1 3877 151 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	
                                                                                                                                                                                                                                                                                                                                                             
2 1669  47 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
3 3531  36 IMATINIB CAUSES EPIGENETIC ALTERATIONS OF PTEN GENE VIA UPREGULATION OF DNA METHYLTRANSFERASES AND POLYCOMB GROUP PROTEINS. WE HAVE RECENTLY REPORTED THE POSSIBLE IMATINIB-RESISTANT MECHANISM; LONG-TERM EXPOSURE OF LEUKEMIA CELLS TO IMATINIB DOWNREGULATED LEVELS OF PHOSPHATASE AND TENSIN HOMOLOG DELETED ON CHROMOSOME 10 (PTEN) VIA HYPERMETHYLATION OF ITS PROMOTER REGION (LEUKEMIA 2010; 24: 1631). THE PRESENT STUDY EXPLORED THE MOLECULAR MECHANISMS BY WHICH IMATINIB CAUSED METHYLATION ON THE PROMOTER REGION OF THIS TUMOR SUPPRESSOR GENE IN LEUKEMIA CELLS. REAL-TIME REVERSE TRANSCRIPTION PCR FOUND THAT LONG-TERM EXPOSURE OF CHRONIC EOSINOPHILIC LEUKEMIA EOL-1 CELLS EXPRESSING FIP1L1/PLATELET-DERIVED GROWTH FACTOR RECEPTOR-ALPHA TO IMATINIB INDUCED EXPRESSION OF DNA METHYLTRANSFERASE 3A (DNMT3A) AND HISTONE-METHYLTRANSFERASE ENHANCER OF ZESTE HOMOLOG 2 (EZH2), A FAMILY OF POLYCOMB GROUP, THEREBY INCREASING METHYLATION OF THE GENE. IMMUNOPRECIPITATION ASSAY FOUND THE INCREASED COMPLEX FORMATION OF DNMT3A AND EZH2 PROTEINS IN THESE CELLS. MOREOVER, CHROMATIN IMMUNOPRECIPITATION ASSAY SHOWED THAT AMOUNTS OF BOTH DNMT3A AND EZH2 PROTEINS BOUND AROUND THE PROMOTER REGION OF PTEN GENE WERE INCREASED IN EOL-1 CELLS AFTER EXPOSURE TO IMATINIB. FURTHERMORE, WE FOUND THAT LEVELS OF DNMT3A AND EZH2 WERE STRIKINGLY INCREASED IN LEUKEMIA CELLS ISOLATED FROM INDIVIDUALS WITH CHRONIC MYELOGENOUS LEUKEMIA (N=1) AND PHILADELPHIA CHROMOSOME-POSITIVE ACUTE LYMPHOBLASTIC LEUKEMIA (N=2), WHO RELAPSED AFTER TREATMENT WITH IMATINIB COMPARED WITH THOSE ISOLATED AT THEIR INITIAL PRESENTATION. TAKEN TOGETHER, IMATINIB COULD CAUSE DRUG-RESISTANCE VIA RECRUITMENT OF POLYCOMB GENE COMPLEX TO THE PROMOTER REGION OF THE PTEN AND DOWNREGULATION OF THIS GENE'S TRANSCRIPTS IN LEUKEMIA PATIENTS.	2011	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                 
4 2081  41 EPIGENETIC DOWN-REGULATION OF BIM EXPRESSION IS ASSOCIATED WITH REDUCED OPTIMAL RESPONSES TO IMATINIB TREATMENT IN CHRONIC MYELOID LEUKAEMIA. BACKGROUND: EXPRESSION OF THE PRO-APOPTOTIC BCL-2-INTERACTING MEDIATOR (BIM) HAS RECENTLY BEEN IMPLICATED IN IMATINIB-INDUCED APOPTOSIS OF BCR-ABL1(+) CELLS. HOWEVER, THE MECHANISMS INVOLVED IN THE REGULATION OF BIM IN CML AND ITS ROLE IN THE CLINICAL SETTING HAVE NOT BEEN ESTABLISHED. DESIGN AND METHODS: WE ANALYSED THE MRNA EXPRESSION OF BIM IN 100 NEWLY DIAGNOSED PATIENTS WITH CML IN CHRONIC PHASE BY Q-RT-PCR AND THE PROTEIN LEVELS BY WESTERN BLOT ANALYSIS. METHYLATION STATUS WAS ANALYSED BY BISULPHITE GENOMIC SEQUENCING AND MSP. CML CELL LINES WERE TREATED WITH IMATINIB AND 5-AZA-2'-DEOXYCYTIDINE, AND WERE TRANSFECTED WITH TWO DIFFERENT SIRNAS AGAINST BIM AND CELL PROLIFERATION AND APOPTOSIS WERE ANALYSED. RESULTS: WE DEMONSTRATED THAT DOWN-REGULATION OF BIM EXPRESSION WAS PRESENT IN 36% OF THE PATIENTS AND WAS SIGNIFICANTLY ASSOCIATED WITH A LACK OF OPTIMAL RESPONSE TO IMATINIB AS INDICATED BY THE DECREASE IN CYTOGENETIC AND MOLECULAR RESPONSES AT 6, 12 AND 18 