1 6688 119 VALPROATE SYNERGIZES WITH PURINE NUCLEOSIDE ANALOGUES TO INDUCE APOPTOSIS OF B-CHRONIC LYMPHOCYTIC LEUKAEMIA CELLS. RESISTANCE TO CHEMOTHERAPY AND DRUG TOXICITY ARE TWO MAJOR CONCERNS OF CHRONIC LYMPHOCYTIC LEUKAEMIA (B-CLL) TREATMENT BY PURINE NUCLEOSIDE ANALOGUES (PNA, I.E. FLUDARABINE AND CLADRIBINE). WE HYPOTHESIZED THAT TARGETING EPIGENETIC CHANGES MIGHT ADDRESS THESE ISSUES AND EVALUATED THE EFFECT OF THE HISTONE DEACETYLASE INHIBITOR VALPROATE (VPA) AT A CLINICALLY RELEVANT CONCENTRATION. VPA ACTED IN A HIGHLY SYNERGISTIC/ADDITIVE MANNER WITH FLUDARABINE AND CLADRIBINE TO INDUCE APOPTOSIS OF B-CLL CELLS. IMPORTANTLY, VPA ALSO RESTORED SENSITIVITY TO FLUDARABINE IN B CELLS FROM POOR PROGNOSIS CLL PATIENTS WHO BECAME RESISTANT TO CHEMOTHERAPY. MECHANISM OF APOPTOSIS INDUCED BY VPA ALONE OR COMBINED WITH FLUDARABINE OR TO CLADRIBINE WAS CASPASE-DEPENDENT AND INVOLVED THE EXTRINSIC PATHWAY. VPA, BUT NEITHER FLUDARABINE NOR CLADRIBINE, ENHANCED THE PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS) AND INHIBITION OF ROS WITH N-ACETYLCYSTEINE DECREASES APOPTOSIS OF CLL CELLS. VPA STIMULATES HYPERPHOSPHORYLATION OF P42/P44 ERK, CYTOCHROME C RELEASE AND OVEREXPRESSION OF BAX AND FAS. TOGETHER, OUR DATA INDICATE THAT VPA MAY AMELIORATE THE OUTCOME OF PNA-BASED THERAPEUTIC PROTOCOLS AND PROVIDE A POTENTIAL ALTERNATIVE TREATMENT IN BOTH THE RELAPSED AND FRONT-LINE RESISTANT PATIENTS AND IN PATIENTS WITH HIGH RISK FEATURES. 2009 2 6068 24 THE DIET AS A CAUSE OF HUMAN PROSTATE CANCER. ASYMPTOMATIC PROSTATE INFLAMMATION AND PROSTATE CANCER HAVE REACHED EPIDEMIC PROPORTIONS AMONG MEN IN THE DEVELOPED WORLD. ANIMAL MODEL STUDIES IMPLICATE DIETARY CARCINOGENS, SUCH AS THE HETEROCYCLIC AMINES FROM OVER-COOKED MEATS AND SEX STEROID HORMONES, PARTICULARLY ESTROGENS, AS CANDIDATE ETIOLOGIES FOR PROSTATE CANCER. EACH ACTS BY CAUSING EPITHELIAL CELL DAMAGE, TRIGGERING AN INFLAMMATORY RESPONSE THAT CAN EVOLVE INTO A CHRONIC OR RECURRENT CONDITION. THIS MILIEU APPEARS TO SPAWN PROLIFERATIVE INFLAMMATORY ATROPHY (PIA) LESIONS, A TYPE OF FOCAL ATROPHY THAT REPRESENTS THE EARLIEST OF PROSTATE CANCER PRECURSOR LESIONS. RARE PIA LESIONS CONTAIN CELLS WHICH EXHIBIT HIGH C-MYC EXPRESSION, SHORTENED TELOMERE SEGMENTS, AND EPIGENETIC SILENCING OF GENES SUCH AS GSTP1, ENCODING THE PI-CLASS GLUTATHIONE S-TRANSFERASE, ALL CHARACTERISTIC OF PROSTATIC INTRAEPITHELIAL NEOPLASIA (PIN) AND PROSTATE CANCER. SUBSEQUENT GENETIC CHANGES, SUCH AS THE GENE TRANSLOCATIONS/DELETIONS THAT GENERATE FUSION TRANSCRIPTS BETWEEN ANDROGEN-REGULATED GENES (SUCH AS TMPRSS2) AND GENES ENCODING ETS FAMILY