1 1853 169 ELEVATED METHIONINE FLUX DRIVES PYROPTOSIS EVASION IN PERSISTER CANCER CELLS. INDUCTION OF CELL DEATH REPRESENTS A PRIMARY GOAL OF MOST ANTICANCER TREATMENTS. DESPITE THE EFFICACY OF SUCH APPROACHES, A SMALL POPULATION OF "PERSISTERS" DEVELOP EVASION STRATEGIES TO THERAPY-INDUCED CELL DEATH. WHILE PREVIOUS STUDIES HAVE IDENTIFIED MECHANISMS OF RESISTANCE TO APOPTOSIS, THE MECHANISMS BY WHICH PERSISTERS DAMPEN OTHER FORMS OF CELL DEATH, SUCH AS PYROPTOSIS, REMAIN TO BE ELUCIDATED. PYROPTOSIS IS A FORM OF INFLAMMATORY CELL DEATH THAT INVOLVES FORMATION OF MEMBRANE PORES, ION GRADIENT IMBALANCE, WATER INFLOW, AND MEMBRANE RUPTURE. HEREIN, WE INVESTIGATE MECHANISMS BY WHICH CANCER PERSISTERS RESIST PYROPTOSIS, SURVIVE, THEN PROLIFERATE IN THE PRESENCE OF TYROSINE KINASE INHIBITORS (TKI). LUNG, PROSTATE, AND ESOPHAGEAL CANCER PERSISTER CELLS REMAINING AFTER TREATMENTS EXHIBITED SEVERAL HALLMARKS INDICATIVE OF PYROPTOSIS RESISTANCE. THE INFLAMMATORY ATTRIBUTES OF PERSISTERS INCLUDED CHRONIC ACTIVATION OF INFLAMMASOME, STING, AND TYPE I INTERFERONS. COMPREHENSIVE METABOLOMIC CHARACTERIZATION UNCOVERED THAT TKI-INDUCED PYROPTOTIC PERSISTERS DISPLAY HIGH METHIONINE CONSUMPTION AND EXCESSIVE TAURINE PRODUCTION. ELEVATED METHIONINE FLUX OR EXOGENOUS TAURINE PRESERVED PLASMA MEMBRANE INTEGRITY VIA OSMOLYTE-MEDIATED EFFECTS. INCREASED DEPENDENCY ON METHIONINE FLUX DECREASED THE LEVEL OF ONE CARBON METABOLISM INTERMEDIATE S-(5'-ADENOSYL)-L-HOMOCYSTEINE, A DETERMINANT OF CELL METHYLATION CAPACITY. THE CONSEQUENT INCREASE IN METHYLATION POTENTIAL INDUCED DNA HYPERMETHYLATION OF GENES REGULATING METAL ION BALANCE AND INTRINSIC IMMUNE RESPONSE. THIS ENABLED THWARTING TKI RESISTANCE BY USING THE HYPOMETHYLATING AGENT DECITABINE. IN SUMMARY, THE EVOLUTION OF RESISTANCE TO PYROPTOSIS CAN OCCUR VIA A STEPWISE PROCESS OF PHYSICAL ACCLIMATION AND EPIGENETIC CHANGES WITHOUT EXISTING OR RECURRENT MUTATIONS. SIGNIFICANCE: METHIONINE ENABLES CANCER CELLS TO PERSIST BY EVADING PYROPTOTIC OSMOTIC LYSIS, WHICH LEADS TO GENOME-WIDE HYPERMETHYLATION THAT ALLOWS PERSISTERS TO GAIN PROLIFERATIVE ADVANTAGES. 2023 2 2326 29 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 3 4641 31 NEURONAL NUCLEI ISOLATION FROM HUMAN POSTMORTEM BRAIN TISSUE. NEURONS IN THE HUMAN BRAIN BECOME POSTMITOTIC LARGELY DURING PRENATAL DEVELOPMENT, AND THUS MAINTAIN THEIR NUCLEI THROUGHOUT THE FULL LIFESPAN. HOWEVER, LITTLE IS KNOWN ABOUT CHANGES IN NEURONAL CHROMATIN AND NUCLEAR ORGANIZATION DURING THE COURSE OF DEVELOPMENT AND AGING, OR IN CHRONIC NEUROPSYCHIATRIC DISEASE. HOWEVER, TO DATE MOST CHROMATIN AND DNA BASED ASSAYS (OTHER THAN FISH) LACK SINGLE CELL RESOLUTION. TO THIS END, THE CONSIDERABLE CELLULAR HETEROGENEITY OF BRAIN TISSUE POSES A SIGNIFICANT LIMITATION, BECAUSE TYPICALLY VARIOUS SUBPOPULATIONS OF NEURONS ARE INTERMINGLED WITH DIFFERENT TYPES OF GLIA AND OTHER NON-NEURONAL CELLS. ONE POSSIBLE SOLUTION WOULD BE TO GROW CELL-TYPE SPECIFIC CULTURES, BUT MOST CNS CELLS, INCLUDING NEURONS, ARE EX VIVO SUSTAINABLE, AT BEST, FOR ONLY A FEW WEEKS AND THUS WOULD PROVIDE AN INCOMPLETE MODEL FOR EPIGENETIC MECHANISMS POTENTIALLY OPERATING ACROSS THE FULL LIFESPAN. HERE, WE PROVIDE A PROTOCOL TO EXTRACT AND PURIFY NUCLEI FROM FROZEN (NEVER FIXED) HUMAN POSTMORTEM BRAIN. THE METHOD INVOLVES EXTRACTION OF NUCLEI IN HYPOTONIC LYSIS BUFFER, FOLLOWED BY ULTRACENTRIFUGATION AND IMMUNOTAGGING WITH ANTI-NEUN ANTIBODY. LABELED NEURONAL NUCLEI ARE THEN COLLECTED SEPARATELY USING FLUORESCENCE-ACTIVATED SORTING. THIS METHOD SHOULD BE APPLICABLE TO ANY BRAIN REGION IN A WIDE RANGE OF SPECIES AND SUITABLE FOR CHROMATIN IMMUNOPRECIPITATION STUDIES WITH SITE- AND MODIFICATION-SPECIFIC ANTI-HISTONE ANTIBODIES, AND FOR DNA METHYLATION AND OTHER ASSAYS. 