MONTHS IN COMPARISON WITH PATIENTS WITH NORMAL BIM EXPRESSION (P<0.05). EXPRESSION OF BIM WAS MEDIATED BY PROMOTER HYPERMETHYLATION AS DEMONSTRATED BY RESTORATION OF BIM EXPRESSION AFTER TREATMENT OF CML CELLS WITH 5-AZA-2'-DEOXYCYTIDINE. USING CML CELL LINES WITH LOW AND NORMAL EXPRESSION OF BIM WE FURTHER DEMONSTRATED THAT THE EXPRESSION OF BIM IS REQUIRED FOR IMATINIB-INDUCED CML APOPTOSIS. CONCLUSION: OUR DATA INDICATE THAT DOWN-REGULATION OF BIM IS EPIGENETICALLY CONTROLLED BY METHYLATION IN A PERCENTAGE OF CML PATIENTS AND HAS AN UNFAVOURABLE PROGNOSTIC IMPACT, AND THAT THE COMBINATION OF IMATINIB WITH A DE-METHYLATING AGENT MAY RESULT IN IMPROVED RESPONSES IN PATIENTS WITH DECREASED EXPRESSION OF BIM.	2009	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
5  826  36 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                   
6 3087  44 GENOME?WIDE EXPRESSION AND METHYLATION ANALYSES REVEAL ABERRANT CELL ADHESION SIGNALING IN TYROSINE KINASE INHIBITOR?RESISTANT CML CELLS. ALTHOUGH CHRONIC MYELOID LEUKEMIA (CML) CAN BE EFFECTIVELY TREATED USING BCR?ABL1 KINASE INHIBITORS, RESISTANCE DUE TO KINASE ALTERATIONS OR TO BCR?ABL1 INDEPENDENT MECHANISMS REMAIN A THERAPEUTIC CHALLENGE. FOR THE LATTER, THE UNDERLYING MECHANISMS ARE WIDELY DISCUSSED; FOR INSTANCE, GENE EXPRESSION CHANGES, EPIGENETIC FACTORS AND ALTERNATIVE SIGNALING PATHWAY ACTIVATION. IN THE PRESENT STUDY, IN VITRO?CML CELL MODELS OF RESISTANCE AGAINST THE TYROSINE KINASE INHIBITORS (TKIS) IMATINIB (0.5 AND 2 MICROM) AND NILOTINIB (0.1 MICROM) WITH BIOLOGICAL REPLICATES WERE GENERATED TO IDENTIFY NOVEL MECHANISMS OF RESISTANCE. SUBSEQUENTLY, GENOME?WIDE MRNA EXPRESSION AND DNA METHYLATION WERE ANALYZED. WHILE MRNA EXPRESSION PATTERNS DIFFERED LARGELY BETWEEN BIOLOGICAL REPLICATES, THERE WAS AN OVERLAP OF 71 GENES DIFFERENTIALLY EXPRESSED BETWEEN CELLS RESISTANT AGAINST IMATINIB OR NILOTINIB. MOREOVER, ALL TKI RESISTANT CELL LINES DEMONSTRATED A SLIGHT HYPERMETHYLATION COMPARED WITH NATIVE CELLS. IN A COMBINED ANALYSIS OF 151 GENES DIFFERENTIALLY EXPRESSED IN THE BIOLOGICAL REPLICATES OF IMATINIB RESISTANCE, CELL ADHESION SIGNALING, IN PARTICULAR THE CELLULAR MATRIX PROTEIN FIBRONECTIN 1 (FN1), WAS SIGNIFICANTLY DYSREGULATED. THIS GENE WAS ALSO DOWNREGULATED IN NILOTINIB RESISTANCE. FURTHER ANALYSES SHOWED SIGNIFICANT FN1?DOWNREGULATION IN IMATINIB RESISTANCE ON MRNA (P<0.001) AND PROTEIN LEVEL (P<0.001). SIRNA?MEDIATED FN1?KNOCKDOWN IN NATIVE CELLS REDUCED CELL ADHESION (P=0.02), DECREASED IMATINIB SUSCEPTIBILITY VISIBLE BY HIGHER KI?67 EXPRESSION (1.5?FOLD, P=0.04) AND INCREASED CELL NUMBER (1.5?FOLD, P=0.03). VICE VERSA, RECOVERY OF FN1?EXPRESSION IN IMATINIB RESISTANT CELLS WAS SUFFICIENT TO PARTIALLY RESTORE THE RESPONSE TO IMATINIB. OVERALL, THESE RESULTS SUGGESTED A ROLE OF CELL ADHESION SIGNALING AND FIBRONECTIN 1 IN TKI RESISTANT CML AND A POTENTIAL TARGET FOR NOVEL STRATEGIES IN TREATMENT OF RESISTANT CML.	2022	
                                                                                                                                                                                                                                                                                                                                                                   
7 5319  40 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
