATION OF CCCDNA. THE PRESENT STUDY AIMED TO DETERMINE WHETHER IFN?ALPHA INDUCED METHYLATION OF HBV CCCDNA IN A CELL?BASED MODEL IN WHICH HEPG2 CELLS WERE DIRECTLY INFECTED WITH WILD?TYPE HBV VIRIONS. METHYLATION STATUS OF HBV CCCDNA WAS ASSESSED USING GLOBAL DNA METHYLATION ELISA ASSAY, METHYLATION?SPECIFIC PCR AND BISULFITE SEQUENCING. IFN?ALPHA SUPPRESSED HBV DNA AND RNA TRANSCRIPTS, BUT METHYLATION PROFILES WERE SIMILAR BETWEEN THE CONTROL AND IFN?ALPHA TREATED GROUPS. CHROMATIN IMMUNOPRECIPITATION RESULTS REVEALED BINDING OF DNA METHYLTRANSFERASES (DNMT) 3A AND DNMT3B TO HBV CCCDNA AND TREATMENT WITH IFN?ALPHA SUPPRESSED THE RECRUITMENT OF DNMT3B TO CCCDNA. TAKEN TOGETHER, THESE RESULTS SUGGEST THAT IFN?ALPHA DOES NOT INDUCE METHYLATION OF HBV CCCDNA. THEREFORE, IT WAS CONCLUDED THAT METHYLATION IS UNLIKELY TO CONTRIBUTE TO THE ANTI?HBV EFFECT OF IFN?ALPHA IN HEPG2 CELLS, AND THAT ALTERNATIVE MECHANISMS NEED TO BE SOUGHT TO ENHANCE CCCDNA METHYLATION AS A NOVEL THERAPY AGAINST HBV. 2021 18 3633 30 INCREASE IN HDAC9 SUPPRESSES MYOBLAST DIFFERENTIATION VIA EPIGENETIC REGULATION OF AUTOPHAGY IN HYPOXIA. EXTREMELY REDUCED OXYGEN (O(2)) LEVELS ARE DETRIMENTAL TO MYOGENIC DIFFERENTIATION AND MULTINUCLEATED MYOTUBE FORMATION, AND CHRONIC EXPOSURE TO HIGH-ALTITUDE HYPOXIA HAS BEEN REPORTED TO BE AN IMPORTANT FACTOR IN SKELETAL MUSCLE ATROPHY. HOWEVER, HOW CHRONIC HYPOXIA CAUSES MUSCLE DYSFUNCTION REMAINS UNKNOWN. IN THE PRESENT STUDY, WE FOUND THAT SEVERE HYPOXIA (1% O(2)) SIGNIFICANTLY INHIBITED THE FUNCTION OF C2C12 CELLS (FROM A MYOBLAST CELL LINE). IMPORTANTLY, THE IMPAIRMENT WAS CONTINUOUSLY MANIFESTED EVEN DURING CULTURE UNDER NORMOXIC CONDITIONS FOR SEVERAL PASSAGES. MECHANISTICALLY, WE REVEALED THAT HISTONE DEACETYLASES 9 (HDAC9), A MEMBER OF THE HISTONE DEACETYLASE FAMILY, WAS SIGNIFICANTLY INCREASED IN C2C12 CELLS UNDER HYPOXIC CONDITIONS, THEREBY INHIBITING INTRACELLULAR AUTOPHAGY LEVELS BY DIRECTLY BINDING TO THE PROMOTER REGIONS OF ATG7, BECLIN1, AND LC3. THIS PHENOMENON RESULTED IN THE SEQUENTIAL DEPHOSPHORYLATION OF GSK3BETA AND INACTIVATION OF THE CANONICAL WNT PATHWAY, IMPAIRING THE FUNCTION OF THE C2C12 CELLS. TAKEN TOGETHER, OUR RESULTS SUGGEST THAT HYPOXIA-INDUCED MYOBLAST DYSFUNCTION IS DUE TO ABERRANT EPIGENETIC REGULATION OF AUTOPHAGY, AND OUR EXPERIMENTAL EVIDENCE REVEALS THE POSSIBLE MOLECULAR PATHOGENESIS RESPONSIBLE FOR SOME MUSCLE DISEASES CAUSED BY CHRONIC HYPOXIA AND SUGGESTS A POTENTIAL THERAPEUTIC OPTION. 2019 19 5592 34 ROLE OF TUMOR NECROSIS FACTOR-ALPHA IN THE HUMAN SYSTEMIC ENDOTOXIN-INDUCED TRANSCRIPTOME. TNFALPHA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF VARIOUS INFLAMMATORY DISEASES. DIFFERENT STRATEGIES TO INHIBIT TNFALPHA IN PATIENTS WITH SEPSIS AND CHRONIC INFLAMMATORY CONDITIONS HAVE SHOWN CONTRASTING OUTCOMES. ALTHOUGH TNFALPHA INHIBITORS ARE WIDELY USED IN CLINICAL PRACTICE, THE IMPACT OF TNFALPHA ANTAGONISM ON WHITE BLOOD CELL GENE EXPRESSION PROFILES DURING ACUTE INFLAMMATION IN HUMANS IN VIVO HAS NOT BEEN ASSESSED. WE HERE LEVERAGED THE ESTABLISHED MODEL OF HUMAN ENDOTOXEMIA TO EXAMINE THE EFFECT OF THE TNFALPHA ANTAGONIST, ETANERCEPT, ON THE GENOME-WIDE TRANSCRIPTIONAL RESPONSES IN CIRCULATING LEUKOCYTES INDUCED BY INTRAVENOUS LPS ADMINISTRATION IN MALE SUBJECTS. ETANERCEPT PRE-TREATMENT RESULTED IN A MARKEDLY DAMPENED TRANSCRIPTIONAL RESPONSE TO LPS. GENE CO-EXPRESSION NETWORK ANALYSIS REVEALED THIS LPS-INDUCED TRANSCRIPTOME CAN BE CATEGORIZED AS TNFALPHA RESPONSIVE AND NON-RESPONSIVE MODULES. HIGHLY SIGNIFICANT TNFALPHA RESPONSIVE MODULES INCLUDE NF-KB SIGNALING, ANTIVIRAL RESPONSES AND T-CELL MEDIATED RESPONSES. WITHIN THESE TNFALPHA RESPONSIVE MODULES WE DELINEATE FUNDAMENTAL GENES INVOLVED IN EPIGENETIC MODIFICATIONS, TRANSCRIPTIONAL INITIATION AND ELONGATION. THUS, WE PROVIDE COMPREHENSIVE INFORMATION ABOUT MOLECULAR PATHWAYS THAT MIGHT BE TARGETED BY THERAPEUTIC INTERVENTIONS THAT SEEK TO INHIBIT TNFALPHA ACTIVITY DURING HUMAN INFLAMMATORY DISEASES. 2013 20 6540 34 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