2008 4 4729 34 NOTCH1 MUTATIONS ASSOCIATE WITH LOW CD20 LEVEL IN CHRONIC LYMPHOCYTIC LEUKEMIA: EVIDENCE FOR A NOTCH1 MUTATION-DRIVEN EPIGENETIC DYSREGULATION. IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), NOTCH1 MUTATIONS HAVE BEEN ASSOCIATED WITH CLINICAL RESISTANCE TO THE ANTI-CD20 RITUXIMAB, ALTHOUGH THE MECHANISMS BEHIND THIS PECULIAR BEHAVIOR REMAIN TO BE CLARIFIED. IN A WIDE CLL SERIES (N=692), WE DEMONSTRATED THAT CLL CELLS FROM NOTCH1-MUTATED CASES (87/692) WERE CHARACTERIZED BY LOWER CD20 EXPRESSION AND LOWER RELATIVE LYSIS INDUCED BY ANTI-CD20 EXPOSURE IN VITRO. CONSISTENTLY, CD20 EXPRESSION BY CLL CELLS WAS UPREGULATED IN VITRO BY GAMMA-SECRETASE INHIBITORS OR NOTCH1-SPECIFIC SMALL INTERFERING RNA AND THE STABLE TRANSFECTION OF A MUTATED (C.7541-7542DELCT) NOTCH1 INTRACELLULAR DOMAIN (NICD-MUT) INTO CLL-LIKE CELLS RESULTED IN A STRONG DOWNREGULATION OF BOTH CD20 PROTEIN AND TRANSCRIPT. BY USING THESE NICD-MUT TRANSFECTANTS, WE INVESTIGATED PROTEIN INTERACTIONS OF RBPJ, A TRANSCRIPTION FACTOR ACTING EITHER AS ACTIVATOR OR REPRESSOR OF NOTCH1 PATHWAY WHEN RESPECTIVELY BOUND TO NICD OR HISTONE DEACETYLASES (HDACS). COMPARED WITH CONTROLS, NICD-MUT TRANSFECTANTS HAD RBPJ PREFERENTIALLY COMPLEXED TO NICD AND SHOWED HIGHER LEVELS OF HDACS INTERACTING WITH THE PROMOTER OF THE CD20 GENE. FINALLY, TREATMENT WITH THE HDAC INHIBITOR VALPROIC ACID UPREGULATED CD20 IN BOTH NICD-MUT TRANSFECTANTS AND PRIMARY CLL CELLS. IN CONCLUSION, NOTCH1 MUTATIONS ARE ASSOCIATED WITH LOW CD20 LEVELS IN CLL AND ARE RESPONSIBLE FOR A DYSREGULATION OF HDAC-MEDIATED EPIGENETIC REPRESSION OF CD20 EXPRESSION. 2016 5 3246 24 HEPATITIS B VIRUS (HBV) INDUCES THE EXPRESSION OF INTERLEUKIN-8 THAT IN TURN REDUCES HBV SENSITIVITY TO INTERFERON-ALPHA. HIGH LEVELS OF SERUM INTERLEUKIN-8 (IL-8) HAVE BEEN DETECTED IN CHRONIC HEPATITIS B (CHB) PATIENTS DURING EPISODES OF HEPATITIS FLARES. WE INVESTIGATED WHETHER HEPATITIS B VIRUS (HBV) MAY DIRECTLY INDUCE IL-8 PRODUCTION AND WHETHER IL-8 MAY ANTAGONIZE INTERFERON-ALPHA (IFN-ALPHA) ANTIVIRAL ACTIVITY AGAINST HBV. WE SHOWED THAT CHB PATIENTS HAD SIGNIFICANTLY HIGHER IL-8 LEVELS BOTH IN SERUM AND IN LIVER TISSUE THAN CONTROLS. IN HBV-REPLICATING HEPG2 CELLS, IL-8 TRANSCRIPTION WAS SIGNIFICANTLY ACTIVATED. AP-1, C/EBP AND NF-KB TRANSCRIPTION FACTORS WERE CONCURRENTLY NECESSARY FOR MAXIMUM IL-8 INDUCTION. MOREOVER, HBX VIRAL PROTEIN WAS RECRUITED ONTO THE IL-8 PROMOTER AND THIS WAS PARALLELED BY IL8-BOUND HISTONE HYPERACETYLATION AND BY ACTIVE RECRUITMENT OF TRANSCRIPTIONAL COACTIVATORS. INHIBITION OF IL-8 INCREASES THE ANTIVIRAL ACTIVITY OF IFN-ALPHA AGAINST HBV. OUR RESULTS INDICATE THAT HBV ACTIVATES IL-8 GENE EXPRESSION BY TARGETING THE EPIGENETIC REGULATION OF THE IL-8 PROMOTER AND THAT IL-8 MAY CONTRIBUTE TO REDUCE HBV SENSITIVITY TO IFN-ALPHA. 2013 6 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 7 2302 33 EPIGENETIC REGULATION OF CANCER STEM CELL MARKER CD133 BY TRANSFORMING GROWTH FACTOR-BETA. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD LEADING CAUSE OF CANCER MORTALITY WORLDWIDE. CD133, A TRANSMEMBRANE GLYCOPROTEIN, IS AN IMPORTANT CELL SURFACE MARKER FOR BOTH STEM CELLS AND CANCER STEM CELLS IN VARIOUS TISSUES INCLUDING LIVER. CD133 EXPRESSION HAS BEEN RECENTLY LINKED TO POOR PROGNOSIS IN HCC PATIENTS. CD133+ LIVER CANCER CELLS ARE CHARACTERIZED BY RESISTANCE TO CHEMOTHERAPY, SELF-RENEWAL, MULTILINEAGE POTENTIAL, INCREASED COLONY FORMATION, AND IN VIVO CANCER INITIATION AT LIMITED DILUTION. RECENT STUDIES DEMONSTRATE THAT CD133 EXPRESSION IS REGULATED BY DNA METHYLATION. IN THIS STUDY, WE EXPLORED THE ROLE OF TRANSFORMING GROWTH FACTOR BETA (TGFBETA), A MULTIFUNCTIONAL CYTOKINE THAT PLAYS A CRITICAL ROLE IN CHRONIC LIVER INJURY, IN THE REGULATION OF CD133 EXPRESSION. TGFBETA1 IS CAPABLE OF UP-REGULATING CD133 EXPRESSION SPECIFICALLY WITHIN THE HUH7 HCC CELL LINE IN A TIME- AND DOSE-DEPENDENT MANNER. MOST IMPORTANT, TGFBETA1-INDUCED CD133+ HUH7 CELLS DEMONSTRATE INCREASED TUMOR INITIATION IN VIVO. FORCED EXPRESSION OF INHIBITORY SMADS, INCLUDING SMAD6 AND SMAD7, ATTENUATED TGFBETA1-INDUCED CD133 EXPRESSION. WITHIN CD133- HUH7 CELLS, TGFBETA1 STIMULATION INHIBITED THE EXPRESSION OF DNA METHYLTRANSFERASES (DNMT) 1 AND DNMT3BETA, WHICH ARE CRITICAL IN THE MAINTENANCE OF REGIONAL DNA METHYLATION, AND GLOBAL DNMT ACTIVITY IN CD133- HUH7 CELLS WAS INHIBITED BY TGFBETA1. DNMT3BETA INHIBITION BY TGFBETA1 WAS PARTIALLY RESCUED WITH OVEREXPRESSION OF INHIBITORY SMADS. LASTLY, TGFBETA1 TREATMENT LED TO SIGNIFICANT DEMETHYLATION IN CD133 PROMOTER-1 IN CD133- HUH7 CELLS. CONCLUSION: TGFBETA1 IS ABLE TO REGULATE CD133 EXPRESSION THROUGH INHIBITION OF DNMT1 AND DNMT3BETA EXPRESSION AND SUBSEQUENT DEMETHYLATION OF PROMOTER-1. TGFBETA1-INDUCED CD133+ HUH7 CELLS ARE TUMORIGENIC. THE MECHANISM BY WHICH TGFBETA INDUCES CD133 EXPRESSION IS PARTIALLY DEPENDENT ON THE SMADS PATHWAY. 2010 8 1906 31 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 9 66 33 A KEY ROLE FOR EZH2 IN EPIGENETIC SILENCING OF HOX GENES IN MANTLE CELL LYMPHOMA. THE CHROMATIN MODIFIER EZH2 IS OVEREXPRESSED AND ASSOCIATED WITH INFERIOR OUTCOME IN MANTLE CELL LYMPHOMA (MCL). RECENTLY, WE DEMONSTRATED PREFERENTIAL DNA METHYLATION OF HOX GENES IN MCL COMPARED WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), DESPITE THESE GENES NOT BEING EXPRESSED IN EITHER ENTITY. SINCE EZH2 HAS BEEN SHOWN TO REGULATE HOX GENE EXPRESSION, TO GAIN FURTHER INSIGHT INTO ITS POSSIBLE ROLE IN DIFFERENTIAL SILENCING OF HOX GENES IN MCL VS. CLL, WE PERFORMED DETAILED EPIGENETIC CHARACTERIZATION USING REPRESENTATIVE CELL LINES AND PRIMARY SAMPLES. WE OBSERVED SIGNIFICANT OVEREXPRESSION OF EZH2 IN MCL VS. CLL. CHROMATIN IMMUNE PRECIPITATION (CHIP) ASSAYS REVEALED THAT EZH2 CATALYZED REPRESSIVE H3 LYSINE 27 TRIMETHYLATION (H3K27ME3), WHICH WAS SUFFICIENT TO SILENCE HOX GENES IN CLL, WHEREAS IN MCL H3K27ME3 IS ACCOMPANIED BY DNA METHYLATION FOR A MORE STABLE REPRESSION. MORE IMPORTANTLY, HYPERMETHYLATION OF THE HOX GENES IN MCL RESULTED FROM EZH2 OVEREXPRESSION AND SUBSEQUENT RECRUITMENT OF THE DNA METHYLATION MACHINERY ONTO HOX GENE PROMOTERS. THE IMPORTANCE OF EZH2 UPREGULATION IN THIS PROCESS WAS FURTHER UNDERSCORED BY SIRNA TRANSFECTION AND EZH2 INHIBITOR EXPERIMENTS. ALTOGETHER, THESE OBSERVATIONS IMPLICATE EZH2 IN THE LONG-TERM SILENCING OF HOX GENES IN MCL, AND ALLUDE TO ITS POTENTIAL AS A THERAPEUTIC TARGET WITH CLINICAL IMPACT. 