8  139  34 ABERRANT DNA METHYLATION IS ASSOCIATED WITH DISEASE PROGRESSION, RESISTANCE TO IMATINIB AND SHORTENED SURVIVAL IN CHRONIC MYELOGENOUS LEUKEMIA. THE EPIGENETIC IMPACT OF DNA METHYLATION IN CHRONIC MYELOGENOUS LEUKEMIA (CML) IS NOT COMPLETELY UNDERSTOOD. TO ELUCIDATE ITS ROLE WE ANALYZED 120 PATIENTS WITH CML FOR METHYLATION OF PROMOTER-ASSOCIATED CPG ISLANDS OF 10 GENES. FIVE GENES WERE IDENTIFIED BY DNA METHYLATION SCREENING IN THE K562 CELL LINE AND 3 GENES IN PATIENTS WITH MYELOPROLIFERATIVE NEOPLASMS. THE CDKN2B GENE WAS SELECTED FOR ITS FREQUENT METHYLATION IN MYELOID MALIGNANCIES AND ABL1 AS THE TARGET OF BCR-ABL TRANSLOCATION. THIRTY PATIENTS WERE IMATINIB-NAIVE (MOSTLY TREATED BY INTERFERON-ALPHA BEFORE THE IMATINIB ERA), 30 WERE IMATINIB-RESPONSIVE, 50 WERE IMATINIB-RESISTANT, AND 10 WERE IMATINIB-INTOLERANT. WE QUANTIFIED DNA METHYLATION BY BISULFITE PYROSEQUENCING. THE AVERAGE NUMBER OF METHYLATED GENES WAS 4.5 PER PATIENT IN THE CHRONIC PHASE, INCREASING SIGNIFICANTLY TO 6.2 IN THE ACCELERATED AND 6.4 IN THE BLASTIC PHASE. HIGHER NUMBERS OF METHYLATED GENES WERE ALSO OBSERVED IN PATIENTS RESISTANT OR INTOLERANT TO IMATINIB. THESE PATIENTS ALSO SHOWED ALMOST EXCLUSIVE METHYLATION OF A PUTATIVE TRANSPORTER OSCP1. ABNORMAL METHYLATION OF A SRC SUPPRESSOR GENE PDLIM4 WAS ASSOCIATED WITH SHORTENED SURVIVAL INDEPENDENTLY OF CML STAGE AND IMATINIB RESPONSIVENESS. WE CONCLUDE THAT ABERRANT DNA METHYLATION IS ASSOCIATED WITH CML PROGRESSION AND THAT DNA METHYLATION COULD BE A MARKER ASSOCIATED WITH IMATINIB RESISTANCE. FINALLY, DNA METHYLATION OF PDLIM4 MAY HELP IDENTIFY A SUBSET OF CML PATIENTS THAT WOULD BENEFIT FROM TREATMENT WITH SRC/ABL INHIBITORS.	2011	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
9 4839  44 ONCOGENIC ROLE AND TARGET PROPERTIES OF THE LYSINE-SPECIFIC DEMETHYLASE KDM1A IN CHRONIC LYMPHOCYTIC LEUKEMIA. IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), EPIGENETIC ALTERATIONS ARE CONSIDERED TO CENTRALLY SHAPE THE TRANSCRIPTIONAL SIGNATURES THAT DRIVE DISEASE EVOLUTION AND UNDERLIE ITS BIOLOGICAL AND CLINICAL SUBSETS. CHARACTERIZATIONS OF EPIGENETIC REGULATORS, PARTICULARLY HISTONE-MODIFYING ENZYMES, ARE VERY RUDIMENTARY IN CLL. IN EFFORTS TO ESTABLISH EFFECTORS OF THE CLL-ASSOCIATED ONCOGENE T-CELL LEUKEMIA 1A (TCL1A), WE IDENTIFIED HERE THE LYSINE-SPECIFIC HISTONE DEMETHYLASE KDM1A TO INTERACT WITH THE TCL1A PROTEIN IN B CELLS IN CONJUNCTION WITH AN INCREASED CATALYTIC ACTIVITY OF KDM1A. WE DEMONSTRATE THAT KDM1A IS UPREGULATED IN MALIGNANT B CELLS. ELEVATED KDM1A AND ASSOCIATED GENE EXPRESSION SIGNATURES CORRELATED WITH AGGRESSIVE DISEASE FEATURES AND ADVERSE CLINICAL OUTCOMES IN A LARGE PROSPECTIVE CLL TRIAL COHORT. GENETIC KDM1A KNOCKDOWN IN EMU-TCL1A MICE REDUCED LEUKEMIC BURDEN AND PROLONGED ANIMAL SURVIVAL, ACCOMPANIED BY UPREGULATED P53 AND PROAPOPTOTIC PATHWAYS. GENETIC KDM1A DEPLETION ALSO AFFECTED MILIEU COMPONENTS (T, STROMAL, AND MONOCYTIC CELLS), RESULTING IN SIGNIFICANT REDUCTIONS IN THEIR CAPACITY TO SUPPORT CLL-CELL SURVIVAL AND PROLIFERATION. INTEGRATED ANALYSES OF DIFFERENTIAL GLOBAL TRANSCRIPTOMES (RNA SEQUENCING) AND H3K4ME3 MARKS (CHROMATIN IMMUNOPRECIPITATION SEQUENCING) IN EMU-TCL1A VS IKDM1AKD;EMU-TCL1A MICE (CONFIRMED IN HUMAN CLL) IMPLICATE KDM1A AS AN ONCOGENIC TRANSCRIPTIONAL REPRESSOR IN CLL WHICH ALTERS HISTONE METHYLATION PATTERNS WITH PRONOUNCED EFFECTS ON DEFINED CELL DEATH AND MOTILITY PATHWAYS. FINALLY, PHARMACOLOGIC KDM1A INHIBITION ALTERED H3K4/9 TARGET METHYLATION AND REVEALED MARKED ANTI-B-CELL LEUKEMIC SYNERGISMS. OVERALL, WE ESTABLISHED THE PATHOGENIC ROLE AND EFFECTOR NETWORKS OF KDM1A IN CLL VIA TUMOR-CELL INTRINSIC MECHANISMS AND ITS IMPACTS IN CELLS OF THE MICROENVIRONMENT. OUR DATA ALSO PROVIDE RATIONALES TO FURTHER INVESTIGATE THERAPEUTIC KDM1A TARGETING IN CLL.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                   
