1 5337 85 QUANTITATIVE ANALYSIS OF HISTONE H3 AND H4 POST-TRANSLATIONAL MODIFICATIONS IN DOXORUBICIN-RESISTANT LEUKEMIA CELLS. THE EPIGENETIC REMODELING OF CHROMATIN THROUGH HISTONE MODIFICATIONS HAS BEEN WIDELY IMPLICATED IN DRUG RESISTANCE OF CANCER CELLS. HOWEVER, WHETHER EPIGENETIC MECHANISMS CONTRIBUTE SPECIFICALLY TO DOXORUBICIN RESISTANCE IN LEUKEMIA HAS NOT BEEN CAREFULLY EXAMINED. USING A STABLE AND SENSITIVE WORKFLOW BASED ON LC-MS, WE QUANTITATIVELY COMPARED THE EXTENTS OF METHYLATION AND ACETYLATION OF HISTONE H3 AND H4 IN ACUTE LEUKEMIA CELL LINE HL60 AND ITS DOXORUBICIN-RESISTANT DERIVATIVE, HL60/ADR, AS WELL AS THE CHRONIC LEUKEMIA CELL LINE K562 AND ITS DOXORUBICIN-RESISTANT DERIVATIVE, K562/ADR. WE FOUND THAT INCREASED LEVELS OF H3K9 METHYLATION, H3K14, H3K18 AND H3K23 ACETYLATION, AND POTENTIALLY H4K20 METHYLATION, ARE ASSOCIATED WITH DRUG RESISTANCE IN BOTH CELLS. OUR RESULTS DEMONSTRATED THAT THE DOXORUBICIN-RESISTANT ACUTE AND CHRONIC LEUKEMIA CELL LINES MAY SHARE A COMMON EPIGENETIC MECHANISM THAT INVOLVES A COMBINATION OF TRANSCRIPTIONAL ACTIVATION AND SILENCING. 2016 2 4203 31 METABOLISM OF DOXORUBICIN TO THE CARDIOTOXIC METABOLITE DOXORUBICINOL IS INCREASED IN A MOUSE MODEL OF CHRONIC GLUTATHIONE DEFICIENCY: A POTENTIAL ROLE FOR CARBONYL REDUCTASE 3. DOXORUBICIN IS HIGHLY EFFECTIVE AT INDUCING DNA DOUBLE-STRAND BREAKS IN RAPIDLY DIVIDING CELLS, WHICH HAS LED TO IT BEING A WIDELY USED CANCER CHEMOTHERAPEUTIC. HOWEVER, CLINICAL ADMINISTRATION OF DOXORUBICIN IS LIMITED BY OFF-TARGET CARDIOTOXICITY, WHICH IS THOUGHT TO BE MEDIATED BY DOXORUBICINOL, THE PRIMARY ALCOHOL METABOLITE OF DOXORUBICIN. CARBONYL REDUCTASE 1 (CBR1), A WELL-CHARACTERIZED MONOMERIC ENZYME PRESENT AT HIGH BASAL LEVELS IN THE LIVER, IS KNOWN TO EXHIBIT ACTIVITY TOWARD DOXORUBICIN. LITTLE IS KNOWN ABOUT A CLOSELY RELATED ENZYME, CARBONYL REDUCTASE 3 (CBR3), WHICH IS PRESENT IN THE LIVER AT LOW BASAL LEVELS BUT IS HIGHLY INDUCIBLE BY THE TRANSCRIPTION FACTOR NRF2. GENETIC POLYMORPHISMS IN CBR3, BUT NOT CBR1, ARE ASSOCIATED WITH DIFFERENTIAL CARDIAC OUTCOMES IN DOXORUBICIN TREATED PEDIATRIC PATIENTS. CBR3 MRNA AND CBR3 PROTEIN ARE HIGHLY EXPRESSED IN THE LIVERS OF GCLM-/- MICE (A MOUSE MODEL OF GLUTATHIONE DEFICIENCY) RELATIVE TO WILD TYPE MICE. IN THE PRESENT STUDY, WE FIRST INVESTIGATED THE ABILITY OF CBR3 TO METABOLIZE DOXORUBICIN. INCUBATIONS OF DOXORUBICIN AND PURIFIED RECOMBINANT MURINE CBR3 (MCBR3) WERE ANALYZED FOR DOXORUBICINOL FORMATION USING HPLC, REVEALING FOR THE FIRST TIME THAT DOXORUBICIN IS A SUBSTRATE OF MCBR3. MOREOVER, HEPATOCYTES FROM GCLM-/- MICE PRODUCED MORE DOXORUBICINOL THAN GCLM+/+ HEPATOCYTES. IN ADDITION, DIFFERENTIATED RAT MYOBLASTS (C2C12 CELLS) CO-CULTURED WITH PRIMARY GCLM-/- MURINE HEPATOCYTES WERE MORE SENSITIVE TO DOXORUBICIN-INDUCED CYTOSTASIS/CYTOTOXICITY THAN INCUBATIONS WITH GCLM+/+ HEPATOCYTES. OUR RESULTS INDICATE A POTENTIALLY IMPORTANT ROLE FOR CBR3 IN DOXORUBICIN-INDUCED CARDIOTOXICITY. BECAUSE THERE IS LIKELY TO BE VARIABILITY IN HEPATIC CBR3 ACTIVITY IN HUMANS (DUE TO EITHER GENETIC OR EPIGENETIC INFLUENCES ON ITS EXPRESSION), THESE DATA ALSO SUGGEST THAT INHIBITION OF CBR3 MAY PROVIDE PROTECTION FROM DOXORUBICINOL CARDIOTOXICITY. 