2013 10 6580 28 TREPONEMA DENTICOLA INCREASES MMP-2 EXPRESSION AND ACTIVATION IN THE PERIODONTIUM VIA REVERSIBLE DNA AND HISTONE MODIFICATIONS. HOST-DERIVED MATRIX METALLOPROTEINASES (MMPS) AND BACTERIAL PROTEASES MEDIATE DESTRUCTION OF EXTRACELLULAR MATRICES AND SUPPORTING ALVEOLAR BONE IN PERIODONTITIS. THE TREPONEMA DENTICOLA DENTILISIN PROTEASE INDUCES MMP-2 EXPRESSION AND ACTIVATION IN PERIODONTAL LIGAMENT (PDL) CELLS, AND DENTILISIN-MEDIATED ACTIVATION OF PRO-MMP-2 IS REQUIRED FOR CELLULAR FIBRONECTIN DEGRADATION. HERE, WE REPORT THAT T. DENTICOLA REGULATES MMP-2 EXPRESSION THROUGH EPIGENETIC MODIFICATIONS IN THE PERIODONTIUM. PDL CELLS WERE TREATED WITH EPIGENETIC ENZYME INHIBITORS BEFORE OR AFTER T. DENTICOLA CHALLENGE. FIBRONECTIN FRAGMENTATION, MMP-2 EXPRESSION, AND ACTIVATION WERE ASSESSED BY IMMUNOBLOT, ZYMOGRAPHY, AND QRT-PCR, RESPECTIVELY. CHROMATIN MODIFICATION ENZYME EXPRESSION IN T. DENTICOLA-CHALLENGED PDL CELLS AND PERIODONTAL TISSUES WERE EVALUATED USING GENE ARRAYS. SEVERAL CLASSES OF EPIGENETIC ENZYMES SHOWED SIGNIFICANT ALTERATIONS IN TRANSCRIPTION IN DISEASED TISSUE AND T. DENTICOLA-CHALLENGED PDL CELLS. T. DENTICOLA-MEDIATED MMP-2 EXPRESSION AND ACTIVATION WERE SIGNIFICANTLY REDUCED IN PDL CELLS TREATED WITH INHIBITORS OF AURORA KINASES AND HISTONE DEACETYLASES. IN CONTRAST, DNA METHYLTRANSFERASE INHIBITORS HAD LITTLE EFFECT, AND INHIBITORS OF HISTONE ACETYLTRANSFERASES, METHYLTRANSFERASES, AND DEMETHYLASES EXACERBATED T. DENTICOLA-MEDIATED MMP-2 EXPRESSION AND ACTIVATION. CHRONIC EPIGENETIC CHANGES IN PERIODONTAL TISSUES MEDIATED BY T. DENTICOLA OR OTHER ORAL MICROBES MAY CONTRIBUTE TO THE LIMITED SUCCESS OF CONVENTIONAL TREATMENT OF CHRONIC PERIODONTITIS AND MAY BE AMENABLE TO THERAPEUTIC REVERSAL. 2018 11 826 37 CHARACTERIZATION OF K562 CELLS: UNCOVERING NOVEL CHROMOSOMES, ASSESSING TRANSFERRIN RECEPTOR EXPRESSION, AND PROBING PHARMACOLOGICAL THERAPIES. HUMAN ERYTHROLEUKEMIC K562 CELLS REPRESENT THE PROTOTYPICAL CELL CULTURE MODEL OF CHRONIC MYELOID LEUKEMIA (CML). THE CELLS ARE PSEUDO-TRIPLOID AND POSITIVE FOR THE PHILADELPHIA CHROMOSOME. THEREFORE, K562 CELLS HAVE BEEN WIDELY USED FOR INVESTIGATING THE BCR/ABL1 ONCOGENE AND THE TYROSINE KINASE INHIBITOR, IMATINIB-MESYLATE. FURTHER, K562 CELLS OVEREXPRESS TRANSFERRIN RECEPTORS (TFR) AND HAVE BEEN USED AS A MODEL FOR TARGETING CYTOTOXIC THERAPIES, VIA RECEPTOR-MEDIATED ENDOCYTOSIS. HERE, WE HAVE CHARACTERIZED K562 CELLS FOCUSING ON THE KARYOTYPE OF CELLS IN PROLONGED CULTURE, REGULATION OF EXPRESSION OF TFR IN WILDTYPE (WT) AND DOXORUBICIN-RESISTANT CELLS, AND RESPONSES TO HISTONE DEACETYLASE INHIBITION (HDACI). KARYOTYPE ANALYSIS INDICATES NOVEL CHROMOSOMES AND GENE EXPRESSION ANALYSIS SUGGESTS A SHIFT OF CULTURED K562 CELLS AWAY FROM PATIENT-DERIVED LEUKEMIC CELLS. WE CONFIRM THE HIGH EXPRESSION OF TFR ON K562 CELLS USING IMMUNOFLUORESCENCE AND CELL-SURFACE RECEPTOR BINDING RADIOASSAYS. IMPORTANTLY, HIGH TFR EXPRESSION IS OBSERVED IN PATIENT-DERIVED CELLS, AND WE HIGHLIGHT THE PERSISTENT EXPRESSION OF TFR FOLLOWING DOXORUBICIN ACQUIRED RESISTANCE. EPIGENETIC ANALYSIS INDICATES THAT PERMISSIVE HISTONE ACETYLATION AND METHYLATION AT THE PROMOTER REGION REGULATES THE TRANSCRIPTION OF TFR IN K562 CELLS. FINALLY, WE SHOW RELATIVELY HIGH EXPRESSION OF HDAC ENZYMES IN K562 CELLS AND DEMONSTRATE THE CHEMOTOXIC EFFECTS OF HDACI, USING THE FDA-APPROVED HYDROXAMIC ACID, VORINOSTAT. TOGETHER WITH A DESCRIPTION OF MORPHOLOGY, INFRARED SPECTRAL ANALYSIS, AND EXAMINATION OF METABOLIC PROPERTIES, WE PROVIDE A COMPREHENSIVE CHARACTERIZATION OF K562 CELLS. OVERALL, K562 CELL CULTURE SYSTEMS REMAIN WIDELY USED FOR THE INVESTIGATION OF NOVEL THERAPEUTICS FOR CML, WHICH IS PARTICULARLY IMPORTANT IN CASES OF IMATINIB-MESYLATE RESISTANCE. 