10 3982  42 LONG-TERM EXPOSURE OF LEUKEMIA CELLS TO MULTI-TARGETED TYROSINE KINASE INHIBITOR INDUCES ACTIVATIONS OF AKT, ERK AND STAT5 SIGNALING VIA EPIGENETIC SILENCING OF THE PTEN GENE. IMATINIB INDUCES COMPLETE MOLECULAR RESPONSE IN PATIENTS WITH CHRONIC MYELOID LEUKEMIA (CML) AND CHRONIC EOSINOPHILIC LEUKEMIA (CEL). HOWEVER, DEVELOPMENT OF RESISTANCE TO IMATINIB HAS EMERGED AS AN IMPORTANT CLINICAL PROBLEM FOR MOLECULAR-TARGETED THERAPY IN CML AND CEL. IN THIS STUDY, WE HAVE ESTABLISHED THE IMATINIB-RESISTANT CEL EOL-1 SUB-LINES (DESIGNATED AS EOL-1R) BY CULTURING CELLS WITH INCREASING CONCENTRATIONS OF IMATINIB FOR 6 MONTHS. INTERESTINGLY, EOL-1R CELLS SHOWED EPIGENETIC SILENCING OF THE PHOSPHATASE AND TENSIN HOMOLOG DELETED ON CHROMOSOME TEN (PTEN) GENE. EXPOSURE OF EOL-1R CELLS TO IMATINIB FAILED TO DEPHOSPHORYLATE AKT, ERK AND STAT5, ALTHOUGH PDGFRALPHA WAS EFFECTIVELY INACTIVATED. THE FORCED EXPRESSION OF PTEN NEGATIVELY REGULATED THESE SIGNAL PATHWAYS AND SENSITIZED EOL-1R CELLS TO IMATINIB. NOTABLY, HYPERMETHYLATION OF THE PROMOTER REGION OF THE PTEN GENE IN ASSOCIATION WITH THE DOWNREGULATION OF THIS GENE'S TRANSCRIPTS WAS IDENTIFIED IN IMATINIB-RESISTANT LEUKEMIA CELLS ISOLATED FROM INDIVIDUALS WITH CEL, CML AND PHILADELPHIA-POSITIVE ACUTE LYMPHOBLASTIC LEUKEMIA. IN ADDITION, ANTI-EPIGENETIC AGENTS RESTORED PTEN EXPRESSION, RESULTING IN THE SENSITIZATION OF EOL-1R CELLS TO IMATINIB. TAKEN TOGETHER, EPIGENETIC SILENCE OF PTEN IS ONE OF THE MECHANISMS THAT CAUSE DRUG RESISTANCE IN INDIVIDUALS WITH LEUKEMIA AFTER EXPOSURE TO IMATINIB. ANTI-EPIGENETIC AGENTS MAY BE USEFUL FOR OVERCOMING DRUG RESISTANCE IN SUCH A CASE.	2010	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                  
11  149  38 ABERRANT HYDROXYMETHYLATION IN PROMOTER CPG REGIONS OF GENES RELATED TO THE CELL CYCLE AND APOPTOSIS CHARACTERIZES ADVANCED CHRONIC MYELOID LEUKEMIA DISEASE, POOR IMATINIB RESPONDENTS AND POOR SURVIVAL. BACKGROUND: THERE IS STRONG EVIDENCE THAT DISEASE PROGRESSION, DRUG RESPONSE AND OVERALL CLINICAL OUTCOMES OF CML DISEASE ARE NOT ONLY DECIDED BY BCR/ABL1 ONCOPROTEIN BUT DEPEND ON ACCUMULATION OF ADDITIONAL GENETIC AND EPIGENETIC ABERRATIONS. DNA HYDROXYMETHYLATION IS IMPLICATED IN THE DEVELOPMENT OF VARIETY OF DISEASES. DNA HYDROXYMETHYLATION IN GENE PROMOTERS PLAYS IMPORTANT ROLES IN DISEASE PROGRESSION, DRUG RESPONSE AND CLINICAL OUTCOME OF VARIOUS DISEASES. THEREFORE IN THIS STUDY, WE AIMED TO EXPLORE THE ROLE OF ABERRANT HYDROXYMETHYLATION IN PROMOTER REGIONS OF DIFFERENT TUMOR SUPPRESSOR GENES IN RELATION TO CML DISEASE PROGRESSION, RESPONSE TO IMATINIB THERAPY AND CLINICAL OUTCOME. METHODS: WE RECRUITED 150 CML PATIENTS AT DIFFERENT CLINICAL STAGES OF THE DISEASE. PATIENTS WERE FOLLOWED UP FOR 48 MONTHS AND HAEMATOLOGICAL/MOLECULAR RESPONSES WERE ANALYSED. HAEMATOLOGICAL RESPONSE WAS ANALYSED BY PERIPHERAL BLOOD SMEAR. BCR/ABL1 SPECIFIC TAQMAN PROBE BASED QRT-PCR WAS USED FOR ASSESSING THE MOLECULAR RESPONSE OF CML PATIENTS ON IMATINIB THERAPY. PROMOTER HYDROXYMETHYLATION OF THE GENES WAS CHARACTERIZED USING MS-PCR. RESULTS: WE OBSERVED THAT PROMOTER HYDROXYMETHYLATION OF DAPK1, RIZ1, P16INK4A, RASSF1A AND P14ARF(ARF) GENES