1 1684 149 DRUG-TOLERANT CANCER CELLS SHOW REDUCED TUMOR-INITIATING CAPACITY: DEPLETION OF CD44 CELLS AND EVIDENCE FOR EPIGENETIC MECHANISMS. CANCER STEM CELLS (CSCS) POSSESS HIGH TUMOR-INITIATING CAPACITY AND HAVE BEEN REPORTED TO BE RESISTANT TO THERAPEUTICS. VICE VERSA, THERAPY-RESISTANT CANCER CELLS SEEM TO MANIFEST CSC PHENOTYPES AND PROPERTIES. IT HAS BEEN GENERALLY ASSUMED THAT DRUG-RESISTANT CANCER CELLS MAY ALL BE CSCS ALTHOUGH THE GENERALITY OF THIS ASSUMPTION IS UNKNOWN. HERE, WE CHRONICALLY TREATED DU145 PROSTATE CANCER CELLS WITH ETOPOSIDE, PACLITAXEL AND SOME EXPERIMENTAL DRUGS (I.E., STAUROSPORINE AND 2 PACLITAXEL ANALOGS), WHICH LED TO POPULATIONS OF DRUG-TOLERANT CELLS (DTCS). SURPRISINGLY, THESE DTCS, WHEN IMPLANTED EITHER SUBCUTANEOUSLY OR ORTHOTOPICALLY INTO NOD/SCID MICE, EXHIBITED MUCH REDUCED TUMORIGENICITY OR WERE EVEN NON-TUMORIGENIC. DRUG-TOLERANT DLD1 COLON CANCER CELLS SELECTED BY A SIMILAR CHRONIC SELECTION PROTOCOL ALSO DISPLAYED REDUCED TUMORIGENICITY WHEREAS DRUG-TOLERANT UC14 BLADDER CANCER CELLS DEMONSTRATED EITHER INCREASED OR DECREASED TUMOR-REGENERATING CAPACITY. DRUG-TOLERANT DU145 CELLS DEMONSTRATED LOW PROLIFERATIVE AND CLONOGENIC POTENTIAL AND WERE VIRTUALLY DEVOID OF CD44(+) CELLS. PROSPECTIVE KNOCKDOWN OF CD44 IN DU145 CELLS INHIBITED CELL PROLIFERATION AND TUMOR REGENERATION, WHEREAS RESTORATION OF CD44 EXPRESSION IN DRUG-TOLERANT DU145 CELLS INCREASED CELL PROLIFERATION AND PARTIALLY INCREASED TUMORIGENICITY. INTERESTINGLY, DRUG-TOLERANT DU145 CELLS SHOWED BOTH INCREASES AND DECREASES IN MANY "STEMNESS" GENES. FINALLY, EVIDENCE WAS PROVIDED THAT CHRONIC DRUG EXPOSURE GENERATED DTCS VIA EPIGENETIC MECHANISMS INVOLVING MOLECULES SUCH AS CD44 AND KDM5A. OUR RESULTS THUS REVEAL THAT 1) NOT ALL DTCS ARE NECESSARILY CSCS; 2) CONVENTIONAL CHEMOTHERAPEUTIC DRUGS SUCH AS TAXOL AND ETOPOSIDE MAY DIRECTLY TARGET CD44(+) TUMOR-INITIATING CELLS; AND 3) DTCS GENERATED VIA CHRONIC DRUG SELECTION INVOLVE EPIGENETIC MECHANISMS. 2011 2 3336 30 HISTONE DEACETYLASE INHIBITORS INDUCE PROTEOLYSIS OF ACTIVATED CDC42-ASSOCIATED KINASE-1 IN LEUKEMIC CELLS. PURPOSE: ACTIVATED CDC42-ASSOCIATED KINASE-1 (ACK1/TNK2) AND EPIGENETIC REGULATORS OF THE HISTONE DEACETYLASE (HDAC) FAMILY REGULATE THE PROLIFERATION AND SURVIVAL OF LEUKEMIC CELLS. 18 HDACS FALL INTO FOUR CLASSES (I-IV). WE TESTED THE IMPACT OF CLINICALLY RELEVANT HISTONE DEACETYLASE INHIBITORS (HDACI) ON ACK1 AND IF SUCH DRUGS COMBINE FAVORABLY WITH THE THERAPEUTICALLY USED ACK1 INHIBITOR DASATINIB. METHODS: WE APPLIED THE BROAD-RANGE HDACI PANOBINOSTAT/LBH589 AND THE CLASS I HDAC-SPECIFIC INHIBITOR ENTINOSTAT/MS-275 TO VARIOUS ACUTE AND CHRONIC MYELOID LEUKEMIA CELLS (AML/CML). WE ALSO USED THE REPLICATIVE STRESS INDUCER HYDROXYUREA (HU), A STANDARD DRUG FOR LEUKEMIC PATIENTS, AND THE APOPTOSIS INDUCER STAUROSPORINE (STS). TO ASSESS CYTOTOXIC EFFECTS OF HDACI, WE MEASURED CELL CYCLE PROFILES AND DNA FRAGMENTATION BY FLOW CYTOMETRY. WESTERN BLOT WAS EMPLOYED TO ANALYZE PROTEIN EXPRESSION AND PHOSPHORYLATION. RESULTS: LBH589 AND MS-275 INDUCE PROTEOLYSIS OF ACK1 IN CML AND AML CELLS. PANOBINOSTAT MORE STRONGLY INDUCES APOPTOSIS