2023 12 5715 34 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 13 5760 44 SOLUBLE URIC ACID PRIMES TLR-INDUCED PROINFLAMMATORY CYTOKINE PRODUCTION BY HUMAN PRIMARY CELLS VIA INHIBITION OF IL-1RA. OBJECTIVES: THE STUDY OF THE PROINFLAMMATORY ROLE OF URIC ACID HAS FOCUSED ON THE EFFECTS OF ITS CRYSTALS OF MONOSODIUM URATE (MSU). HOWEVER, LITTLE IS KNOWN WHETHER URIC ACID ITSELF CAN DIRECTLY HAVE PROINFLAMMATORY EFFECTS. IN THIS STUDY, WE INVESTIGATE THE PRIMING EFFECTS OF URIC ACID EXPOSURE ON THE CYTOKINE PRODUCTION OF PRIMARY HUMAN CELLS UPON STIMULATION WITH GOUT-RELATED STIMULI. METHODS: PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) WERE HARVESTED FROM PATIENTS WITH GOUT AND HEALTHY VOLUNTEERS. CELLS WERE PRETREATED WITH OR WITHOUT URIC ACID IN SOLUBLE FORM FOR 24 H AND THEN STIMULATED FOR 24 H WITH TOLL-LIKE RECEPTOR (TLR)2 OR TLR4 LIGANDS IN THE PRESENCE OR ABSENCE OF MSU CRYSTALS. CYTOKINE PRODUCTION WAS MEASURED BY ELISA; MRNA LEVELS WERE ASSESSED USING QPCR. RESULTS: THE PRODUCTION OF INTERLEUKIN (IL)-1BETA AND IL-6 WAS HIGHER IN PATIENTS COMPARED WITH CONTROLS AND THIS CORRELATED WITH SERUM URATE LEVELS. PROINFLAMMATORY CYTOKINE PRODUCTION WAS SIGNIFICANTLY POTENTIATED WHEN CELLS FROM HEALTHY SUBJECTS WERE PRETREATED WITH URIC ACID. SURPRISINGLY, THIS WAS ASSOCIATED WITH A SIGNIFICANT DOWNREGULATION OF THE ANTI-INFLAMMATORY CYTOKINE IL-1 RECEPTOR ANTAGONIST (IL-1RA). THIS EFFECT WAS SPECIFIC TO STIMULATION BY URIC ACID AND WAS EXERTED AT THE LEVEL OF GENE TRANSCRIPTION. EPIGENETIC REPROGRAMMING AT THE LEVEL OF HISTONE METHYLATION BY URIC ACID WAS INVOLVED IN THIS EFFECT. CONCLUSIONS: IN THIS STUDY WE DEMONSTRATE A MECHANISM THROUGH WHICH HIGH CONCENTRATIONS OF URIC ACID (UP TO 50 MG/DL) INFLUENCE INFLAMMATORY RESPONSES BY FACILITATING IL-1BETA PRODUCTION IN PBMCS. WE SHOW THAT A MECHANISM FOR THE AMPLIFICATION OF IL-1BETA CONSISTS IN THE DOWNREGULATION OF IL-1RA AND THAT THIS EFFECT COULD BE EXERTED VIA EPIGENETIC MECHANISMS SUCH AS HISTONE METHYLATION. HYPERURICAEMIA CAUSES A SHIFT IN THE IL-1BETA/IL-1RA BALANCE PRODUCED BY PBMCS AFTER EXPOSURE TO MSU CRYSTALS AND TLR-MEDIATED STIMULI, AND THIS PHENOMENON IS LIKELY TO REINFORCE THE ENHANCED STATE OF CHRONIC INFLAMMATION. 2016 14 3677 31 INFLAMMATION AND PYROPTOSIS MEDIATE MUSCLE EXPANSION IN AN INTERLEUKIN-1BETA (IL-1BETA)-DEPENDENT MANNER. MUSCLE INFLAMMATION IS OFTEN ASSOCIATED WITH ITS EXPANSION. BLADDER SMOOTH MUSCLE INFLAMMATION-INDUCED CELL DEATH IS ACCOMPANIED BY HYPERPLASIA AND HYPERTROPHY AS THE PRIMARY CAUSE FOR POOR BLADDER FUNCTION. IN MICE, DNA DAMAGE INITIATED BY CHEMOTHERAPEUTIC DRUG CYCLOPHOSPHAMIDE ACTIVATED CASPASE 1 THROUGH THE FORMATION OF THE NLRP3 COMPLEX RESULTING IN DETRUSOR HYPERPLASIA. A CYCLOPHOSPHAMIDE METABOLITE, ACROLEIN, CAUSED GLOBAL DNA METHYLATION AND ACCUMULATION OF DNA DAMAGE IN A MOUSE MODEL OF BLADDER INFLAMMATION AND IN CULTURED BLADDER MUSCLE CELLS. IN CORRELATION, GLOBAL DNA METHYLATION AND NLRP3 EXPRESSION WAS UP-REGULATED IN HUMAN CHRONIC BLADDER INFLAMMATORY TISSUES. THE EPIGENETIC