CHARACTERIZE ADVANCED CML DISEASE AND POOR IMATINIB RESPONDENTS. ALTHOUGH, CYTOKINE SIGNALLING (SOCS1) GENE WAS HYPERMETHYLATED IN ADVANCED STAGES OF CML AND ACCUMULATED IN PATIENTS WITH POOR IMATINIB RESPONSE, BUT THE DIFFERENCES WERE NOT STATISTICALLY SIGNIFICANT. MOREOVER, WE FOUND HYPERMETHYLATION OF P14(ARF), RASSF1 AND P16(INK4A) GENES AND CYTOKINE SIGNALLING GENE (SOCS1) SIGNIFICANTLY ASSOCIATED WITH POOR OVERALL SURVIVAL OF CML PATIENTS ON IMATINIB THERAPY. THE RESULTS OF THIS STUDY ARE IN AGREEMENT OF THE ROLE OF ABERRANT DNA METHYLATION OF DIFFERENT TUMOR SUPPRESSOR GENES AS POTENTIAL BIOMARKERS OF CML DISEASE PROGRESSION, POOR IMATINIB RESPONSE AND OVERALL CLINICAL OUTCOME. CONCLUSION: IN THIS STUDY, WE REPORT THAT PROMOTER HYDROXYMETHYLATION OF DAPK1, RIZ1, P16INK4A, RASSF1A AND P14ARF(ARF) GENES IS A CHARACTERISTIC FEATURE OF CML DISEASE PROGRESSIONS, DEFINES POOR IMATINIB RESPONDENTS AND POOR OVERALL SURVIVAL OF CML PATIENTS TO IMATINIB THERAPY.	2022	

12 5458  39 RESEARCH ON EPIGENETIC MECHANISM OF SFRP2 IN ADVANCED CHRONIC MYELOID LEUKEMIA. SECRETED FRIZZLED-RELATED PROTEIN 2 (SFRP2) HAS BEEN REPORTED TO ACT AS A TUMOR SUPPRESSORS. THIS STUDY AIMS TO DETECT THE BIOLOGICAL ROLE OF SFRP2 IN ADVANCED CHRONIC MYELOID LEUKEMIA (CML). IN THIS STUDY WE EXAMINED BONE MARROW SAMPLES FROM 45 CML PATIENTS AND 10 HEALTHY DONORS. K562 AND KCL22 CELLS WERE CULTURED AND TREATED WITH DEMETHYLATION DRUG AND HISTONE DEACETYLASE INHIBITOR (HDACI). KCL22 AND K562 CELLS WERE TRANSFECTED WITH LENTIVIRAL VECTOR (LV)-SFRP2, LV-CONTROL. THE CELLS WERE THEN SUBJECTED TO PROLIFERATION AND APOPTOSIS ASSAYS, REAL TIME POLYMERASE CHAIN REACTION (PCR), METHYLATION-SPECIFIC PCR (MSP), WESTERN BLOTTING, CO-IMMUNOPRECIPITATION (COIP) AND CHROMATIN IMMUNOPRECIPITATION (CHIP), WE FOUND THAT SFRP2 WAS DOWN-REGULATED IN THE ACCELERATED AND BLAST PHASE OF CML, WHEREAS, THE LEVELS OF WNT1, WNT3 AND WNT5A WERE UP-REGULATED IN THE ACCELERATED AND BLAST PHASE OF CML. OVEREXPRESSION SFRP2 INHIBITED PROLIFERATION, PROMOTED APOPTOSIS AND ACTIVATED THE WNT PATHWAY. COIP-MS RESULTS SHOWED THAT SFRP2 INTERACTED WITH WNT1 AND WNT5A. CHIP-SEQ RESULT INDICATED THAT THE PROMOTER OF H3K4ME3 AND H3K27ME3 WERE ABLE TO INTERACT WITH SFRP2. IN CONCLUSION, OUR FINDINGS DEMONSTRATED THE SFRP2 ACT AS A POTENTIAL THERAPEUTIC TARGET FOR ADVANCED CML. FURTHERMORE, OUR RESULTS SUPPORT THE USE OF DEMETHYLATION DRUGS AND HDACI AS A POTENTIAL CML TREATMENT STRATEGY.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   
13 2971  21 GENETIC AND EPIGENETIC SILENCING OF MICRORNA-203 ENHANCES ABL1 AND BCR-ABL1 ONCOGENE EXPRESSION. THE MAMMALIAN GENOME CONTAINS SEVERAL HUNDRED MICRORNAS THAT REGULATE GENE EXPRESSION THROUGH MODULATION OF TARGET MRNAS. HERE, WE REPORT A FRAGILE CHROMOSOMAL REGION LOST IN SPECIFIC HEMATOPOIETIC MALIGNANCIES. THIS 7 MB REGION ENCODES ABOUT 12% OF ALL GENOMIC MICRORNAS, INCLUDING MIR-203. THIS MICRORNA IS ADDITIONALLY HYPERMETHYLATED IN SEVERAL HEMATOPOIETIC TUMORS, INCLUDING CHRONIC MYELOGENOUS LEUKEMIAS AND SOME ACUTE LYMPHOBLASTIC LEUKEMIAS. A PUTATIVE MIR-203 TARGET, ABL1, IS SPECIFICALLY ACTIVATED IN THESE HEMATOPOIETIC MALIGNANCIES IN SOME CASES AS A BCR-ABL1 FUSION PROTEIN (PHILADELPHIA CHROMOSOME). RE-EXPRESSION OF MIR-203 REDUCES ABL1 AND BCR-ABL1 FUSION PROTEIN LEVELS AND INHIBITS TUMOR CELL PROLIFERATION IN AN ABL1-DEPENDENT MANNER. THUS, MIR-203 FUNCTIONS AS A TUMOR SUPPRESSOR, AND RE-EXPRESSION OF THIS MICRORNA MIGHT HAVE THERAPEUTIC BENEFITS IN SPECIFIC HEMATOPOIETIC MALIGNANCIES.	2008	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