THAN ENTINOSTAT, AND THIS CORRELATES WITH A SIGNIFICANTLY PRONOUNCED LOSS OF ACK1. STS AND HU ALSO PROPEL THE DEGRADATION OF ACK1 IN LEUKEMIC CELLS. MOREOVER, THE CASPASE INHIBITOR Z-VAD-FMK REDUCES ACK1 DEGRADATION IN THE PRESENCE OF HDACI. CONCOMITANT WITH THE ATTENUATION OF ACK1, WE NOTICED DECREASED PHOSPHORYLATION OF STAT3. DIRECT INHIBITION OF ACK1 WITH DASATINIB ALSO SUPPRESSES STAT3 PHOSPHORYLATION. FURTHERMORE, DASATINIB AND HDACI COMBINATIONS ARE EFFECTIVE AGAINST CML CELLS. CONCLUSION: HDACS SUSTAIN THE ACK1-STAT3 SIGNALING NODE AND LEUKEMIC CELL GROWTH. CONSISTENT WITH THEIR DIFFERENT EFFECTS ON ACK1 STABILITY OR AUTO-PHOSPHORYLATION, DASATINIB AND HDACI COMBINATIONS PRODUCE BENEFICIAL ANTILEUKEMIC EFFECTS. 2016 3 1036 30 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 4 4741 44 NOVEL HDAC INHIBITOR MAKV-8 AND IMATINIB SYNERGISTICALLY KILL CHRONIC MYELOID LEUKEMIA CELLS VIA INHIBITION OF BCR-ABL/MYC-SIGNALING: EFFECT ON IMATINIB RESISTANCE AND STEM CELLS. BACKGROUND: CHRONIC MYELOID LEUKEMIA (CML) PATHOGENESIS IS MAINLY DRIVEN BY THE ONCOGENIC BREAKPOINT CLUSTER REGION-ABELSON MURINE LEUKEMIA VIRAL ONCOGENE HOMOLOG 1 (BCR-ABL) FUSION PROTEIN. SINCE BCR-ABL DISPLAYS ABNORMAL CONSTITUTIVE TYROSINE KINASE ACTIVITY, THERAPIES USING TYROSINE KINASE INHIBITORS (TKIS) SUCH AS IMATINIB REPRESENT A MAJOR BREAKTHROUGH FOR THE OUTCOME OF CML PATIENTS. NEVERTHELESS, THE DEVELOPMENT OF TKI RESISTANCE AND THE PERSISTENCE OF LEUKEMIA STEM CELLS (LSCS) REMAIN BARRIERS TO CURE THE DISEASE, JUSTIFYING THE DEVELOPMENT OF NOVEL THERAPEUTIC APPROACHES. SINCE THE ACTIVITY OF HISTONE DEACETYLASE (HDAC) IS DEREGULATED IN NUMEROUS CANCERS INCLUDING CML, PAN-HDAC INHIBITORS MAY REPRESENT PROMISING THERAPEUTIC REGIMENS FOR THE TREATMENT OF CML CELLS IN COMBINATION WITH TKI. RESULTS: WE ASSESSED THE ANTI-LEUKEMIC ACTIVITY OF A NOVEL HYDROXAMATE-BASED PAN-HDAC INHIBITOR MAKV-8, WHICH COMPLIED WITH THE LIPINSKI'S "RULE OF FIVE," IN VARIOUS CML CELLS ALONE OR IN COMBINATION WITH IMATINIB. WE VALIDATED THE IN VITRO HDAC-INHIBITORY POTENTIAL OF MAKV-8 AND DEMONSTRATED EFFICIENT BINDING TO THE LIGAND-BINDING POCKET OF HDAC ISOENZYMES. IN CELLULO, MAKV-8 SIGNIFICANTLY INDUCED TARGET PROTEIN ACETYLATION, DISPLAYED CYTOSTATIC AND CYTOTOXIC PROPERTIES, AND TRIGGERED CONCOMITANT ER STRESS/PROTECTIVE AUTOPHAGY LEADING TO CANONICAL CASPASE-DEPENDENT APOPTOSIS. CONSIDERING THE SPECIFIC UPREGULATION OF SELECTED HDACS IN LSCS FROM CML PATIENTS, WE INVESTIGATED THE DIFFERENTIAL TOXICITY OF A CO-TREATMENT WITH MAKV-8 AND IMATINIB IN CML VERSUS HEALTHY CELLS. WE ALSO SHOWED THAT BECLIN-1 KNOCKDOWN PREVENTED MAKV-8-IMATINIB COMBINATION-INDUCED APOPTOSIS. MOREOVER, MAKV-8 AND IMATINIB CO-TREATMENT SYNERGISTICALLY REDUCED BCR-ABL-RELATED SIGNALING PATHWAYS INVOLVED IN CML CELL GROWTH AND SURVIVAL. SINCE OUR RESULTS SHOWED THAT LSCS FROM CML PATIENTS OVEREXPRESSED C-MYC, IMPORTANTLY MAKV-8-IMATINIB CO-TREATMENT REDUCED C-MYC LEVELS AND THE LSC POPULATION. IN VIVO, TUMOR GROWTH OF XENOGRAFTED K-562 CELLS IN ZEBRAFISH WAS COMPLETELY ABROGATED UPON COMBINED TREATMENT WITH MAKV-8 AND IMATINIB. CONCLUSIONS: COLLECTIVELY, THE PRESENT FINDINGS SHOW THAT COMBINATIONS HDAC INHIBITOR-IMATINIB ARE LIKELY TO OVERCOME DRUG RESISTANCE IN CML PATHOLOGY. 