2015 3 826 30 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 4 979 30 CHRONIC OXIDATIVE STRESS INCREASES RESISTANCE TO DOXORUBICIN-INDUCED CYTOTOXICITY IN RENAL CARCINOMA CELLS POTENTIALLY THROUGH EPIGENETIC MECHANISM. RENAL CELL CARCINOMA IS THE MOST COMMON FORM OF KIDNEY CANCER AND IS HIGHLY RESISTANT TO CHEMOTHERAPY. ALTHOUGH THE ROLE OF OXIDATIVE STRESS IN KIDNEY CANCER IS KNOWN, THE CHEMOTHERAPEUTIC RESPONSE OF CANCER CELLS ADAPTED TO CHRONIC OXIDATIVE STRESS IS NOT CLEAR. HENCE, THE EFFECT OF OXIDATIVE STRESS ON SENSITIVITY TO DOXORUBICIN-INDUCED CYTOTOXICITY WAS EVALUATED USING AN IN VITRO MODEL OF HUMAN KIDNEY CANCER CELLS ADAPTED TO CHRONIC OXIDATIVE STRESS. RESULTS OF MTT- AND ANCHORAGE-INDEPENDENT GROWTH ASSAYS AND CELL CYCLE ANALYSIS REVEALED SIGNIFICANT DECREASE IN SENSITIVITY TO DOXORUBICIN IN CAKI-1 CELLS ADAPTED TO OXIDATIVE STRESS. CHANGES IN THE EXPRESSION OF GENES INVOLVED IN DRUG TRANSPORT, CELL SURVIVAL, AND DNA REPAIR-DEPENDENT APOPTOSIS FURTHER CONFIRMED INCREASED RESISTANCE TO DOXORUBICIN-INDUCED CYTOTOXICITY IN THESE CELLS. DECREASED EXPRESSION OF MISMATCH REPAIR (MMR) GENE MSH2 IN CELLS EXPOSED TO OXIDATIVE STRESS SUGGESTS THAT LOSS OF MMR-DEPENDENT APOPTOSIS COULD BE A POTENTIAL MECHANISM FOR INCREASED RESISTANCE TO DOXORUBICIN-INDUCED CYTOTOXICITY. ADDITIONALLY, DOWNREGULATION OF HDAC1, AN INCREASE IN THE LEVEL OF HISTONE H3 ACETYLATION, AND HYPERMETHYLATION OF MSH2 PROMOTER WERE ALSO OBSERVED IN CAKI-1 CELLS ADAPTED TO CHRONIC OXIDATIVE STRESS. DNA-DEMETHYLATING AGENT 5-AZA-2DC SIGNIFICANTLY RESTORED THE EXPRESSION OF MSH2 AND DOXORUBICIN-INDUCED CYTOTOXICITY IN CAKI-1 CELLS ADAPTED TO CHRONIC OXIDATIVE STRESS, SUGGESTING THE ROLE OF DNA HYPERMETHYLATION IN INACTIVATION OF MSH2 EXPRESSION AND CONSEQUENTLY MMR-DEPENDENT APOPTOSIS IN THESE CELLS. IN SUMMARY, THIS STUDY FOR THE FIRST TIME PROVIDES DIRECT EVIDENCE FOR THE ROLE OF OXIDATIVE STRESS IN CHEMOTHERAPEUTIC RESISTANCE IN RENAL CARCINOMA CELLS POTENTIALLY THROUGH EPIGENETIC MECHANISM. 2016 5 1762 21 EARLY TRANSCRIPTIONAL ALTERATION OF HISTONE DEACETYLASES IN A MURINE MODEL OF DOXORUBICIN-INDUCED CARDIOMYOPATHY. DOXORUBICIN IS A POTENT CHEMOTHERAPEUTIC AGENT THAT IS WIDELY-USED TO TREAT A VARIETY OF CANCERS BUT CAUSES ACUTE AND CHRONIC CARDIAC INJURY, SEVERELY LIMITING ITS USE. CLINICALLY, THE ACUTE SIDE EFFECTS OF DOXORUBICIN ARE MOSTLY MANAGEABLE, WHEREAS THE DELAYED CONSEQUENCES CAN LEAD TO LIFE-THREATENING HEART FAILURE, EVEN DECADES AFTER CANCER TREATMENT. THE CARDIOTOXICITY OF DOXORUBICIN IS SUBJECT TO A CRITICAL CUMULATIVE DOSE AND SO DOSAGE LIMITATION IS CONSIDERED TO BE THE BEST WAY TO REDUCE THESE EFFECTS. HENCE, A NUMBER OF STUDIES HAVE DEFINED A "SAFE DOSE" OF THE DRUG, BOTH IN ANIMAL MODELS AND CLINICAL SETTINGS, WITH THE AIM OF AVOIDING LONG-TERM CARDIAC EFFECTS. HERE WE SHOW THAT A DOSE GENERALLY CONSIDERED AS SAFE IN A MOUSE MODEL CAN INDUCE HARMFUL CHANGES IN THE MYOCARDIUM, AS EARLY AS 2 WEEKS AFTER INFUSION. THE ADVERSE CHANGES INCLUDE THE DEVELOPMENT OF FIBROTIC LESIONS, DISARRAY OF CARDIOMYOCYTES AND A MAJOR TRANSCRIPTION DYSREGULATION. IMPORTANTLY, LOW-DOSE DOXORUBICIN CAUSED SPECIFIC CHANGES IN THE TRANSCRIPTIONAL PROFILE OF SEVERAL HISTONE DEACETYLASES (HDACS) WHICH ARE EPIGENETIC REGULATORS OF CARDIAC REMODELLING. THIS SUGGESTS THAT CARDIOPROTECTIVE THERAPIES, AIMED AT MODULATING HDACS DURING DOXORUBICIN TREATMENT, DESERVE FURTHER EXPLORATION. 