TRANSCRIPTION FACTORS (SUCH AS ERG1), ARISE IN PIN LESIONS AND MAY PROMOTE INVASIVENESS CHARACTERISTIC OF PROSTATIC ADENOCARCINOMA CELLS. LETHAL PROSTATE CANCERS CONTAIN MARKEDLY CORRUPTED GENOMES AND EPIGENOMES. EPIGENETIC SILENCING, WHICH SEEMS TO ARISE IN RESPONSE TO THE INFLAMED MICROENVIRONMENT GENERATED BY DIETARY CARCINOGENS AND/OR ESTROGENS AS PART OF AN EPIGENETIC "CATASTROPHE" AFFECTING HUNDREDS OF GENES, PERSISTS TO DRIVE CLONAL EVOLUTION THROUGH METASTATIC DISSEMINATION. THE CAUSE OF THE INITIAL EPIGENETIC "CATASTROPHE" HAS NOT BEEN DETERMINED BUT LIKELY INVOLVES DEFECTIVE CHROMATIN STRUCTURE MAINTENANCE BY OVER-EXUBERANT DNA METHYLATION OR HISTONE MODIFICATION. WITH DIETARY CARCINOGENS AND ESTROGENS DRIVING PRO-CARCINOGENIC INFLAMMATION IN THE DEVELOPED WORLD, IT IS TEMPTING TO SPECULATE THAT DIETARY COMPONENTS ASSOCIATED WITH DECREASED PROSTATE CANCER RISK, SUCH AS INTAKE OF FRUITS AND VEGETABLES, ESPECIALLY TOMATOES AND CRUCIFERS, MIGHT ACT TO ATTENUATE THE RAVAGES OF THE CHRONIC OR RECURRENT INFLAMMATORY PROCESSES. SPECIFICALLY, NUTRITIONAL AGENTS MIGHT PREVENT PIA LESIONS OR REDUCE THE PROPENSITY OF PIA LESIONS TO SUFFER "CATASTROPHIC" EPIGENOME CORRUPTION. 2014 3 5849 36 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 4 439 35 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 5 3175 31 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 6 329 23 ALPHA-OXOGLUTARATE INHIBITS THE PROLIFERATION OF IMMORTALIZED NORMAL BLADDER EPITHELIAL CELLS VIA AN EPIGENETIC SWITCH INVOLVING ARID1A. INTERSTITIAL CYSTITIS (IC) IS A CHRONIC URINARY TRACT DISEASE THAT IS CHARACTERIZED BY UNPLEASANT SENSATIONS, SUCH AS PERSISTENT PELVIC PAIN, IN THE ABSENCE OF INFECTION OR OTHER IDENTIFIABLE CAUSES. WE PREVIOUSLY PERFORMED COMPREHENSIVE METABOLOMICS PROFILING OF URINE SAMPLES FROM IC PATIENTS USING NUCLEAR MAGNETIC RESONANCE AND GAS-CHROMATOGRAPHY/MASS SPECTROMETRY AND FOUND THAT URINARY ALPHA-OXOGLUTARATE (ALPHA-OG), WAS SIGNIFICANTLY ELEVATED. ALPHA-OG, A TRICARBOXYLIC ACID (TCA) CYCLE INTERMEDIATE, REPORTEDLY FUNCTIONS TO SUPPRESS THE PROLIFERATION OF IMMORTALIZED NORMAL HUMAN BLADDER EPITHELIAL CELLS. HERE, WE IDENTIFIED AT-RICH INTERACTIVE DOMAIN 1 A (ARID1A), A KEY CHROMATIN REMODELER, AS BEING HYPOMETHYLATED AND UPREGULATED BY ALPHA-OG TREATMENT. THIS WAS DONE THROUGH EPIC DNA METHYLATION PROFILING AND SUBSEQUENT BIOCHEMICAL APPROACHES, INCLUDING QUANTITATIVE RT-PCR AND WESTERN BLOT ANALYSES. FURTHERMORE, WE FOUND THAT ALPHA-OG ALMOST COMPLETELY SUPPRESSES TEN-ELEVEN TRANSLOCATION (TET) ACTIVITY, BUT DOES NOT AFFECT DNA METHYLTRANSFERASE (DNMT) ACTIVITY. ALTOGETHER, OUR STUDIES REVEAL THE POTENTIAL ROLE OF ALPHA-OG IN EPIGENETIC REMODELING THROUGH ITS EFFECTS ON ARID1A AND TET EXPRESSION IN THE BLADDER. THIS MAY PROVIDE A NEW POSSIBLE THERAPEUTIC STRATEGY IN TREATING IC. 2018 7 6444 32 THERAPEUTIC ASPECTS OF C-MYC SIGNALING IN INFLAMMATORY AND CANCEROUS COLONIC DISEASES. COLONIC INFLAMMATION IS REQUIRED TO HEAL INFECTIONS, WOUNDS, AND MAINTAIN TISSUE HOMEOSTASIS. AS THE SEVENTH HALLMARK OF CANCER, HOWEVER, IT MAY AFFECT ALL PHASES OF TUMOR DEVELOPMENT, INCLUDING TUMOR INITIATION, PROMOTION, INVASION AND METASTATIC DISSEMINATION, AND ALSO EVASION IMMUNE SURVEILLANCE. INFLAMMATION ACTS AS A CELLULAR STRESSOR AND MAY TRIGGER DNA DAMAGE OR GENETIC INSTABILITY, AND, FURTHER, CHRONIC INFLAMMATION CAN PROVOKE GENETIC MUTATIONS AND EPIGENETIC MECHANISMS THAT PROMOTE MALIGNANT CELL TRANSFORMATION. BOTH SPORADICAL AND COLITIS-ASSOCIATED COLORECTAL CARCINOGENESIS ARE MULTI-STEP, COMPLEX PROCESSES ARISING FROM THE UNCONTROLLED PROLIFERATION AND SPREADING OF MALIGNANTLY TRANSFORMED CELL CLONES WITH THE OBVIOUS ABILITY TO EVADE THE HOST'S PROTECTIVE IMMUNITY. IN CELLS UPON DNA DAMAGE SEVERAL PROTO-ONCOGENES, INCLUDING C-MYC ARE ACTIVATED IN PARELELL WITH THE INACTIVATION OF TUMOR SUPPRESSOR GENES. THE TARGET GENES OF THE C-MYC PROTEIN PARTICIPATE IN DIFFERENT CELLULAR FUNCTIONS, INCLUDING CELL CYCLE, SURVIVAL, PROTEIN SYNTHESIS, CELL ADHESION, AND MICRO-RNA EXPRESSION. THE TRANSCRIPTIONAL PROGRAM REGULATED BY C-MYC IS CONTEXT DEPENDENT, THEREFORE THE FINAL CELLULAR RESPONSE TO ELEVATED C-MYC LEVELS MAY RANGE FROM INCREASED PROLIFERATION TO AUGMENTED APOPTOSIS. CONSIDERING PHYSIOLOGICAL INTESTINAL HOMEOSTASIS, C-MYC DISPLAYS A FUNDAMENTAL ROLE IN THE REGULATION OF CELL PROLIFERATION AND CRYPT CELL NUMBER. HOWEVER, C-MYC GENE IS FREQUENTLY DEREGULATED IN INFLAMMATION, AND OVEREXPRESSED IN BOTH SPORADIC AND COLITIS-ASSOCIATED COLON ADENOCARCINOMAS. RECENT RESULTS DEMONSTRATED THAT ENDOGENOUS C-MYC IS ESSENTIAL FOR EFFICIENT INDUCTION OF P53-DEPENDENT APOPTOSIS FOLLOWING DNA DAMAGE, BUT C-MYC FUNCTION IS ALSO INVOLVED IN AND REGULATED BY AUTOPHAGY-RELATED MECHANISMS, WHILE ITS EXPRESSION IS AFFECTED BY DNA-METHYLATION, OR HISTONE ACETYLATION. MOLECULES DIRECTLY TARGETING C-MYC, OR AGENTS ACTING ON OTHER GENES INVOLVED IN THE C-MYC PATHWAY COULD BE SELECTED FOR COMBINED REGIMENTS. HOWEVER, DUE TO ITS CONTEXT-DEPENDENT CELLULAR FUNCTION, IT IS CLINICALLY ESSENTIAL TO CONSIDER WHICH CYTOTOXIC DRUGS ARE USED IN COMBINATION WITH C-MYC TARGETED AGENTS IN VARIOUS TISSUES. INCREASING OUR KNOWLEDGE ABOUT MYC-DEPENDENT PATHWAYS MIGHT PROVIDE DIRECTION TO NOVEL ANTI-INFLAMMATORY AND COLORECTAL CANCER THERAPIES. 