2020 5 690 32 BRD4 DEGRADATION BLOCKS EXPRESSION OF MYC AND MULTIPLE FORMS OF STEM CELL RESISTANCE IN PH(+) CHRONIC MYELOID LEUKEMIA. IN MOST PATIENTS WITH CHRONIC MYELOID LEUKEMIA (CML) CLONAL CELLS CAN BE KEPT UNDER CONTROL BY BCR::ABL1 TYROSINE KINASE INHIBITORS (TKI). HOWEVER, OVERT RESISTANCE OR INTOLERANCE AGAINST THESE TKI MAY OCCUR. WE IDENTIFIED THE EPIGENETIC READER BRD4 AND ITS DOWNSTREAM-EFFECTOR MYC AS GROWTH REGULATORS AND THERAPEUTIC TARGETS IN CML CELLS. BRD4 AND MYC WERE FOUND TO BE EXPRESSED IN PRIMARY CML CELLS, CD34(+) /CD38(-) LEUKEMIC STEM CELLS (LSC), AND IN THE CML CELL LINES KU812, K562, KCL22, AND KCL22(T315I) . THE BRD4-TARGETING DRUG JQ1 WAS FOUND TO SUPPRESS PROLIFERATION IN KU812 CELLS AND PRIMARY LEUKEMIC CELLS IN THE MAJORITY OF PATIENTS WITH CHRONIC PHASE CML. IN THE BLAST PHASE OF CML, JQ1 WAS LESS EFFECTIVE. HOWEVER, THE BRD4 DEGRADER DBET6 WAS FOUND TO BLOCK PROLIFERATION AND/OR SURVIVAL OF PRIMARY CML CELLS IN ALL PATIENTS TESTED, INCLUDING BLAST PHASE CML AND CML CELLS EXHIBITING THE T315I VARIANT OF BCR::ABL1. MOREOVER, DBET6 WAS FOUND TO BLOCK MYC EXPRESSION AND TO SYNERGIZE WITH BCR::ABL1 TKI IN INHIBITING THE PROLIFERATION IN THE JQ1-RESISTANT CELL LINE K562. FURTHERMORE, BRD4 DEGRADATION WAS FOUND TO OVERCOME OSTEOBLAST-INDUCED TKI RESISTANCE OF CML LSC IN A CO-CULTURE SYSTEM AND TO BLOCK INTERFERON-GAMMA-INDUCED UPREGULATION OF THE CHECKPOINT ANTIGEN PD-L1 IN LSC. FINALLY, DBET6 WAS FOUND TO SUPPRESS THE IN VITRO SURVIVAL OF CML LSC AND THEIR ENGRAFTMENT IN NSG MICE. TOGETHER, TARGETING OF BRD4 AND MYC THROUGH BET DEGRADATION SENSITIZES CML CELLS AGAINST BCR::ABL1 TKI AND IS A POTENT APPROACH TO OVERCOME MULTIPLE FORMS OF DRUG RESISTANCE IN CML LSC. 2022 6 5850 36 SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) REDUCES FIBROSIS MARKERS AND DEACTIVATES HUMAN STELLATE CELLS VIA THE EPITHELIAL-MESENCHYMAL TRANSITION (EMT). HEPATIC FIBROSIS IS KNOWN AS THE ACCUMULATION OF CONNECTIVE TISSUE SECONDARY TO CHRONIC DAMAGE TO THE LIVER. EPITHELIAL-MESENCHYMAL TRANSITION (EMT) CORRESPONDING INCREASE IN LIVER FIBROGENESIS WAS SHOWN WITH IMMUNOHISTOCHEMISTRY AND PCR-BASED STUDIES. SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), A SYNTHETIC COMPOUND APPROVED AS A HISTONE DEACETYLASE INHIBITOR (HDAC) BY THE FDA TO TREAT CUTANEOUS T-CELL LYMPHOMA IS UNDER INVESTIGATION FOR THE TREATMENT OF LUNG AND RENAL FIBROSIS. EXPERIMENTAL MODELING FOR HEPATIC FIBROSIS CAN BE CONSTRUCTED WITH AN LX2 CELL LINE ISOLATED FROM HUMAN HEPATIC STELLATE CELLS (HSCS). IN THIS STUDY, WE AIMED TO INVESTIGATE THE MODULATION OF SAHA IN THE PATHOGENESIS OF LIVER FIBROSIS BY DETECTING THE LEVELS OF PROTEINS; (E-CADHERIN (E-CAD), N-CADHERIN (N-CAD), VIMENTIN (VIM), AND GENES; E-CAD, N-CAD, VIM, TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA), ALPHA-SMOOTH MUSCLE ACTIN (ALPHA-SMA), TYPE 1 COLLAGEN (COL1A1), TYPE 3 COLLAGEN (COL3A1)) THAT PLAY A SIGNIFICANT ROLE IN EMT WITH THE LX2 CELL LINE. WE ALSO EVALUATED THE ACTION OF SAHA WITH CELL PROLIFERATION, CLONOGENIC, AND MIGRATION