2017 6 1778 21 EDITOR'S HIGHLIGHT: THE ALTERED DNA METHYLOME OF CHRONIC DOXORUBICIN EXPOSURE IN SPRAGUE DAWLEY RATS. DOXORUBICIN (DOX) IS A WIDELY USED TREATMENT FOR HUMAN CANCERS, BUT INCREASES THE RISK OF LIFE-THREATENING CONGESTIVE HEART FAILURE (CHF). DOX-INDUCED MITOCHONDRIAL DAMAGE IS CUMULATIVE AND PERSISTENT, SIMILAR TO THAT OBSERVED CLINICALLY FOR RISK OF CHF. RECENT EVIDENCE SUGGESTS THE PERSISTENT NATURE OF THIS INJURY IS CAUSED BY ALTERED REGULATION OF GENES IMPORTANT TO NORMAL CARDIAC FUNCTIONING. WE HYPOTHESIZE THAT CHRONIC DOX THERAPY IS ASSOCIATED WITH EPIGENETIC MODIFICATIONS OF DNA METHYLATION STATUS, PARTICULARLY IN CRITICAL REGULATORS OF MITOCHONDRIAL FUNCTION AND CAPACITY. CARDIAC TISSUE FROM SPRAGUE DAWLEY RATS RECEIVING INJECTIONS OF DOX (2 MG/KG, S.C.) OR SALINE ONCE A WEEK FOR 6 WEEKS, FOLLOWED BY 5 WEEKS OF DRUG-FREE HOLIDAY WAS USED FOR REDUCED REPRESENTATION BISULFITE SEQUENCING TO MAP SPECIFIC SITES OF DNA METHYLATION. COMPARISON OF THESE METHYLOMES INDICATED DOX EXPOSURE ALTERS DNA METHYLATION LANDSCAPES, AND IDENTIFIED 14 GENES WITH HIGHLY ALTERED METHYLATION STATUS. PRELIMINARY FUNCTIONAL EFFECTS OF DNA METHYLATION CHANGES WERE CHARACTERIZED BY QUANTIFYING MRNA EXPRESSION OF SELECTED TARGETS (RBM20, NMNAT2, KLHL29, CACNA1C, SCN5A.) GENE EXPRESSION OF RBM20, KLHL29, AND NMNAT2 WERE SIGNIFICANTLY ALTERED IN DOX TREATED ANIMALS; KLHL29 AND NMNAT2 DEMONSTRATED SIGNIFICANT DECREASES IN PROTEIN EXPRESSION CORRESPONDING TO GENE EXPRESSION. THROUGH AN EPIGENOTYPE-TO-PHENOTYPE APPROACH, THIS STUDY IDENTIFIES POTENTIAL MARKERS AND MOLECULAR REGULATORS OF IRREVERSIBLE DOX-INDUCED CARDIOVASCULAR TOXICITY ASSOCIATED WITH CLINICALLY LIMITING CHF. HOWEVER, NONE OF THE MOST PREVALENT GENES IDENTIFIED DIRECTLY RELATE TO MITOCHONDRIAL STRUCTURE OR FUNCTION. THUS, THE INVESTIGATION FAILS TO DEMONSTRATE A DIRECT ASSOCIATION BETWEEN THIS ALTERED METHYLOME AND PERSISTENT MITOCHONDRIONOPATHY ASSOCIATED WITH CHRONIC DOXORUBICIN CARDIAC TOXICITY. 2017 7 6171 29 THE HDAC INHIBITOR VALPROATE INDUCES A BIVALENT STATUS OF THE CD20 PROMOTER IN CLL PATIENTS SUGGESTING DISTINCT EPIGENETIC REGULATION OF CD20 EXPRESSION IN CLL IN VIVO. TREATMENT WITH ANTI-CD20 ANTIBODIES IS ONLY MODERATELY EFFICIENT IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), A FEATURE WHICH HAS BEEN EXPLAINED BY THE INHERENTLY LOW CD20 EXPRESSION IN CLL. IT HAS BEEN SHOWN THAT CD20 IS EPIGENETICALLY REGULATED AND THAT HISTONE DEACETYLASE INHIBITORS (HDACIS) CAN INCREASE CD20 EXPRESSION IN VITRO IN CLL. TO ASSESS WHETHER HDACIS CAN UPREGULATE CD20 ALSO IN VIVO IN CLL, THE HDACI VALPROATE WAS GIVEN TO THREE DEL13Q/NOTCH1WT CLL PATIENTS AND CD20 LEVELS WERE ANALYSED (THE PREVAIL STUDY). VALPROATE TREATMENT RESULTED IN EXPECTED GLOBAL ACTIVATING HISTONE MODIFICATIONS SUGGESTING HDAC INHIBITORY EFFECTS. HOWEVER, ALTHOUGH VALPROATE INDUCED EXPRESSION OF CD20 MRNA AND PROTEIN IN THE DEL13Q/NOTCH1WT I83-E95 CLL CELL LINE, NO SUCH EFFECTS WERE OBSERVED IN THE PATIENTS STUDIED. IN CONTRAST TO THE CELL LINE, IN PATIENTS VALPROATE TREATMENT RESULTED IN TRANSIENT RECRUITMENT OF THE TRANSCRIPTIONAL REPRESSOR EZH2 TO THE CD20 PROMOTER, CORRELATING TO AN INCREASE OF THE REPRESSIVE HISTONE MARK H3K27ME3. THIS SUGGESTS THAT VALPROATE-MEDIATED INDUCTION OF CD20 MAY BE HAMPERED BY EZH2 MEDIATED H3K27ME3 IN VIVO IN CLL. MOREOVER, VALPROATE TREATMENT RESULTED IN INDUCTION OF EZH2 AND GLOBAL H3K27ME3 IN PATIENT CELLS, SUGGESTING TRANSCRIPTIONALLY REPRESSIVE EFFECTS OF VALPROATE IN CLL. OUR RESULTS SUGGEST NEW IN VIVO MECHANISMS OF HDACIS WHICH MAY HAVE IMPLICATIONS ON THE DESIGN OF FUTURE CLINICAL TRIALS IN B-CELL MALIGNANCIES. 