14 6238  32 THE MALIGNANCY SUPPRESSION ROLE OF MIR-23A BY TARGETING THE BCR/ABL ONCOGENE IN CHROMIC MYELOID LEUKEMIA. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE ROLE AND MECHANISM OF MIR-23A IN THE REGULATION OF BCR/ABL AND TO PROVIDE A NEW PROGNOSTIC BIOMARKER FOR CHRONIC MYELOID LEUKEMIA (CML). THE EXPRESSION LEVELS OF MIR-23A AND BCR/ABL WERE ASSESSED IN 42 NEWLY DIAGNOSED CML PATIENTS, 37 CML PATIENTS IN FIRST COMPLETE REMISSION AND 25 HEALTHY CONTROLS. QUANTITATIVE REAL-TIME PCR, WESTERN BLOT ANALYSIS AND COLONY FORMATION ASSAY WERE USED TO EVALUATE CHANGES INDUCED BY OVEREXPRESSION OR INHIBITION OF MIR-23A OR BCR/ABL. MIR-23A MIMIC OR NEGATIVE CONTROL MIMIC WAS TRANSFECTED INTO A CML CELL LINE (K562) AND TWO LUNG CANCER CELL LINES (H157 AND SKMES1) USING LIPOFECTAMINE 2000, AND THE CELLS WERE USED FOR REAL-TIME REVERSE TRANSCRIPTION-PCR (RT-PCR) AND WESTERN BLOT ANALYSIS. WE FOUND THAT THE DOWNREGULATION OF MIR-23A EXPRESSION WAS A FREQUENT EVENT IN BOTH LEUKEMIA CELL LINES AND PRIMARY LEUKEMIC CELLS FROM PATIENTS WITH DE NOVO CML. THE MICROARRAY RESULTS SHOWED THAT MOST OF THE CML PATIENTS EXPRESSED HIGH LEVELS OF BCR/ABL AND LOW LEVELS OF MIR-23A. REAL-TIME RT-PCR AND WESTERN BLOT ANALYSIS SHOWED THAT THE BCR/ABL LEVELS IN MIR-23A-TRANSFECTED CELLS WERE LOWER THAN THOSE IN THE CONTROL GROUPS. ECTOPIC EXPRESSION OF MIR-23A IN K562 CELLS LED TO CELLULAR SENESCENCE. MOREOVER, WHEN K562 CELLS WERE TREATED WITH 5-AZA-2'-DEOXYCYTIDINE, A DNA METHYLATION INHIBITOR, BCR/ABL EXPRESSION WAS UPREGULATED, WHICH INDICATES EPIGENETIC SILENCING OF MIR-23A IN LEUKEMIC CELLS. BCR/ABL AND MIR-23A EXPRESSIONS WERE INVERSELY RELATED TO CML, AND BCR/ABL EXPRESSION WAS REGULATED BY MIR-23A IN LEUKEMIC CELLS. THE EPIGENETIC SILENCING OF MIR-23A LED TO DEREPRESSION OF BCR/ABL EXPRESSION, AND CONSEQUENTLY CONTRIBUTES TO CML DEVELOPMENT AND PROGRESSION.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                           
15 3362  39 HISTONE LYSINE DEMETHYLASE KDM5B MAINTAINS CHRONIC MYELOID LEUKEMIA VIA MULTIPLE EPIGENETIC ACTIONS. THE HISTONE LYSINE DEMETHYLASE KDM5 FAMILY IS IMPLICATED IN NORMAL DEVELOPMENT AND STEM CELL MAINTENANCE BY EPIGENETIC MODULATION OF HISTONE METHYLATION STATUS. DEREGULATION OF THE KDM5 FAMILY HAS BEEN REPORTED IN VARIOUS TYPES OF CANCERS, INCLUDING HEMATOLOGICAL MALIGNANCIES. HOWEVER, THEIR TRANSCRIPTIONAL REGULATORY ROLES IN THE CONTEXT OF LEUKEMIA REMAIN UNCLEAR. HERE, WE FIND THAT KDM5B IS STRONGLY EXPRESSED IN NORMAL CD34(+) HEMATOPOIETIC STEM/PROGENITOR CELLS AND CHRONIC MYELOID LEUKEMIA (CML) CELLS. KNOCKDOWN OF KDM5B IN K562 CML CELLS REDUCED LEUKEMIA COLONY-FORMING POTENTIAL. TRANSCRIPTOME PROFILING OF KDM5B KNOCKDOWN K562 CELLS REVEALED THE DEREGULATION OF GENES INVOLVED IN MYELOID DIFFERENTIATION AND TOLL-LIKE RECEPTOR SIGNALING. THROUGH THE INTEGRATION OF TRANSCRIPTOME AND CHIP-SEQ PROFILING DATA, WE SHOW THAT KDM5B IS ENRICHED AT THE BINDING SITES OF THE GATA AND AP-1 TRANSCRIPTION FACTOR FAMILIES, SUGGESTING THEIR COLLABORATIONS IN THE REGULATION OF TRANSCRIPTION. EVEN THOUGH THE BINDING OF KDM5B SUBSTANTIALLY OVERLAPPED WITH H3K4ME1 OR H3K4ME3 MARK AT GENE PROMOTERS, ONLY A SMALL SUBSET OF THE KDM5B TARGETS SHOWED DIFFERENTIAL EXPRESSION IN ASSOCIATION WITH THE HISTONE DEMETHYLATION ACTIVITY. BY CHARACTERIZING THE INTERACTING PROTEINS IN K562 CELLS, WE DISCOVERED THAT KDM5B RECRUITS PROTEIN COMPLEXES INVOLVED IN THE MRNA PROCESSING MACHINERY, IMPLYING AN ALTERNATIVE EPIGENETIC ACTION MEDIATED BY KDM5B IN GENE REGULATION. OUR STUDY HIGHLIGHTS THE ONCOGENIC FUNCTIONS OF KDM5B IN CML CELLS AND SUGGESTS THAT KDM5B IS VITAL TO THE TRANSCRIPTIONAL REGULATION VIA MULTIPLE EPIGENETIC MECHANISMS.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