SILENCING OF DNA DAMAGE REPAIR GENE, OGG1, COULD BE REVERSED BY THE USE OF DEMETHYLATING AGENTS. IN MICE, DEMETHYLATING AGENTS REVERSED CYCLOPHOSPHAMIDE-INDUCED BLADDER INFLAMMATION AND DETRUSOR EXPANSION. THE TRANSGENIC KNOCK-OUT OF OGG1 IN AS FEW AS 10% OF THE DETRUSOR CELLS TRIPLED THE PROLIFERATION OF THE REMAINING WILD TYPE COUNTERPARTS IN AN IN VITRO CO-CULTURE TITRATION EXPERIMENT. ANTAGONIZING IL-1BETA WITH ANAKINRA, A RHEUMATOID ARTHRITIS THERAPEUTIC, PREVENTED DETRUSOR PROLIFERATION IN CONDITIONED MEDIA EXPERIMENTS AS WELL AS IN A MOUSE MODEL OF BLADDER INFLAMMATION. RADIATION TREATMENT VALIDATED THE ROLE OF DNA DAMAGE IN THE NLRP3-ASSOCIATED CASPASE 1-MEDIATED IL-1BETA SECRETORY PHENOTYPE. A PROTEIN ARRAY ANALYSIS IDENTIFIED IGF1 TO BE DOWNSTREAM OF IL-1BETA SIGNALING. IL-1BETA-INDUCED DETRUSOR PROLIFERATION AND HYPERTROPHY COULD BE REVERSED WITH THE USE OF ANAKINRA AS WELL AS AN IGF1 NEUTRALIZING ANTIBODY. IL-1BETA ANTAGONISTS IN CURRENT CLINICAL PRACTICE CAN EXPLOIT THE REVEALED MECHANISM FOR DNA DAMAGE-MEDIATED MUSCULAR EXPANSION. 2015 15 329 41 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 16 5319 29 PTEN IS FUNDAMENTAL FOR ELIMINATION OF LEUKEMIA STEM CELLS MEDIATED BY GSK126 TARGETING EZH2 IN CHRONIC MYELOGENOUS LEUKEMIA. PURPOSE: LEUKEMIA STEM CELLS (LSCS) ARE AN IMPORTANT SOURCE OF TYROSINE KINASE INHIBITOR RESISTANCE AND DISEASE RELAPSE IN PATIENTS WITH CHRONIC MYELOGENOUS LEUKEMIA (CML). TARGETING LSCS MAY BE AN ATTRACTIVE STRATEGY TO OVERRIDE THIS THORNY PROBLEM. GIVEN THAT EZH2 WAS OVEREXPRESSED IN PRIMARY CML CD34(+) CELLS, OUR PURPOSE IN THIS STUDY WAS TO EVALUATE THE EFFECTS OF TARGETING EZH2 ON CML LSCS AND CLARIFY ITS UNDERLYING MECHANISM.EXPERIMENTAL DESIGN: HUMAN PRIMARY CML CD34(+) CELLS AND RETROVIRALLY BCR-ABL-DRIVEN CML MOUSE MODELS WERE EMPLOYED TO EVALUATE THE EFFECTS OF SUPPRESSION OF EZH2 BY GSK126- OR EZH2-SPECIFIC SHRNA IN VITRO AND IN VIVO RECRUITMENT OF EZH2 AND H3K27ME3 ON THE PROMOTER OF TUMOR-SUPPRESSOR GENE PTEN IN CML CELLS WAS MEASURED BY CHROMATIN IMMUNOPRECIPITATION ASSAY.RESULTS: OUR RESULTS SHOWED THAT PHARMACOLOGIC INHIBITION OF EZH2 BY GSK126 NOT ONLY ELICITED APOPTOSIS AND RESTRICTED CELL GROWTH IN CML BULK LEUKEMIA CELLS, BUT ALSO DECREASED LSCS IN CML CD34(+) CELLS WHILE SPARING THOSE FROM NORMAL BONE MARROW CD34(+) CELLS. SUPPRESSION OF EZH2 BY GSK126 OR SPECIFIC SHRNA PROLONGED SURVIVAL OF CML MICE AND REDUCED THE NUMBER OF LSCS IN MICE. EZH2 KNOCKDOWN RESULTED IN ELEVATION OF PTEN AND LED TO IMPAIRED RECRUITMENT OF EZH2 AND H3K27ME3 ON THE PROMOTER OF PTEN GENE. THE EFFECT OF EZH2 KNOCKDOWN IN THE CML MICE WAS AT LEAST PARTIALLY REVERSED BY PTEN KNOCKDOWN.CONCLUSIONS: THESE FINDINGS IMPROVE THE UNDERSTANDING OF THE EPIGENETIC REGULATION OF STEMNESS IN CML LSCS AND WARRANT CLINICAL TRIAL OF GSK126 IN REFRACTORY PATIENTS WITH CML. CLIN CANCER RES; 24(1); 145-57. (C)2017 AACR. 2018 17 5803 29 STING SIGNALING ACTIVATION INHIBITS HBV REPLICATION AND ATTENUATES THE SEVERITY OF LIVER INJURY AND HBV-INDUCED FIBROSIS. THE COVALENTLY CLOSED CIRCULAR DNA (CCCDNA) OF HBV PLAYS A CRUCIAL ROLE IN VIRAL PERSISTENCE AND IS ALSO A RISK FACTOR FOR DEVELOPING HBV-INDUCED DISEASES, INCLUDING LIVER FIBROSIS. STIMULATOR OF INTERFERON GENES (STING), A MASTER REGULATOR OF DNA-MEDIATED INNATE IMMUNE ACTIVATION, IS A POTENTIAL THERAPEUTIC TARGET FOR VIRAL INFECTION AND VIRUS-RELATED DISEASES. IN THIS