2016 8 2302 31 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 9 826 27 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 10 6171 27 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 11 6166 26 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 12 1036 26 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 13 1287 26 DECITABINE-INDUCED APOPTOSIS IS DERIVED BY PUMA AND NOXA INDUCTION IN CHRONIC MYELOID LEUKEMIA CELL LINE AS WELL AS IN PBL AND IS POTENTIATED BY SAHA. RESTORATION OF CELLULAR APOPTOTIC PATHWAYS PLAYS A CRUCIAL ROLE IN CANCER THERAPY STRATEGIES. IN A BROAD SPECTRUM OF ANTICANCER DRUGS, EPIGENETIC EFFECTORS ARE IN THE CENTER OF INTEREST MOSTLY BECAUSE OF POTENTIAL REVERSIBILITY OF THEIR ACTION. METHYLATION STATUS OF THE CELLS IS INFLUENCED BY METHYLTRANSFERASE INHIBITOR 2-DEOXY-5'-AZACYTIDINE (DECITABINE, DAC), BUT HIGHER CONCENTRATIONS OF THIS AGENT CAUSE A DNA-DAMAGE. IN OUR STUDY, TUMOR SUPRESSOR P53-APOPTOTIC PATHWAY WAS ACTIVATED IN DECITABINE-INDUCED CELL DEATH. EXPRESSION OF P53-INDUCIBLE BH3-ONLY APOPTOTIC PROTEINS PUMA AND NOXA WAS ELEVATED AND LARGE ACTIVATION OF EXECUTIVE CASPASES WAS OBSERVED. THE EXTENT OF ACETYLATION IN THE CELL IS AFFECTED BY HISTONEDEACETYLASE INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA). COMBINATION OF SAHA WITH DECITABINE BROUGHT SYNERGISTIC EFFECT ON APOPTOSIS TRIGGERING IN CML-T1 CELL LINE, BUT APOPTOSIS AS WELL AS NECROSIS OCCURRED ALSO IN NORMAL PERIPHERAL BLOOD LYMPHOCYTES. THEREFORE, PROMISING POTENTIAL OF SUCH COMBINED THERAPY CALLS FOR MORE DETAILED INVESTIGATION OF UNWANTED EFFECTS IN NORMAL CELLS. 2011 14 6201 21 THE INFLAMMATORY MICROENVIRONMENT AND MICROBIOME IN PROSTATE CANCER DEVELOPMENT. CHRONIC INFLAMMATION PROMOTES THE DEVELOPMENT OF SEVERAL TYPES OF SOLID CANCERS AND MIGHT CONTRIBUTE TO PROSTATE CARCINOGENESIS. THIS HYPOTHESIS PARTLY ORIGINATES IN THE FREQUENT OBSERVATION OF INFLAMMATORY CELLS IN THE PROSTATE MICROENVIRONMENT OF ADULT MEN. INFLAMMATION IS ASSOCIATED WITH PUTATIVE PROSTATE CANCER PRECURSOR LESIONS, TERMED PROLIFERATIVE INFLAMMATORY ATROPHY. INFLAMMATION MIGHT DRIVE PROSTATE CARCINOGENESIS VIA OXIDATIVE STRESS AND GENERATION OF REACTIVE OXYGEN SPECIES THAT INDUCE MUTAGENESIS. ADDITIONALLY, INFLAMMATORY STRESS MIGHT CAUSE EPIGENETIC ALTERATIONS THAT PROMOTE NEOPLASTIC TRANSFORMATION. PROLIFERATIVE INFLAMMATORY ATROPHY IS ENRICHED FOR PROLIFERATIVE LUMINAL EPITHELIAL CELLS OF INTERMEDIATE PHENOTYPE THAT MIGHT BE PRONE TO GENOMIC ALTERATIONS LEADING TO PROSTATIC INTRAEPITHELIAL NEOPLASIA