2017 8 861 29 CHROMATIN REMODELING FACTOR, INO80, INHIBITS PMAIP1 IN RENAL TUBULAR CELLS VIA EXCHANGE OF HISTONE VARIANT H2A.Z. FOR H2A. EPIGENETIC MODIFICATIONS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, AND CHROMATIN STRUCTURES IN THE KIDNEY CONTRIBUTE TOWARDS THE PROGRESSION OF CHRONIC KIDNEY DISEASE (CKD). IN THIS STUDY, THE ROLE OF CHROMATIN REMODELING FACTOR INOSITOL REQUIRING 80 (INO80) WAS INVESTIGATED. ALTHOUGH INO80 REGULATES TRANSCRIPTION BY ALTERING THE CHROMATIN STRUCTURE AT THE NUCLEOSOME LEVEL, ITS ROLE IN THE KIDNEY REMAINS UNKNOWN. WE DEMONSTRATED THAT THE EXPRESSION OF INO80 IN IMPAIRED KIDNEYS DECREASED IN RATS WITH UNILATERAL URETHRAL OBSTRUCTION. WE INVESTIGATED INO80 EXPRESSION IN A PROXIMAL TUBULAR CELL LINE AND OBSERVED THAT ITS EXPRESSION DECREASED UNDER HYPOXIC CONDITION. ADDITIONALLY, INO80 KNOCKDOWN PROMOTED APOPTOSIS, SUGGESTING THAT INO80 PLAYS A ROLE IN INHIBITING TUBULAR CELL APOPTOSIS. WE IDENTIFIED DOWNSTREAM TARGET GENES OF INO80 VIA GENOME-WIDE ANALYSIS USING RNA-SEQUENCES AND FOUND THAT THE EXPRESSION OF APOPTOSIS-RELATED GENES, SUCH AS TP53 AND E2F1, AND PRO-APOPTOTIC GENES, SUCH AS PMAIP1, INCREASED UPON INO80 KNOCKDOWN. CHIP-QPCR OF THE LOCI OF PMAIP1 SHOWED THAT THE AMOUNT OF H2A.Z. INCREASED INSTEAD OF DECREASING THE AMOUNT OF H2A WHEN INO80 WAS KNOCKED DOWN. THESE RESULTS INDICATED THAT INO80 PLAYS A ROLE IN THE EXCHANGE OF H2A.Z. FOR H2A IN THE PROMOTER REGION OF PMAIP1 IN TUBULAR CELLS TO INHIBIT APOPTOSIS DURING CKD PROGRESSION. 2023 9 192 34 ACETYLATED H4K16 BY MYST1 PROTECTS UROTSA CELLS FROM ARSENIC TOXICITY AND IS DECREASED FOLLOWING CHRONIC ARSENIC EXPOSURE. ARSENIC, A HUMAN CARCINOGEN THAT IS ASSOCIATED WITH AN INCREASED RISK OF BLADDER CANCER, IS COMMONLY FOUND IN DRINKING WATER. AN IMPORTANT MECHANISM BY WHICH ARSENIC IS THOUGHT TO BE CARCINOGENIC IS THROUGH THE INDUCTION OF EPIGENETIC CHANGES THAT LEAD TO ABERRANT GENE EXPRESSION. PREVIOUSLY, WE REPORTED THAT THE SAS2 GENE IS REQUIRED FOR OPTIMAL GROWTH OF YEAST IN THE PRESENCE OF ARSENITE (AS(III)). YEAST SAS2P IS ORTHOLOGOUS TO HUMAN MYST1, A HISTONE 4 LYSINE 16 (H4K16) ACETYLTRANSFERASE. HERE, WE SHOW THAT H4K16 ACETYLATION IS NECESSARY FOR THE RESISTANCE OF YEAST TO AS(III) THROUGH THE MODULATION OF CHROMATIN STATE. WE FURTHER EXPLORED THE ROLE OF MYST1 AND H4K16 ACETYLATION IN ARSENIC TOXICITY AND CARCINOGENESIS IN HUMAN BLADDER EPITHELIAL CELLS. THE EXPRESSION OF MYST1 WAS KNOCKED DOWN IN UROTSA CELLS, A MODEL OF BLADDER EPITHELIUM THAT HAS BEEN USED TO STUDY ARSENIC-INDUCED CARCINOGENESIS. SILENCING OF MYST1 REDUCED ACETYLATION OF H4K16 AND INDUCED SENSITIVITY TO AS(III) AND TO ITS MORE TOXIC METABOLITE MONOMETHYLARSONOUS ACID (MMA(III)) AT DOSES RELEVANT TO HIGH ENVIRONMENTAL HUMAN EXPOSURES. IN ADDITION, BOTH AS(III) AND MMA(III) TREATMENTS DECREASED GLOBAL H4K16 ACETYLATION LEVELS IN A DOSE- AND TIME-DEPENDENT MANNER. THIS INDICATES THAT ACETYLATED H4K16 IS REQUIRED FOR RESISTANCE TO ARSENIC AND THAT A REDUCTION IN ITS LEVELS AS A CONSEQUENCE OF ARSENIC EXPOSURE MAY CONTRIBUTE TO TOXICITY IN UROTSA CELLS. BASED ON THESE FINDINGS, WE PROPOSE A NOVEL ROLE FOR THE MYST1 GENE IN HUMAN SENSITIVITY TO ARSENIC. 2009 10 6402 31 THE ROLES OF EPIGENETIC MODIFICATIONS OF PROAPOPTOTIC BID AND BIM GENES IN IMATINIB-RESISTANT CHRONIC MYELOID LEUKEMIA CELLS. IN CHRONIC MYELOID LEUKEMIA (CML), EPIGENETIC MODIFICATIONS SUCH AS PROMOTER HYPERMETHYLATION AND INACTIVE HISTONE MODIFICATION ARE KNOWN MECHANISMS OF DRUG RESISTANCE. IN OUR STUDY, WE INVESTIGATED THE ROLES OF PROMOTER HYPERMETHYLATION OF BIM AND BID GENES AND H3K27ME3 HISTONE MODIFICATION ON IMATINIB RESISTANCE. WE DETECTED HIGHER EXPRESSION LEVELS OF BIM AND BID GENES AND LOWER EXPRESSION LEVELS OF EZH2, EED2, SIRT1, AND SUZ12 GENES IN IMATINIB-RESISTANT K562/IMA-3 CELLS COMPARED TO IMATINIB-NON-RESISTANT K562 CELLS. WHILE WE DETERMINED THE EZH2 AND DNMT ENZYMES AS BOUNDED TO THE PROMOTER OF THE BIM GENE, WE DID NOT DETECT HYPERMETHYLATION OF THIS PROMOTER. WE ALSO FOUND THE H3K27ME3 HISTONE MODIFICATION PROMOTER OF BIM AND BID GENES IN BOTH CELL LINES. IN CONCLUSION, OUR RESULTS SUPPORT THE NOTION THAT DNA PROMOTER METHYLATION MAY BE FORMED INDEPENDENTLY FROM EZH2-H3K27ME3 AND PRO-APOPTOTIC BIM AND BID GENES ARE NOT METHYLLATED IN THE IMATINIB RESISTANCE OF CML CELLS. 