STUDY, AGONIST-INDUCED STING SIGNALING ACTIVATION IN MACROPHAGES WAS REVEALED TO INHIBIT CCCDNA-MEDIATED TRANSCRIPTION AND HBV REPLICATION VIA EPIGENETIC MODIFICATION IN HEPATOCYTES. NOTABLY, STING ACTIVATION COULD EFFICIENTLY ATTENUATE THE SEVERITY OF LIVER INJURY AND FIBROSIS IN A CHRONIC RECOMBINANT CCCDNA (RCCCDNA) MOUSE MODEL, WHICH IS A PROVEN SUITABLE RESEARCH PLATFORM FOR HBV-INDUCED FIBROSIS. MECHANISTICALLY, STING-ACTIVATED AUTOPHAGIC FLUX COULD SUPPRESS MACROPHAGE INFLAMMASOME ACTIVATION, LEADING TO THE AMELIORATION OF LIVER INJURY AND HBV-INDUCED FIBROSIS. OVERALL, THE ACTIVATION OF STING SIGNALING COULD INHIBIT HBV REPLICATION THROUGH EPIGENETIC SUPPRESSION OF CCCDNA AND ALLEVIATE HBV-INDUCED LIVER FIBROSIS THROUGH THE SUPPRESSION OF MACROPHAGE INFLAMMASOME ACTIVATION BY ACTIVATING AUTOPHAGIC FLUX IN A CHRONIC HBV MOUSE MODEL. THIS STUDY SUGGESTS THAT TARGETING THE STING SIGNALING PATHWAY MAY BE AN IMPORTANT THERAPEUTIC STRATEGY TO PROTECT AGAINST PERSISTENT HBV REPLICATION AND HBV-INDUCED FIBROSIS. 2022 18 4055 29 MAPPING OF HISTONE MODIFICATIONS IN EPISOMAL HBV CCCDNA UNCOVERS AN UNUSUAL CHROMATIN ORGANIZATION AMENABLE TO EPIGENETIC MANIPULATION. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION AFFECTS 240 MILLION PEOPLE WORLDWIDE AND IS A MAJOR RISK FACTOR FOR LIVER FAILURE AND HEPATOCELLULAR CARCINOMA. CURRENT ANTIVIRAL THERAPY INHIBITS CYTOPLASMIC HBV GENOMIC REPLICATION, BUT IS NOT CURATIVE BECAUSE IT DOES NOT DIRECTLY AFFECT NUCLEAR HBV CLOSED CIRCULAR DNA (CCCDNA), THE GENOMIC FORM THAT TEMPLATES VIRAL TRANSCRIPTION AND SUSTAINS VIRAL PERSISTENCE. NOVEL APPROACHES THAT DIRECTLY TARGET CCCDNA REGULATION WOULD THEREFORE BE HIGHLY DESIRABLE. CCCDNA IS ASSEMBLED WITH CELLULAR HISTONE PROTEINS INTO CHROMATIN, BUT LITTLE IS KNOWN ABOUT THE REGULATION OF HBV CHROMATIN BY HISTONE POSTTRANSLATIONAL MODIFICATIONS (PTMS). HERE, USING A NEW CCCDNA CHIP-SEQ APPROACH, WE REPORT, TO OUR KNOWLEDGE, THE FIRST GENOME-WIDE MAPS OF PTMS IN CCCDNA-CONTAINING CHROMATIN FROM DE NOVO INFECTED HEPG2 CELLS, PRIMARY HUMAN HEPATOCYTES, AND FROM HBV-INFECTED LIVER TISSUE. WE FIND HIGH LEVELS OF PTMS ASSOCIATED WITH ACTIVE TRANSCRIPTION ENRICHED AT SPECIFIC SITES WITHIN THE HBV GENOME AND, SURPRISINGLY, VERY LOW LEVELS OF PTMS LINKED TO TRANSCRIPTIONAL REPRESSION EVEN AT SILENT HBV PROMOTERS. WE SHOW THAT TRANSCRIPTION AND ACTIVE PTMS IN HBV CHROMATIN ARE REDUCED BY THE ACTIVATION OF AN INNATE IMMUNITY PATHWAY, AND THAT THIS EFFECT CAN BE RECAPITULATED WITH A SMALL MOLECULE EPIGENETIC MODIFYING AGENT, OPENING THE POSSIBILITY THAT CHROMATIN-BASED REGULATION OF CCCDNA TRANSCRIPTION COULD BE A NEW THERAPEUTIC APPROACH TO CHRONIC HBV INFECTION. 2015 19 1826 35 EFFECTS OF HISTONE DEACETYLASE INHIBITOR ON EXTRACELLULAR MATRIX PRODUCTION IN HUMAN NASAL POLYP ORGAN CULTURES. BACKGROUND: NASAL POLYPOSIS IS ASSOCIATED WITH A CHRONIC INFLAMMATORY CONDITION OF THE SINONASAL MUCOSA AND INVOLVES MYOFIBROBLAST DIFFERENTIATION AND EXTRACELLULAR MATRIX (ECM) ACCUMULATION. EPIGENETIC MODULATION BY HISTONE DEACETYLASE (HDAC) INHIBITORS INCLUDING TRICHOSTATIN A (TSA) HAS BEEN REPORTED TO HAVE INHIBITORY EFFECTS ON MYOFIBROBLAST DIFFERENTIATION IN LUNG AND RENAL FIBROBLASTS. THE PURPOSE OF THIS STUDY WAS TO INVESTIGATE THE INHIBITORY EFFECT OF TSA ON MYOFIBROBLAST DIFFERENTIATION AND ECM PRODUCTION IN NASAL POLYP ORGAN CULTURES. METHODS: NASAL POLYP TISSUES FROM 18 