ASSAY. CELL PROLIFERATION WAS PERFORMED BY FLOW CYTOMETRY. ALL THE PROTEIN LEVELS WERE DETERMINED BY WESTERN BLOT ANALYSIS, AND GENE EXPRESSION LEVELS WERE MEASURED BY REAL-TIME PCR. OUR STUDY OBSERVED THAT SAHA TREATMENT DECREASED CELL VIABILITY, COLONY FORMATION AND MIGRATION IN LX2 CELLS. WE FOUND THAT SAHA INCREASED E-CAD EXPRESSION LEVEL, WHILE IT DECREASED N-CAD, VIM, COL1A1, COL3A1, ALPHA-SMA TGF-BETA GENES EXPRESSION LEVELS. SAHA DECREASED THE LEVEL OF E-CAD, N-CAD, AND VIM PROTEIN LEVELS. WE THOUGHT THAT SAHA POSSESSES POTENT ANTIFIBROTIC AND ANTI-EMT PROPERTIES IN LX2. 2021 7 5459 30 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 8 4699 34 NFATC2-DEPENDENT EPIGENETIC UPREGULATION OF CXCL14 IS INVOLVED IN THE DEVELOPMENT OF NEUROPATHIC PAIN INDUCED BY PACLITAXEL. BACKGROUND: THE MAJOR DOSE-LIMITING TOXICITY OF PACLITAXEL, ONE OF THE MOST COMMONLY USED DRUGS TO TREAT SOLID TUMOR, IS PAINFUL NEUROPATHY. HOWEVER, THE MOLECULAR MECHANISMS UNDERLYING PACLITAXEL-INDUCED PAINFUL NEUROPATHY ARE LARGELY UNCLARIFIED. METHODS: PAW WITHDRAWAL THRESHOLD WAS MEASURED IN THE RATS FOLLOWING INTRAPERITONEAL INJECTION OF PACLITAXEL. THE QPCR, WESTERN BLOTTING, PROTEIN OR CHROMATIN IMMUNOPRECIPITATION, CHIP-SEQ IDENTIFICATION OF NFATC2 BINDING SITES, AND MICROARRAY ANALYSIS WERE PERFORMED TO EXPLORE THE MOLECULAR MECHANISM. RESULTS: WE FOUND THAT PACLITAXEL TREATMENT INCREASED THE NUCLEAR EXPRESSION OF NFATC2 IN THE SPINAL DORSAL HORN, AND KNOCKDOWN OF NFATC2 WITH NFATC2 SIRNA SIGNIFICANTLY ATTENUATED THE MECHANICAL ALLODYNIA INDUCED BY PACLITAXEL. FURTHER BINDING SITE ANALYSIS UTILIZING CHIP-SEQ ASSAY COMBINING WITH GENE EXPRESSION PROFILE REVEALED A SHIFT OF NFATC2 BINDING SITE CLOSER TO TTS OF TARGET GENES IN DORSAL HORN AFTER PACLITAXEL TREATMENT. WE FURTHER FOUND THAT NFATC2 OCCUPANCY MAY DIRECTLY UPREGULATE THE CHEMOKINE CXCL14 EXPRESSION IN DORSAL HORN, WHICH WAS MEDIATED BY ENHANCED INTERACTION BETWEEN NFATC2 AND P300 AND CONSEQUENTLY INCREASED ACETYLATION OF HISTONE H4 IN CXCL14 PROMOTER REGION. ALSO, KNOCKDOWN OF CXCL14 IN DORSAL HORN SIGNIFICANTLY ATTENUATED MECHANICAL ALLODYNIA INDUCED BY PACLITAXEL. CONCLUSION: THESE RESULTS SUGGESTED THAT ENHANCED INTERACTION BETWEEN P300 AND NFATC2 MEDIATED THE EPIGENETIC UPREGULATION OF CXCL14 IN THE SPINAL DORSAL HORN, WHICH CONTRIBUTED TO THE CHEMOTHERAPEUTIC PACLITAXEL-INDUCED CHRONIC PAIN. 2020 9 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 10 5940 34 TARGETING METHYLTRANSFERASE PRMT5 ELIMINATES LEUKEMIA STEM CELLS IN CHRONIC MYELOGENOUS LEUKEMIA. IMATINIB-INSENSITIVE LEUKEMIA STEM CELLS (LSCS) ARE BELIEVED TO BE RESPONSIBLE FOR RESISTANCE TO BCR-ABL TYROSINE KINASE INHIBITORS AND RELAPSE OF CHRONIC MYELOGENOUS LEUKEMIA (CML). IDENTIFYING THERAPEUTIC TARGETS TO ERADICATE CML LSCS MAY BE A STRATEGY TO CURE CML. IN THE PRESENT STUDY, WE DISCOVERED A POSITIVE FEEDBACK LOOP BETWEEN BCR-ABL AND PROTEIN ARGININE METHYLTRANSFERASE 5 (PRMT5) IN CML CELLS. OVEREXPRESSION OF PRMT5 WAS OBSERVED IN HUMAN CML LSCS. SILENCING PRMT5 WITH SHRNA OR BLOCKING PRMT5 METHYLTRANSFERASE ACTIVITY WITH THE SMALL-MOLECULE INHIBITOR PJ-68 REDUCED SURVIVAL, SERIAL REPLATING