16 1968  32 EPIGENETIC ALTERATION OF THE SOCS1 GENE IN CHRONIC MYELOID LEUKAEMIA. THE EXPRESSION OF THE SUPPRESSOR OF CYTOKINE SIGNALLING-1 (SOCS1) PROTEIN IS INDUCED IN RESPONSE TO STIMULATION BY SEVERAL CYTOKINES. THE INDUCED SOCS1 INHIBITS THE SIGNALLING PATHWAY THROUGH THE ASSOCIATION WITH A VARIETY OF TYROSINE KINASE PROTEINS. IN THIS STUDY, THE MUTATION ANALYSES, CPG ISLAND METHYLATION STATUS, AND THE EXPRESSION OF THE SOCS1 GENE IN 112 CHRONIC MYELOID LEUKAEMIA (CML) SAMPLES, FIVE LEUKAEMIA CELL LINES, AND 30 NORMAL CONTROLS WERE ANALYSED. NO GENETIC MUTATIONS OF SOCS1 GENE WERE NOTED IN THE CML SAMPLES. THE SOCS1 GENE WAS HYPERMETHYLATED IN 67% AND 46% OF THE BLASTIC AND CHRONIC PHASE CML SAMPLES RESPECTIVELY (P < 0.0001). HOWEVER, THERE WAS NO METHYLATION OF THE SOCS1 GENE IN NORMAL CONTROLS OR CML IN MOLECULAR REMISSION. THE METHYLATION STATUS OF THE SOCS1 GENE IS CONSISTENT WITH THE RESULTS OF THE REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION AND IMMUNOCYTOCHEMISTRY STAINING. OUR RESULTS DEMONSTRATE THAT THE SOCS1 GENE SILENCING IS CAUSED BY THE METHYLATION OF CPG ISLANDS IN CML AND IS REVERSED TO AN UNMETHYLATED STATUS IN MOLECULAR REMISSION. AS SOCS1 HAS UNIVERSAL ACTIVITY TO NEGATIVELY REGULATE SEVERAL CYTOKINE SIGNALLING PATHWAYS, THE LOSS OF THE NEGATIVE REGULATION OF CYTOKINE SIGNALLING BY THE SOCS1 MAY PLAY A ROLE IN THE PATHOGENESIS OF CML PROGRESSION.	2003	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
17 6402  27 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   
18 3532  44 IMATINIB INDEPENDENT ABERRANT METHYLATION OF NOV/CCN3 IN CHRONIC MYELOGENOUS LEUKEMIA PATIENTS: A MECHANISM UPSTREAM OF BCR-ABL1 FUNCTION? BACKGROUND: THE NOV GENE PRODUCT, CCN3, HAS BEEN REPORTED IN A DIVERSE RANGE OF TUMORS TO SERVE AS A NEGATIVE GROWTH REGULATOR, WHILE ACTING AS A TUMOR SUPPRESSOR IN CHRONIC MYELOGENOUS LEUKEMIA (CML). HOWEVER, THE PRECISE MECHANISM OF ITS SILENCING IN CML IS POORLY UNDERSTOOD. IN THE CURRENT STUDY, WE AIMED TO QUERY IF THE GENE REGULATION OF CCN3 IS MEDIATED BY THE PROMOTER METHYLATION IN THE PATIENTS WITH CML. IN ADDITION, TO CLARIFY WHETHER THE EPIGENETIC SILENCING IS AFFECTED BY BCR-ABL1 INHIBITION, WE ASSESSED THE METHYLATION STATUS IN THE PATIENTS AT DIFFERENT TIME INTERVALS FOLLOWING THE TYROSINE KINASE INHIBITION USING IMATINIB THERAPY, AS THE FIRST-LINE TREATMENT FOR THIS TYPE OF LEUKEMIA. METHODS: TO ADDRESS THIS ISSUE, WE APPLIED BISULFITE-SEQUENCING TECHNIQUE AS A HIGH-RESOLUTION METHOD TO STUDY THE REGULATORY SEGMENT OF THE CCN3 GENE. THE RESULTS WERE ANALYZED IN NEWLY DIAGNOSED CML PATIENTS AS WELL AS FOLLOWING IMATINIB THERAPY. WE ALSO EVALUATED THE CORRELATION OF CCN3 PROMOTER METHYLATION WITH BCR-ABL1 LEVELS. RESULTS: OUR FINDINGS REVEALED THAT THE METHYLATION OCCURS FREQUENTLY IN THE PROMOTER REGION OF CML PATIENTS SHOWING A SIGNIFICANT INCREASE OF THE METHYLATED PERCENTAGE AT THE CPG SITES COMPARED TO NORMAL INDIVIDUALS. INTERESTINGLY, THIS HYPERMETHYLATION WAS INDICATED TO BE INDEPENDENT OF BCR-ABL1 TITERS IN BOTH GROUPS, WHICH MIGHT SUGGEST A MECHANISM BEYOND THE BCR-ABL1 FUNCTION. CONCLUSION: DESPITE SUGGESTING THAT THE CCN3 HYPERMETHYLATION ACTS AS A MOLECULAR MECHANISM INDEPENDENT OF BCR-ABL1 FUNCTION IN CML PATIENTS, THIS SCENARIO REQUIRES FURTHER VALIDATION BY COMPLEMENTARY EXPERIMENTS. IN THE CASE OF ACTING UPSTREAM OF BCR-ABL1 SIGNALING, THE METHYLATION MARKER CAN PROVIDE EARLY DETECTION AND A NOVEL PLATFORM FOR TARGETED EPIGENETIC MODIFIERS FOR EFFICIENT TREATMENT IN IMATINIB RESISTANT PATIENTS.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                  