2013 11 1036 27 CLASS I HISTONE DEACETYLASES REGULATE P53/NF-KAPPAB CROSSTALK IN CANCER CELLS. THE TRANSCRIPTION FACTORS NF-KAPPAB AND P53 AS WELL AS THEIR CROSSTALK DETERMINE THE FATE OF TUMOR CELLS UPON THERAPEUTIC INTERVENTIONS. REPLICATIVE STRESS AND CYTOKINES PROMOTE SIGNALING CASCADES THAT LEAD TO THE CO-REGULATION OF P53 AND NF-KAPPAB. CONSEQUENTLY, NUCLEAR P53/NF-KAPPAB SIGNALING COMPLEXES ACTIVATE NF-KAPPAB-DEPENDENT SURVIVAL GENES. THE 18 HISTONE DEACETYLASES (HDACS) ARE EPIGENETIC MODULATORS THAT FALL INTO FOUR CLASSES (I-IV). INHIBITORS OF HISTONE DEACETYLASES (HDACI) BECOME INCREASINGLY APPRECIATED AS ANTI-CANCER AGENTS. BASED ON THEIR EFFECTS ON P53 AND NF-KAPPAB, WE ADDRESSED WHETHER CLINICALLY RELEVANT HDACI AFFECT THE NF-KAPPAB/P53 CROSSTALK. THE CHEMOTHERAPEUTICS HYDROXYUREA, ETOPOSIDE, AND FLUDARABINE HALT CELL CYCLE PROGRESSION, INDUCE DNA DAMAGE, AND LEAD TO DNA FRAGMENTATION. THESE AGENTS CO-INDUCE P53 AND NF-KAPPAB-DEPENDENT GENE EXPRESSION IN CELL LINES FROM BREAST AND COLON CANCER AND IN PRIMARY CHRONIC LYMPHATIC LEUKEMIA (CLL) CELLS. USING SPECIFIC HDACI, WE FIND THAT THE CLASS I SUBGROUP OF HDACS, BUT NOT THE CLASS IIB DEACETYLASE HDAC6, ARE REQUIRED FOR THE HYDROXYUREA-INDUCED CROSSTALK BETWEEN P53 AND NF-KAPPAB. HDACI DECREASE THE BASAL AND STRESS-INDUCED EXPRESSION OF P53 AND BLOCK NF-KAPPAB-REGULATED GENE EXPRESSION. WE FURTHER SHOW THAT CLASS I HDACI INDUCE SENESCENCE IN PANCREATIC CANCER CELLS WITH MUTANT P53. 2017 12 5715 28 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 1700 29 DYNAMIC EXPRESSION OF ZNF382 AND ITS TUMOR-SUPPRESSOR ROLE IN HEPATITIS B VIRUS-RELATED HEPATOCELLULAR CARCINOGENESIS. HEPATITIS B VIRUS (HBV) INFECTION IS THE PRIMARY CAUSE OF HEPATOCELLULAR CARCINOMA (HCC). ZINC-FINGER PROTEIN 382 (ZNF382), WHICH BELONGS TO ZINC-FINGER PROTEIN FAMILY, HAS BEEN DOCUMENTED TO BE DOWNREGULATED IN CERTAIN TYPES OF CANCER. HOWEVER, ITS ROLE IN HCC REMAINS LARGELY UNKNOWN. IN THIS STUDY, WE DEMONSTRATED THAT ZNF382 EXPRESSION WAS SIGNIFICANTLY ELEVATED IN HBV-INFECTED LIVER CIRRHOSIS TISSUES RELATIVE TO HBV-NEGATIVE NORMAL LIVER TISSUES AT PROTEIN LEVELS, BUT NOT AT MRNA LEVELS, AND WAS POSITIVELY CORRELATED WITH THE LEVELS OF HBV DNA AND HEPATITIS B VIRUS X PROTEIN (HBX). FURTHER STUDIES REVEALED THAT ZNF382 WAS A TARGET OF MIR-6867, AND HBX PROMOTED THE TRANSLATION OF ZNF382 DURING HBV CHRONIC INFECTION THROUGH ERK-MEDIATED MIR-6867 INHIBITION. IN ADDITION, OUR DATA SHOWED THAT ZNF382 WAS FREQUENTLY DOWNREGULATED BY PROMOTER METHYLATION IN HBV-RELATED HCCS RELATIVE TO HBV-INFECTED LIVER CIRRHOSIS TISSUES, AND DECREASED EXPRESSION OF ZNF382 WAS STRONGLY CORRELATED WITH POOR SURVIVAL IN EARLY-STAGE HCC PATIENTS. FUNCTIONAL STUDIES DEMONSTRATED THAT ZNF382 WAS A POTENT TUMOR SUPPRESSOR IN HCC CELLS THROUGH INHIBITING CELL PROLIFERATION, COLONY FORMATION, MIGRATION, INVASION, AND TUMORIGENIC POTENTIAL IN NUDE MICE, AND INDUCING CELL APOPTOSIS. MECHANISTICALLY, ZNF382 EXERTED ITS TUMOR-SUPPRESSOR FUNCTIONS IN HCC THROUGH TRANSCRIPTIONALLY REPRESSING ITS DOWNSTREAM TARGETS SUCH AS FOS PROTO-ONCOGENE (FOS), JUN PROTO-ONCOGENE (JUN), DISHEVELED SEGMENT POLARITY PROTEIN 2 (DVL2), AND FRIZZLED CLASS RECEPTOR 1 (FZD1), THEREBY IMPAIRING THE ACTIVITIES OF ACTIVATING PROTEIN 1 (AP-1) AND WNT/BETA-CATENIN PATHWAYS AND ACTIVATING P53 SIGNALING. ALTOGETHER, OUR DATA SHOW THAT ZNF382 ACTS AS A TUMOR SUPPRESSOR, AND IS CO-REGULATED BY HBX AND EPIGENETIC MECHANISM IN HBV-RELATED HEPATOCELLULAR CARCINOGENESIS. 