CAPACITY, AND LONG-TERM CULTURE-INITIATING CELLS (LTC-ICS) IN LSCS FROM CML PATIENTS. FURTHER, PRMT5 KNOCKDOWN OR PJ-68 TREATMENT DRAMATICALLY PROLONGED SURVIVAL IN A MURINE MODEL OF RETROVIRAL BCR-ABL-DRIVEN CML AND IMPAIRED THE IN VIVO SELF-RENEWAL CAPACITY OF TRANSPLANTED CML LSCS. PJ-68 ALSO INHIBITED LONG-TERM ENGRAFTMENT OF HUMAN CML CD34+ CELLS IN IMMUNODEFICIENT MICE. MOREOVER, INHIBITION OF PRMT5 ABROGATED THE WNT/BETA-CATENIN PATHWAY IN CML CD34+ CELLS BY DEPLETING DISHEVELLED HOMOLOG 3 (DVL3). THIS STUDY SUGGESTS THAT EPIGENETIC METHYLATION MODIFICATION ON HISTONE PROTEIN ARGININE RESIDUES IS A REGULATORY MECHANISM TO CONTROL SELF-RENEWAL OF LSCS AND INDICATES THAT PRMT5 MAY REPRESENT A POTENTIAL THERAPEUTIC TARGET AGAINST LSCS. 2016 11 5319 39 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 12 171 41 ABROGATION OF HISTONE DEACETYLASES (HDACS) DECREASES SURVIVAL OF CHRONIC MYELOID LEUKEMIA CELLS: NEW INSIGHT INTO ATTENUATING EFFECTS OF THE PI3K/C-MYC AXIS ON PANOBINOSTAT CYTOTOXICITY. ALTHOUGH THE IDENTIFICATION OF TYROSINE KINASE INHIBITORS (TKIS) HAS CHANGED THE TREATMENT PARADIGM OF MANY CANCER TYPES INCLUDING CHRONIC MYELOID LEUKEMIA (CML), STILL ADJUSTMENT OF NEOPLASTIC CELLS TO CYTOTOXIC EFFECTS OF ANTICANCER DRUGS IS A SERIOUS CHALLENGE. IN THE AREA OF DRUG RESISTANCE, EPIGENETIC ALTERATIONS ARE AT THE CENTER OF ATTENTION AND THE PRESENT STUDY AIMED TO EVALUATE WHETHER BLOCKAGE OF EPIGENETICS MECHANISMS USING A PAN-HISTONE DEACETYLASE (HDAC) INHIBITOR INDUCES CELL DEATH IN CML-DERIVED K562 CELLS. WE FOUND THAT THE ABROGATION OF HDACS USING PANOBINOSTAT RESULTED IN A REDUCTION IN SURVIVAL OF THE K562 CELL LINE THROUGH P27-MEDIATED CELL CYCLE ARREST. NOTEWORTHY, THE RESULTS OF THE SYNERGISTIC EXPERIMENTS REVEALED THAT HDAC SUPPRESSION COULD BE RECRUITED AS A WAY TO POTENTIATE CYTOTOXICITY OF IMATINIB AND TO ENHANCE THE THERAPEUTIC EFFICACY OF CML. HERE, WE PROPOSED FOR THE FIRST TIME THAT THE INHIBITORY EFFECT OF PANOBINOSTAT WAS OVERSHADOWED, AT LEAST PARTIALLY, THROUGH THE ABERRANT ACTIVATION OF THE PHOSPHOINOSITIDE 3-KINASE (PI3K)/C-MYC AXIS. MEANWHILE, WE FOUND THAT UPON BLOCKAGE OF AUTOPHAGY AND THE PROTEASOME PATHWAY, AS THE MAIN AXIS INVOLVED IN THE ACTIVATION OF AUTOPHAGY, THE ANTI-LEUKEMIC PROPERTY OF THE HDAC INHIBITOR WAS POTENTIATED. TAKEN TOGETHER, OUR STUDY SUGGESTS THE BENEFICIAL APPLICATION OF HDAC INHIBITION IN THE TREATMENT STRATEGIES OF CML; HOWEVER, FURTHER IN VIVO STUDIES ARE NEEDED TO DETERMINE THE EFFICACY OF THIS INHIBITOR, EITHER AS A SINGLE AGENT OR IN COMBINATION WITH SMALL MOLECULE INHIBITORS OF PI3K AND/OR C-MYC IN THIS MALIGNANCY. 2021 13 5849 34 SUBEROYLANILIDE HYDROXAMIC ACID (SAHA) AND CLADRIBINE SYNERGISTICALLY INDUCE APOPTOSIS IN NK-LGL LEUKAEMIA. NATURAL KILLER (NK) LARGE GRANULAR LYMPHOCYTE (LGL) LEUKAEMIA FEATURES A CLONAL PROLIFERATION OF CD3(-) NK CELLS THAT CAN BE CLASSIFIED INTO EITHER AGGRESSIVE OR CHRONIC CATEGORIES. THE NKL CELL LINE, DERIVED FROM AN AGGRESSIVE ASIAN NK CELL LEUKAEMIA, AND PATIENT SAMPLES FROM CHRONIC NK-LGL LEUKAEMIA WERE USED IN OUR STUDY TO PROBE FOR SYNERGISTIC EFFICACY OF THE EPIGENETIC DRUGS VORINOSTAT (SAHA) AND