PATIENTS WERE ACQUIRED DURING ENDOSCOPIC SINUS SURGERY. AFTER ORGAN CULTURE, NASAL POLYPS WERE STIMULATED WITH TGF-BETA1 AND THEN TREATED WITH TSA. ALPHA-SMOOTH MUSCLE ACTIN (ALPHA-SMA), FIBRONECTIN, AND COLLAGEN TYPE I EXPRESSION LEVELS WERE EXAMINED BY REVERSE TRANSCRIPTION-POLYMERASE CHAIN REACTION (PCR), REAL-TIME PCR, WESTERN BLOT, AND IMMUNOFLUORESCENT STAINING. HDAC2, HDAC4, AND ACETYLATED H4 EXPRESSION LEVELS WERE ASSAYED BY WESTERN BLOT. CYTOTOXICITY WAS ANALYZED BY THE TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE BIOTIN-DUTP NICK END LABELING ASSAY. RESULTS: THE EXPRESSION LEVELS OF ALPHA-SMA, FIBRONECTIN, AND COLLAGEN TYPE 1 WERE INCREASED IN NASAL POLYP AFTER TRANSFORMING GROWTH FACTOR (TGF) BETA1 TREATMENT. TSA-INHIBITED TGF-BETA1 INDUCED THESE GENE AND PROTEIN EXPRESSION LEVELS. FURTHERMORE, TSA SUPPRESSED PROTEIN EXPRESSION LEVELS OF HDAC2 AND HDAC4. HOWEVER, TSA INDUCED HYPERACETYLATION OF HISTONES H4. TREATMENT WITH TGF-BETA1 WITH OR WITHOUT TSA DID NOT HAVE CYTOTOXIC EFFECT. CONCLUSION: THESE FINDINGS PROVIDE NOVEL INSIGHTS INTO THE EPIGENETIC REGULATION IN MYOFIBROBLAST DIFFERENTIATION AND ECM PRODUCTION OF NASAL POLYP. TSA COULD BE A CANDIDATE OF A THERAPEUTIC AGENT FOR REVERSING THE TGF-BETA1-INDUCED ECM SYNTHESIS THAT LEADS TO NASAL POLYP DEVELOPMENT. 2013 20 3877 31 KDM6A PROMOTES IMATINIB RESISTANCE THROUGH YY1-MEDIATED TRANSCRIPTIONAL UPREGULATION OF TRKA INDEPENDENTLY OF ITS DEMETHYLASE ACTIVITY IN CHRONIC MYELOGENOUS LEUKEMIA. RATIONALE: DESPITE LANDMARK THERAPY OF CHRONIC MYELOGENOUS LEUKEMIA (CML) WITH TYROSINE KINASE INHIBITORS (TKIS), DRUG RESISTANCE REMAINS PROBLEMATIC. CANCER PATHOGENESIS INVOLVES EPIGENETIC DYSREGULATION AND IN PARTICULAR, HISTONE LYSINE DEMETHYLASES (KDMS) HAVE BEEN IMPLICATED IN TKI RESISTANCE. WE SOUGHT TO IDENTIFY KDMS WITH ALTERED EXPRESSION IN CML AND DEFINE THEIR CONTRIBUTION TO IMATINIB RESISTANCE. METHODS: BIOINFORMATICS SCREENING COMPARED KDM EXPRESSION IN CML VERSUS NORMAL BONE MARROW WITH SHRNA KNOCKDOWN AND FLOW CYTOMETRY USED TO MEASURE EFFECTS ON IMATINIB-INDUCED APOPTOSIS IN K562 CELLS. TRANSCRIPTOMIC ANALYSES WERE PERFORMED AGAINST KDM6A CRISPR KNOCKOUT/SHRNA KNOCKDOWN K562 CELLS ALONG WITH GENE RESCUE EXPERIMENTS USING WILDTYPE AND MUTANT DEMETHYLASE-DEAD KDM6A CONSTRUCTS. CO-IMMUNOPRECIPITATION, LUCIFERASE REPORTER AND CHIP WERE EMPLOYED TO ELUCIDATE MECHANISMS OF KDM6A-DEPENDENT RESISTANCE. RESULTS: AMONGST FIVE KDMS UPREGULATED IN CML, ONLY KDM6A DEPLETION SENSITIZED CML CELLS TO IMATINIB-INDUCED APOPTOSIS. RE-INTRODUCTION OF DEMETHYLASE-DEAD KDM6A AS WELL AS WILD-TYPE KDM6A RESTORED IMATINIB RESISTANCE. RNA-SEQ IDENTIFIED NTRK1 GENE DOWNREGULATION AFTER DEPLETION OF KDM6A. MOREOVER, NTRK1 EXPRESSION POSITIVELY CORRELATED WITH KDM6A IN A SUBSET OF CLINICAL CML SAMPLES AND KDM6A KNOCKDOWN IN FRESH CML ISOLATES DECREASED NTRK1 ENCODED PROTEIN (TRKA) EXPRESSION. MECHANISTICALLY, KDM6A WAS RECRUITED TO THE NTRK1 PROMOTER BY THE TRANSCRIPTION FACTOR YY1 WITH SUBSEQUENT TRKA UPREGULATION ACTIVATING DOWN-STREAM SURVIVAL PATHWAYS TO INVOKE IMATINIB RESISTANCE. CONCLUSION: CONTRARY TO ITS REPORTED ROLE AS A TUMOR SUPPRESSOR AND INDEPENDENT OF ITS DEMETHYLASE FUNCTION, KDM6A PROMOTES IMATINIB-RESISTANCE IN CML CELLS. THE IDENTIFICATION OF THE KDM6A/YY1/TRKA AXIS AS A NOVEL IMATINIB-RESISTANCE MECHANISM REPRESENTS AN UNEXPLORED AVENUE TO OVERCOME TKI RESISTANCE IN CML. 2021