2019 14 5867 27 SUPPRESSIVE EFFECT OF THE HISTONE DEACETYLASE INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) ON HEPATITIS C VIRUS REPLICATION. THE HISTONE DEACETYLASE (HDAC) INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) HAS A CLINICAL PROMISE FOR TREATMENT OF CANCER INCLUDING HEPATOCELLULAR CARCINOMA (HCC). TO INVESTIGATE EFFECT OF SAHA ON HEPATITIS C VIRUS (HCV) REPLICATION, WE TREATED THE HCV REPLICON CELL OR6 WITH SAHA. HCV REPLICATION WAS SIGNIFICANTLY INHIBITED BY SAHA AT CONCENTRATIONS BELOW 1 MUM WITH NO CELLULAR TOXICITY. ANOTHER HDAC INHIBITOR, TRICOSTATIN A, ALSO SHOWED REDUCTION OF HCV REPLICATION. THE MICROARRAY ANALYSIS AND QUANTITATIVE RT-PCR DEMONSTRATED UP-REGULATION OF OSTEOPONTIN (OPN) AND DOWN-REGULATION OF APOLIPOPROTEIN-A1 (APO-A1) AFTER SAHA TREATMENT. DIRECT GENE INDUCTION OF OPN AND KNOCKDOWN OF APO-A1 ALSO SHOWED REDUCTION OF HCV REPLICATION. THE LIVER SPECIFIC MICRORNA-122, WHICH IS INVOLVED IN HCV REPLICATION, WAS NOT AFFECTED BY SAHA TREATMENT. THESE RESULTS SUGGEST THAT SAHA HAS SUPPRESSIVE EFFECT ON HCV REPLICATION THROUGH ALTERATIONS OF GENE EXPRESSION SUCH AS OPN AND APO-A1 IN HOST CELLS. EPIGENETIC TREATMENT WITH HDAC INHIBITORS MAY BE A NOVEL THERAPEUTIC APPROACH FOR DISEASES ASSOCIATED WITH HCV INFECTION SUCH AS CHRONIC HEPATITIS, LIVER CIRRHOSIS, AND HCC. 2013 15 3633 25 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 16 2379 26 EPIGENETIC REGULATION OF WNT PATHWAY ANTAGONISTS IN HUMAN GLIOBLASTOMA MULTIFORME. EPIGENETIC INACTIVATION OF TUMOR SUPPRESSOR GENES IS COMMON IN HUMAN CANCER. USING A LARGE-SCALE WHOLE-GENOME APPROACH IN AN EARLIER STUDY, THE AUTHORS IDENTIFIED EPIGENETICALLY SILENCED GENES WITH POTENTIAL TUMOR SUPPRESSOR FUNCTION IN GLIOBLASTOMA (GBM). THREE GENES IDENTIFIED IN THIS ANALYSIS-DKK1, SFRP1, AND WIF1-ARE POTENT INHIBITORS OF THE WNT SIGNAL TRANSDUCTION PATHWAY. HERE, THE AUTHORS CONFIRM DECREASED EXPRESSION OF THESE GENES IN GBM TUMOR TISSUE SAMPLES RELATIVE TO NONTUMOR BRAIN TISSUE SAMPLES USING REAL-TIME PCR. THEY THEN SHOW THAT EXPRESSION OF ALL 3 GENES IS RESTORED IN T98 GBM CELLS BY TREATMENT WITH THE HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A (TSA), BUT ONLY DKK1 EXPRESSION IS RESTORED BY TREATMENT WITH THE DEMETHYLATING AGENT 5-AZACYTIDINE. BISULFITE SEQUENCING DID NOT REVEAL SIGNIFICANT METHYLATION IN THE PROMOTER REGION OF DKK1, WHEREAS HISTONE ACETYLATION AND CHROMATIN ACCESSIBILITY INCREASED SIGNIFICANTLY FOR ALL 3 GENES AFTER TSA TREATMENT. ECTOPIC EXPRESSION OF DKK1 SIGNIFICANTLY REDUCES COLONY FORMATION AND INCREASES CHEMOTHERAPY-INDUCED APOPTOSIS IN T98 CELLS. ECTOPIC EXPRESSION OF THE CANONICAL WNT PATHWAY INHIBITORS WIF1 AND SFRP1 SHOWS A RELATIVE LACK OF RESPONSE. CHRONIC WNT3A STIMULATION ONLY PARTIALLY REVERSES GROWTH SUPPRESSION AFTER DKK1 REEXPRESSION, WHEREAS A SPECIFIC INHIBITOR OF THE JNK PATHWAY SIGNIFICANTLY REVERSES THE EFFECT OF DKK1 REEXPRESSION ON COLONY FORMATION AND APOPTOSIS IN T98 CELLS. THESE RESULTS SUPPORT A POTENTIAL GROWTH-SUPPRESSIVE FUNCTION FOR EPIGENETICALLY SILENCED DKK1 IN GBM AND SUGGEST THAT DKK1 RESTORATION COULD MODULATE WNT SIGNALING THROUGH BOTH CANONICAL AND NONCANONICAL PATHWAYS. 