CLADRIBINE IN THIS DISEASE. WE DEMONSTRATE THAT HISTONE DEACETYLASES (HDACS) ARE OVER-EXPRESSED IN BOTH AGGRESSIVE AND CHRONIC NK LEUKAEMIA. ADMINISTRATION OF THE HDAC INHIBITOR SAHA REDUCES CLASS I AND II HDAC EXPRESSION AND ENHANCES HISTONE ACETYLATION IN LEUKAEMIC NK CELLS. IN VITRO COMBINATION TREATMENT WITH SAHA AND CLADRIBINE DOSE-DEPENDENTLY EXERTS SYNERGISTIC CYTOTOXIC AND APOPTOTIC EFFECTS ON LEUKAEMIC NK CELLS. EXPRESSION PROFILING OF APOPTOTIC REGULATORY GENES SUGGESTS THAT BOTH COMPOUNDS LED TO CASPASE-DEPENDENT APOPTOSIS THROUGH ACTIVATION OF INTRINSIC MITOCHONDRIAL AND EXTRINSIC DEATH RECEPTOR PATHWAYS. COLLECTIVELY, THESE DATA SHOW THAT COMBINED EPIGENETIC THERAPY, USING HDAC AND DNA METHYLTRANSFERASE INHIBITORS, MAY BE A PROMISING THERAPEUTIC APPROACH FOR NK-LGL LEUKAEMIA. 2015 14 4877 38 OVEREXPRESSION OF MIR-4433 BY SUBEROYLANILIDE HYDROXAMIC ACID SUPPRESSES GROWTH OF CML CELLS AND INDUCES APOPTOSIS THROUGH TARGETING BCR-ABL. BACKGROUND: TARGETING BCR-ABL IS THE KEY FOR THE TREATMENT OF CML. ALTHOUGH GREAT PROGRESS HAS BEEN ACHIEVED FOR THE TREATMENT OF CML PATIENTS IN CHRONIC STAGE, EFFECTIVE DRUGS WITH GOOD SAFETY ARE NOT AVAILABLE FOR THOSE IN ADVANCED STAGES OF CML PATIENTS. IN PRESENT STUDY, A HISTONE DEACETYLASE INHIBITOR, SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), WAS USED TO SCREEN FOR MICRORNA THAT CAN TARGET BCR-ABL. METHODS: RT-QPCR WAS USED TO DETERMINE BCR-ABL AND MIR-4433 TRANSCRIPTION LEVEL IN CML CELLS. IN CML CELLS, PROTEINS INCLUDING PARP, CASPASE-3, ACETYL-HISTONE 3, HISTONE 3 AND BCR-ABL, AS WELL AS BCR-ABL DOWNSTREAM PROTEINS WERE DETECTED USING WESTERN BLOT. CELL VIABILITY AND APOPTOSIS WERE MONITORED RESPECTIVELY BY MTS ASSAY AND FLOW CYTOMETRY. THE CORRELATION BETWEEN MIR-4433 AND BCR-ABL WAS DETERMINED BY LUCIFERASE REPORTER ASSAY. THE ANTI-TUMOR EFFECT OF MIR-4433 TO K562 CELLS WAS EVALUATED BY NUDE MOUSE XENOGRAFT MODEL IN VIVO. RESULTS: SAHA UP-REGULATED THE ACETYLATION LEVEL OF HISTONE 3, AND EFFECTIVELY INHIBITED BCR-ABL MRNA LEVEL AND ITS DOWNSTREAM SIGNAL TRANSDUCTION PATHWAY, WHILE INHIBITING THE GROWTH OF CML CELLS AND INDUCING APOPTOSIS. FURTHERMORE, BIOINFORMATICS TOOLS PREDICTED THAT MIR-4433 IS A PUTATIVE MICRORNA TARGETING BCR-ABL AND THAT THE EXPRESSION LEVEL OF MIR-4433 WAS SIGNIFICANTLY INCREASED AFTER SAHA TREATMENT IN K562 CELLS. LUCIFERASE ACTIVITY ANALYSIS REVEALED THAT MIR-4433 DIRECTLY TARGETS BCR-ABL. ADDITIONALLY, TRANSIENT EXPRESSION OF MIR-4433 ABROGATED BCR-ABL ACTIVITY AND ITS DOWNSTREAM SIGNALING PATHWAYS WHILE INDUCING APOPTOSIS IN K562 CELLS. MOREOVER, STABLE EXPRESSION OF MIR-4433 SUPPRESSED BCR-ABL AND ITS DOWNSTREAM SIGNALING PATHWAY, AND INHIBITED THE GROWTH OF K562 CELLS IN VITRO AND THE GROWTH OF K562-XENOGRAFTS IN NUDE MICE. CONCLUSION: MIR-4433 WAS IDENTIFIED AS A MICRORNA TARGETING BCR-ABL, WHICH MAY BE SUBJECT TO EPIGENETIC REGULATION OF SAHA, A HISTONE DEACETYLASE INHIBITOR THAT HAS BEEN APPROVED BY THE US FDA FOR THE TREATMENT OF CUTANEOUS T-CELL LYMPHOMA. THE FINDINGS OF THIS STUDY PROVIDE A MOLECULAR BASIS FROM ANOTHER ANGLE FOR THE USE OF SAHA IN THE TREATMENT OF CML. 2019 15 3175 43 H2AX PHOSPHORYLATION