19 1660  32 DOWN-REGULATION OF HEMATOPOIESIS MASTER REGULATOR PU.1 VIA ABERRANT METHYLATION IN CHRONIC MYELOID LEUKEMIA. THE PU.1 TRANSCRIPTION FACTOR IS A CRUCIAL REGULATOR OF HEMATOPOIESIS, AND ITS EXPRESSION IS ALTERED IN VARIOUS LEUKEMIC PROCESSES. IT HAS BEEN SHOWN THAT EXPRESSION OF PU.1 IS SEVERELY IMPAIRED IN PATIENTS WITH CHRONIC MYELOID LEUKEMIA (CML), BUT THE MECHANISM UNDERLYING THIS EFFECT REMAINS UNKNOWN. THROUGH BISULFITE SEQUENCING, SEMI-QUANTITATIVE PCR, AND INDIRECT IMMUNOFLUORESCENCE AND WESTERN BLOT TECHNIQUES, WE FOUND ABERRANT METHYLATION IN THE PROMOTER REGION OF TRANSCRIPTION FACTOR PU.1 IN CML PATIENTS BOTH IN THE CHRONIC AND BLAST CRISIS PHASES, AS WELL AS IN THE CML BLAST K562 CELL LINE. OF THESE, SEVERAL CPG SITES WERE MORE HIGHLY METHYLATED IN BLAST CRISIS THAN CHRONIC PHASE, WHILE NO METHYLATION OF THESE SITES WAS OBSERVED IN HEALTHY INDIVIDUALS. INTERESTINGLY, CML PATIENTS ACHIEVED COMPLETE CYTOGENETIC REMISSION UNDER IMATINIB MESYLATE TREATMENT, BUT THE ABERRANT METHYLATION STATUS OF PU.1 WAS NOT REVERSED. DOWN-REGULATION OF PU.1 EXPRESSION AT THE MRNA AND PROTEIN LEVELS WAS ALSO OBSERVED IN ASSOCIATION WITH ABERRANT METHYLATION. THUS, FOR THE FIRST TIME, WE HAVE REVEALED A POTENTIAL EPIGENETIC MODIFICATION OF PU.1 IN CML, WHICH MAY BE RESPONSIBLE FOR THE DOWN-REGULATION OF PU.1. THESE DATA SUGGEST THAT ABERRANT METHYLATION OF PU.1 MAY PLAY A ROLE IN CML PATHOGENESIS, AND MAY THEREFORE SERVE AS A USEFUL BIOMARKER AND POTENTIAL TARGET FOR DEMETHYLATING DRUGS.	2012	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              
20 3415  39 HSP90 INHIBITION INCREASES SOCS3 TRANSCRIPT AND REGULATES MIGRATION AND CELL DEATH IN CHRONIC LYMPHOCYTIC LEUKEMIA. EPIGENETIC OR TRANSCRIPTIONAL SILENCING OF IMPORTANT TUMOR SUPPRESSORS HAS BEEN DESCRIBED TO CONTRIBUTE TO CELL SURVIVAL AND TUMORIGENESIS IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). USING GENE EXPRESSION MICROARRAY ANALYSIS, WE FOUND THAT THOUSANDS OF GENES ARE REPRESSED MORE THAN 2-FOLD IN CLL COMPARED TO NORMAL B CELLS; HOWEVER THERAPEUTIC APPROACHES TO REVERSE THIS HAVE BEEN LIMITED IN CLL. FOLLOWING TREATMENT WITH THE HSP90 INHIBITOR 17-DMAG, A SIGNIFICANT NUMBER OF THESE REPRESSED GENES WERE SIGNIFICANTLY RE-EXPRESSED. ONE OF THE GENES SIGNIFICANTLY REPRESSED IN CLL AND UP-REGULATED BY 17-DMAG WAS SUPPRESSOR OF CYTOKINE SIGNALING 3, (SOCS3). SOCS3 HAS BEEN SHOWN TO BE SILENCED IN SOLID TUMORS AS WELL AS MYELOID LEUKEMIA; HOWEVER LITTLE IS KNOWN ABOUT THE REGULATION IN CLL. WE FOUND THAT 17-DMAG INDUCES EXPRESSION OF SOCS3 BY VIA THE ACTIVATION OF P38 SIGNALING, AND SUBSEQUENTLY INHIBITS AKT AND STAT3 PHOSPHORYLATION RESULTING IN DOWNSTREAM EFFECTS ON CELL MIGRATION AND SURVIVAL. WE THEREFORE SUGGEST THAT SOCS3 IS AN IMPORTANT SIGNALING PROTEIN IN CLL, AND HSP90 INHIBITORS REPRESENT A NOVEL APPROACH TO TARGET TRANSCRIPTIONAL REPRESSION IN B CELL LYMPHOPROLIFERATIVE DISORDERS WHICH EXHIBIT A SUBSTANTIAL DEGREE OF GENE REPRESSION.	2016