2010 17 1733 32 E-CADHERIN GENE RE-EXPRESSION IN CHRONIC LYMPHOCYTIC LEUKEMIA CELLS BY HDAC INHIBITORS. BACKGROUND: THE TUMOR SUPPRESSOR GENE E-CADHERIN GENE IS FREQUENTLY SILENCED IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) CELLS AND RESULTS IN WNT-PATHWAY ACTIVATION. WE ANALYZED THE ROLE OF HISTONE EPIGENETIC MODIFICATIONS IN E-CADHERIN GENE SILENCING. METHODS: CLL SPECIMENS WERE TREATED WITH HISTONE DEACETYLASE INHIBITOR (HDACI) MS-275 AND ANALYZED FOR E-CADHERIN EXPRESSION WITH WESTERN BLOT AND RT-PCR ANALYSIS. THE DOWNSTREAM EFFECTS OF HDACI TREATED LEUKEMIC CELLS WERE STUDIED BY ANALYZING THE EFFECT ON WNT-PATHWAY SIGNALING. HDACI INDUCED ALTERATIONS IN E-CADHERIN SPLICING WERE INVESTIGATED BY TRANSCRIPT SPECIFIC REAL TIME PCR ANALYSIS. RESULTS: TREATMENT OF CLL SPECIMENS WITH HISTONE DEACETYLASE INHIBITORS (HDACI) TREATMENT RESULTED IN AN INCREASE OF THE E-CADHERIN RNA TRANSCRIPT (5 TO 119 FOLD INCREASE, N=10) IN EIGHT OUT OF TEN CLL SPECIMENS INDICATING THAT THIS GENE IS DOWN REGULATED BY HISTONE HYPOACETYLATION IN A MAJORITY OF CLL SPECIMENS. THE E-CADHERIN RE-EXPRESSION IN CLL SPECIMENS WAS NOTED BY WESTERN BLOT ANALYSIS AS WELL. BESIDES EPIGENETIC SILENCING ANOTHER MECHANISM OF E-CADHERIN INACTIVATION IS ABERRANT EXON 11 SPLICING RESULTING IN AN ALTERNATIVELY SPLICED TRANSCRIPT THAT LACKS EXON 11 AND IS DEGRADED BY THE NON-SENSE MEDIATED DECAY (NMD) PATHWAY. OUR CHROMATIN IMMUNOPRECIPITATION EXPERIMENTS SHOW THAT HDACI INCREASED THE ACETYLATION OF HISTONES H3 AND H4 IN THE E-CADHERIN PROMOTER REGION. THIS ALSO AFFECTED THE E-CADHERIN EXON 11 SPLICING PATTERN AS HDACI TREATED CLL SPECIMENS PREFERENTIALLY EXPRESSED THE CORRECTLY SPLICED TRANSCRIPT AND NOT THE EXON 11 SKIPPED ABERRANT TRANSCRIPT. THE RE-EXPRESSED E- CADHERIN BINDS TO BETA-CATENIN WITH INHIBITION OF THE ACTIVE WNT-BETA-CATENIN PATHWAY IN THESE CELLS. THIS RESULTED IN A DOWN REGULATION OF TWO WNT TARGET GENES, LEF AND CYCLIND1 AND THE WNT PATHWAY REPORTER. CONCLUSION: THE E-CADHERIN GENE IS EPIGENETICALLY MODIFIED AND HYPOACETYLATED IN CLL LEUKEMIC CELLS. TREATMENT OF CLL SPECIMENS WITH HDACI MS-275 ACTIVATES TRANSCRIPTION FROM THIS SILENT GENE WITH EXPRESSION OF MORE CORRECTLY SPLICED E-CADHERIN TRANSCRIPTS AS COMPARED TO THE ABERRANT EXON11 SKIPPED TRANSCRIPTS THAT IN TURN INHIBITS THE WNT SIGNALING PATHWAY. THE DATA HIGHLIGHTS THE ROLE OF EPIGENETIC MODIFICATIONS IN ALTERING GENE SPLICING PATTERNS. 2013 18 439 27 ANTILEUKEMIC ACTIVITY OF VALPROIC ACID IN CHRONIC LYMPHOCYTIC LEUKEMIA B CELLS DEFINED BY MICROARRAY ANALYSIS. EPIGENETIC CODE MODIFICATIONS BY HISTONE DEACETYLASE INHIBITORS HAVE RECENTLY BEEN PROPOSED AS POTENTIAL NEW THERAPIES FOR HEMATOLOGICAL MALIGNANCIES. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) REMAINS INCURABLE DESPITE THE INTRODUCTION OF NEW TREATMENTS. CLL B CELLS ARE CHARACTERIZED BY AN APOPTOSIS DEFECT RATHER THAN EXCESSIVE PROLIFERATION, BUT PROLIFERATION CENTERS HAVE BEEN FOUND IN ORGANS SUCH AS THE BONE MARROW AND LYMPH NODES. IN THIS STUDY, WE ANALYZED GENE EXPRESSION MODIFICATIONS IN CLL B CELLS AFTER TREATMENT WITH VALPROIC ACID (VPA), A WELL-TOLERATED ANTI-EPILEPTIC DRUG WITH HDAC INHIBITORY ACTIVITY. CLL B CELLS OBTAINED FROM 14 PATIENTS WERE TREATED IN VITRO WITH A CONCENTRATION OF 1 MM VPA FOR 4 H. VPA EFFECTS ON GENE EXPRESSION WERE THEREAFTER STUDIED USING AFFYMETRIX TECHNOLOGY, AND SOME IDENTIFIED GENES WERE VALIDATED BY REAL-TIME PCR AND WESTERN BLOT. WE OBSERVED THAT VPA INDUCED APOPTOSIS BY DOWNREGULATING SEVERAL ANTI-APOPTOTIC GENES AND BY UPREGULATING PRO-APOPTOTIC GENES. FURTHERMORE, VPA SIGNIFICANTLY INCREASED CHEMOSENSITIVITY TO FLUDARABINE, FLAVOPIRIDOL, BORTEZOMIB, THALIDOMIDE AND LENALIDOMIDE. VPA INHIBITED THE PROLIFERATION OF CPG/IL2-STIMULATED CLL B CELLS AND MODULATED MANY CELL CYCLE MESSENGER RNAS. IN CONCLUSION, EXPOSURE OF CLL B CELLS TO VPA INDUCED APOPTOSIS, POTENTIATED CHEMOTHERAPEUTIC AGENT EFFECTS AND INHIBITED PROLIFERATION. THESE DATA STRONGLY SUGGEST THE USE OF VPA IN CLL TREATMENT, PARTICULARLY IN COMBINATION WITH ANTILEUKEMIA AGENTS. 