REGULATED BY P38 IS INVOLVED IN BIM EXPRESSION AND APOPTOSIS IN CHRONIC MYELOGENOUS LEUKEMIA CELLS INDUCED BY IMATINIB. INCREASING EVIDENCE SUGGESTS THAT HISTONE H2AX PLAYS A CRITICAL ROLE IN REGULATION OF TUMOR CELL APOPTOSIS AND ACTS AS A NOVEL HUMAN TUMOR SUPPRESSOR PROTEIN. HOWEVER, THE ACTION OF H2AX IN CHRONIC MYELOGENOUS LEUKEMIA (CML) CELLS IS UNKNOWN. THE DETAILED MECHANISM AND EPIGENETIC REGULATION BY H2AX REMAIN ELUSIVE IN CANCER CELLS. HERE, WE REPORT THAT H2AX WAS INVOLVED IN APOPTOSIS OF CML CELLS. OVEREXPRESSION OF H2AX INCREASED APOPTOTIC SENSITIVITY OF CML CELLS (K562) INDUCED BY IMATINIB. HOWEVER, OVEREXPRESSION OF SER139-MUTATED H2AX (BLOCKING PHOSPHORYLATION) DECREASED SENSITIVITY OF K562 CELLS TO APOPTOSIS. SIMILARLY, KNOCKDOWN OF H2AX MADE K562 CELLS RESISTANT TO APOPTOTIC INDUCTION. THESE RESULTS REVEALED THAT THE FUNCTION OF H2AX INVOLVED IN APOPTOSIS IS STRICTLY RELATED TO ITS PHOSPHORYLATION (SER139). OUR DATA FURTHER INDICATED THAT IMATINIB MAY STIMULATE MITOGEN-ACTIVATED PROTEIN KINASE (MAPK) FAMILY MEMBER P38, AND H2AX PHOSPHORYLATION FOLLOWED A SIMILAR TIME COURSE, SUGGESTING A PARALLEL RESPONSE. H2AX PHOSPHORYLATION CAN BE BLOCKED BY P38 SIRNA OR ITS INHIBITOR. THESE DATA DEMONSTRATED THAT H2AX PHOSPHORYLATION WAS REGULATED BY P38 MAPK PATHWAY IN K562 CELLS. HOWEVER, THE P38 MAPK DOWNSTREAM, MITOGEN- AND STRESS-ACTIVATED PROTEIN KINASE-1 AND -2, WHICH PHOSPHORYLATED HISTONE H3, WERE NOT REQUIRED FOR H2AX PHOSPHORYLATION DURING APOPTOSIS. FINALLY, WE PROVIDED EPIGENETIC EVIDENCE THAT H2AX PHOSPHORYLATION REGULATED APOPTOSIS-RELATED GENE BIM EXPRESSION. BLOCKING OF H2AX PHOSPHORYLATION INHIBITED BIM GENE EXPRESSION. TAKEN TOGETHER, THESE DATA DEMONSTRATED THAT H2AX PHOSPHORYLATION REGULATED BY P38 IS INVOLVED IN BIM EXPRESSION AND APOPTOSIS IN CML CELLS INDUCED BY IMATINIB. 2014 16 826 31 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 17 439 37 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 18 1069 37 CLOFARABINE?PHYTOCHEMICAL COMBINATION EXPOSURES IN CML CELLS INHIBIT DNA METHYLATION MACHINERY, UPREGULATE TUMOR SUPPRESSOR GENES AND PROMOTE CASPASE?DEPENDENT APOPTOSIS. CLOFARABINE (2?CHLORO?2'?FLUORO?2'?DEOXYARABINOSYLADENINE, CIF), A SECOND?GENERATION 2'?DEOXYADENOSINE ANALOG, POSSESSES A VARIETY OF ANTI?CANCER ACTIVITIES, INCLUDING THE CAPACITY TO MODULATE DNA METHYLATION MARKS. BIOACTIVE NUTRIENTS, INCLUDING RESVERATROL (RSV) AND ALL?TRANS RETINOIC ACID (ATRA) HAVE BEEN INDICATED TO REGULATE EPIGENETIC MACHINERY IN MALIGNANT CELLS. THE PURPOSE OF THE CURRENT STUDY WAS TO EVALUATE WHETHER THE TESTED PHYTOCHEMICALS, RSV OR ATRA, CAN IMPROVE THE THERAPEUTIC EPIGENETIC EFFECTS OF CIF IN CHRONIC MYELOID LEUKEMIA (CML) CELLS. THE PRESENT STUDY INVESTIGATES, TO THE BEST OF OUR KNOWLEDGE, FOR THE FIRST TIME, THE INFLUENCE OF CIF IN COMBINATION WITH RSV OR ATRA ON THE EXPRESSION OF RELEVANT MODIFIERS OF DNA METHYLATION MACHINERY, INCLUDING DNA METHYLTRANSFERASE 1 (DNMT1) AND CYCLIN DEPENDENT KINASE INHIBITOR 1A (CDKN1A) IN CML CELLS. SUBSEQUENTLY, THE COMBINATORIAL EFFECTS ON PROMOTER METHYLATION AND TRANSCRIPT LEVELS OF METHYLATION?SILENCED TUMOR SUPPRESSOR GENES (TSGS), INCLUDING PHOSPHATASE AND TENSIN HOMOLOGUE (PTEN) AND RETINOIC ACID RECEPTOR BETA (RARB), WERE ESTIMATED USING MSRA AND QPCR, RESPECTIVELY. THE TESTED TSGS WERE CHOSEN ACCORDING TO BIOINFORMATICAL ANALYSIS OF PUBLICLY AVAILABLE CLINICAL DATA OF HUMAN DNA METHYLATION AND GENE EXPRESSION ARRAYS IN LEUKEMIA PATIENTS. THE K562 CELL LINE WAS USED AS AN EXPERIMENTAL CML IN VITRO MODEL. FOLLOWING A PERIOD OF 72 H EXPOSURE OF K562 CELLS, THE TESTED COMBINATIONS LED TO SIGNIFICANT CELL GROWTH INHIBITION AND INDUCTION OF CASPASE?3?DEPENDENT APOPTOSIS. THESE OBSERVATIONS WERE ACCOMPANIED BY DNMT1 DOWNREGULATION AND CDKN1A UPREGULATION, WITH A CONCOMITANT ENHANCED DECREASE IN DNMT1 PROTEIN LEVEL, ESPECIALLY AFTER ATRA TREATMENT WITH CIF. CONCURRENT METHYLATION?MEDIATED RARB AND PTEN REACTIVATION WAS DETECTED. THE RESULTS OF THE CURRENT STUDY DEMONSTRATED THAT CIF THAT WAS USED IN COMBINATION WITH THE TESTED PHYTOCHEMICALS, RSV OR ATRA, EXHIBITED A GREATER ABILITY TO REMODEL DNA METHYLATION MARKS AND PROMOTE CELL DEATH IN CML CELLS. THESE RESULTS MAY SUPPORT THE APPLICATION OF CIF COMBINATIONS WITH NATURAL BIOACTIVE AGENTS IN ANTI?LEUKEMIC EPIGENETIC THERAPY. 2019 19 2302 38 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 20 1669 39 DOWNREGULATION OF THE HISTONE METHYLTRANSFERASE SETD2 PROMOTES IMATINIB RESISTANCE IN CHRONIC MYELOID LEUKAEMIA CELLS. OBJECTIVES: EPIGENETIC MODIFIERS WERE IMPORTANT PLAYERS IN THE DEVELOPMENT OF HAEMATOLOGICAL MALIGNANCIES AND SENSITIVITY TO THERAPY. MUTATIONS OF SET DOMAIN-CONTAINING 2 (SETD2), A METHYLTRANSFERASE THAT CATALYSES THE TRIMETHYLATION OF HISTONE 3 ON LYSINE 36 (H3K36ME3), WERE FOUND IN VARIOUS MYELOID MALIGNANCIES. HOWEVER, THE DETAILED MECHANISMS THROUGH WHICH SETD2 CONFERS CHRONIC MYELOID LEUKAEMIA PROGRESSION AND RESISTANCE TO THERAPY TARGETING ON BCR-ABL REMAIN UNCLEAR. MATERIALS AND METHODS: THE LEVEL OF SETD2 IN IMATINIB-SENSITIVE AND IMATINIB-RESISTANT CHRONIC MYELOID LEUKAEMIA (CML) CELLS WAS EXAMINED BY IMMUNOBLOTTING AND QUANTITATIVE REAL-TIME PCR. WE ANALYSED CD34(+) CD38(-) LEUKAEMIC STEM CELLS BY FLOW CYTOMETRY AND COLONY FORMATION ASSAYS UPON SETD2 KNOCKDOWN OR OVEREXPRESSION. THE IMPACT OF SETD2 EXPRESSION ALTERATIONS OR SMALL-MOLECULE INHIBITOR JIB-04 TARGETING H3K36ME3 LOSS ON IMATINIB SENSITIVITY WAS ASSESSED BY IC50, CELL APOPTOSIS AND PROLIFERATION ASSAYS. FINALLY, RNA SEQUENCING AND CHIP-QUANTITATIVE PCR WERE PERFORMED TO VERIFY PUTATIVE DOWNSTREAM TARGETS. RESULTS: SETD2 WAS FOUND TO ACT AS A TUMOUR SUPPRESSOR IN CML. THE NOVEL ONCOGENIC TARGETS MYCN AND ERG WERE SHOWN TO BE THE DIRECT DOWNSTREAM TARGETS OF SETD2, WHERE THEIR OVEREXPRESSION INDUCED BY SETD2 KNOCKDOWN CAUSED IMATINIB INSENSITIVITY AND LEUKAEMIC STEM CELL ENRICHMENT IN CML CELL LINES. TREATMENT WITH JIB-04, AN INHIBITOR THAT RESTORES H3K36ME3 LEVELS THROUGH BLOCKADE OF ITS DEMETHYLATION, SUCCESSFULLY IMPROVED THE CELL IMATINIB SENSITIVITY AND ENHANCED THE CHEMOTHERAPEUTIC EFFECT. CONCLUSIONS: OUR STUDY NOT ONLY EMPHASIZES THE REGULATORY MECHANISM OF SETD2 IN CML, BUT ALSO PROVIDES PROMISING THERAPEUTIC STRATEGIES FOR OVERCOMING THE IMATINIB RESISTANCE IN PATIENTS WITH CML. 2019