2009 19 6232 24 THE LONG NONCODING RNA MEG3 REGULATES MYOBLAST PLASTICITY AND MUSCLE REGENERATION THROUGH EPITHELIAL-MESENCHYMAL TRANSITION. FORMATION OF SKELETAL MUSCLE IS AMONG THE MOST STRIKING EXAMPLES OF CELLULAR PLASTICITY IN ANIMAL TISSUE DEVELOPMENT, AND WHILE MUSCLE PROGENITOR CELLS ARE REPROGRAMMED BY EPITHELIAL-MESENCHYMAL TRANSITION (EMT) TO MIGRATE DURING EMBRYONIC DEVELOPMENT, THE REGULATION OF EMT IN POST-NATAL MYOGENESIS REMAINS POORLY UNDERSTOOD. HERE, WE DEMONSTRATE THAT THE LONG NONCODING RNA (LNCRNA) MEG3 REGULATES EMT IN MYOBLAST DIFFERENTIATION AND SKELETAL MUSCLE REGENERATION. CHRONIC INHIBITION OF MEG3 IN C2C12 MYOBLASTS INDUCED EMT, AND SUPPRESSED CELL STATE TRANSITIONS REQUIRED FOR DIFFERENTIATION. FURTHERMORE, ADENOVIRAL MEG3 KNOCKDOWN COMPROMISED MUSCLE REGENERATION, WHICH WAS ACCOMPANIED BY ABNORMAL MESENCHYMAL GENE EXPRESSION AND INTERSTITIAL CELL PROLIFERATION. TRANSCRIPTOMIC AND PATHWAY ANALYSES OF MEG3-DEPLETED C2C12 MYOBLASTS AND INJURED SKELETAL MUSCLE REVEALED A SIGNIFICANT DYSREGULATION OF EMT-RELATED GENES, AND IDENTIFIED TGFBETA AS A KEY UPSTREAM REGULATOR. IMPORTANTLY, INHIBITION OF TGFBETAR1 AND ITS DOWNSTREAM EFFECTORS, AND THE EMT TRANSCRIPTION FACTOR SNAI2, RESTORED MANY ASPECTS OF MYOGENIC DIFFERENTIATION IN MEG3-DEPLETED MYOBLASTS IN VITRO WE FURTHER DEMONSTRATE THAT REDUCTION OF MEG3-DEPENDENT EZH2 ACTIVITY RESULTS IN EPIGENETIC ALTERATIONS ASSOCIATED WITH TGFBETA ACTIVATION. THUS, MEG3 REGULATES MYOBLAST IDENTITY TO FACILITATE PROGRESSION INTO DIFFERENTIATION. 2021 20 5459 24 RESEARCH ON THE EPIGENETIC REGULATION MECHANISM OF THE PTPN6 GENE IN ADVANCED CHRONIC MYELOID LEUKAEMIA. PTPN6, A TYROSINE PHOSPHATASE PROTEIN, PLAYS A NEGATIVE ROLE IN CELL SIGNAL TRANSDUCTION AND IS NEGATIVELY CORRELATED WITH TUMOUR FORMATION AND GROWTH. HOWEVER, EPIGENETIC REGULATION MECHANISM OF THE PTPN6 GENE IN ADVANCED CHRONIC MYELOID LEUKAEMIA (CML) REMAINS UNCLEAR. THIS STUDY INVESTIGATED BONE MARROW OR BLOOD SAMPLES FROM 44 CML PATIENTS AND 10 HEALTHY VOLUNTEERS. KCL22 AND K562 CELLS WERE CULTURED AND TREATED WITH DEMETHYLATION DRUGS AND HISTONE DEACETYLASE INHIBITORS. REAL TIME QUANTITATIVE POLYMERASE CHAIN REACTION (QPCR), METHYLATION-SPECIFIC PCR, BISULFITE SEQUENCING PCR, WESTERN BLOTTING, CO-IMMUNOPRECIPITATION AND CHROMATIN IMMUNOPRECIPITATION (CHIP) WAS PERFORMED. PTPN6 WAS DOWN-REGULATED IN CELL LINES AND PATIENTS WITH ADVANCED PHASE CML, WHEREAS DNMT1, DNMT3A, MECP2, MBD2 AND HDAC1 WERE UP-REGULATED. TREATMENT WITH 5-AZACYTIDINE, DECITABINE, SODIUM VALPROATE AND LBH589 INCREASED PTPN6 EXPRESSION, BUT DECREASED THAT OF DNMT1, DNMT3A, MECP2, MBD2 AND HDAC1. IMMUNOPRECIPITATION AND MASS SPECTROMETRY SHOWED THAT HDAC1 COMBINED DIRECTLY WITH PTPN6. CHIP-SEQ SHOWED THAT HDAC1 DID NOT COMBINE WITH THE PROMOTER REGION OF PTPN6, WHILE MAPK, AKT, STAT5, JAK2 AND MYC PROMOTER REGIONS ALL COMBINED WITH HDAC1. PTPN6 IS ASSOCIATED WITH PROGRESSION OF CML. LOW EXPRESSION LEVEL OF PTPN6 WAS ASSOCIATED WITH DNA METHYLATION AND REGULATED BY HISTONE ACETYLATION. HDAC1 PARTICIPATES IN THE REGULATION OF PTPN6. 2017