AND PROSTATE CANCER. STUDIES IN ANIMALS SUGGEST THAT INFLAMMATORY CHANGES IN THE PROSTATE MICROENVIRONMENT CONTRIBUTE TO REPROGRAMMING OF PROSTATE EPITHELIAL CELLS, A POSSIBLE STEP IN TUMOUR INITIATION. PROSTATIC INFECTION, CONCURRENT WITH EPITHELIAL BARRIER DISRUPTION, MIGHT BE A KEY DRIVER OF AN INFLAMMATORY MICROENVIRONMENT; THE DISCOVERY OF A URINARY MICROBIOME INDICATES A POTENTIAL SOURCE OF FREQUENT EXPOSURE OF THE PROSTATE TO A DIVERSE NUMBER OF MICROORGANISMS. HENCE, CURRENT EVIDENCE SUGGESTS THAT INFLAMMATION AND ATROPHY ARE INVOLVED IN PROSTATE CARCINOGENESIS AND SUGGESTS A ROLE FOR THE MICROBIOME IN ESTABLISHING AN INFLAMMATORY PROSTATE MICROENVIRONMENT THAT MIGHT PROMOTE PROSTATE CANCER DEVELOPMENT AND PROGRESSION. 2018 15 709 31 C-MYC ONCOPROTEIN DICTATES TRANSCRIPTIONAL PROFILES OF ATP-BINDING CASSETTE TRANSPORTER GENES IN CHRONIC MYELOGENOUS LEUKEMIA CD34+ HEMATOPOIETIC PROGENITOR CELLS. RESISTANCE TO CHEMOTHERAPEUTIC AGENTS REMAINS ONE OF THE MAJOR IMPEDIMENTS TO A SUCCESSFUL TREATMENT OF CHRONIC MYELOID LEUKEMIA (CML). MISREGULATION OF THE ACTIVITY OF A SPECIFIC GROUP OF ATP-BINDING CASSETTE TRANSPORTERS (ABC) IS RESPONSIBLE FOR REDUCING THE INTRACELLULAR CONCENTRATION OF DRUGS IN LEUKEMIC CELLS. MOREOVER, A CONSISTENT BODY OF EVIDENCE ALSO SUGGESTS THAT ABC TRANSPORTERS PLAY A ROLE IN CANCER PROGRESSION BEYOND THE EFFLUX OF CYTOTOXIC DRUGS. DESPITE A LARGE NUMBER OF STUDIES THAT INVESTIGATED THE FUNCTION OF THE ABC TRANSPORTERS, LITTLE IS KNOWN ABOUT THE TRANSCRIPTIONAL REGULATION OF THE ABC GENES. HERE, WE PRESENT DATA SHOWING THAT THE ONCOPROTEIN C-MYC IS A DIRECT TRANSCRIPTIONAL REGULATOR OF A LARGE SET OF ABC TRANSPORTERS IN CML. FURTHERMORE, MOLECULAR ANALYSIS CARRIED OUT IN CD34+ HEMATOPOIETIC CELL PRECURSORS OF 21 CML PATIENTS REVEALS THAT THE OVEREXPRESSION OF ABC TRANSPORTERS DRIVEN BY C-MYC IS A PECULIAR CHARACTERISTIC OF THE CD34+ POPULATION IN CML AND WAS NOT FOUND EITHER IN THE POPULATION OF MONONUCLEAR CELLS FROM WHICH THEY HAD BEEN PURIFIED NOR IN CD34+ CELLS ISOLATED FROM HEALTHY DONORS. FINALLY, WE DESCRIBE HOW THE METHYLATION STATE OF CPG ISLANDS MAY REGULATE THE ACCESS OF C-MYC TO ABCG2 GENE PROMOTER, A WELL-STUDIED GENE ASSOCIATED WITH MULTIDRUG RESISTANCE IN CML, HENCE, AFFECTING ITS EXPRESSION. TAKEN TOGETHER, OUR FINDINGS SUPPORT A MODEL IN WHICH C-MYC-DRIVEN TRANSCRIPTIONAL EVENTS, COMBINED WITH EPIGENETIC MECHANISMS, DIRECT AND REGULATE THE EXPRESSION OF ABC GENES WITH POSSIBLE IMPLICATIONS IN TUMOR MALIGNANCY AND DRUG EFFLUX IN CML. 2011 16 2326 32 EPIGENETIC REGULATION OF HOTAIR IN ADVANCED CHRONIC MYELOID LEUKEMIA. PURPOSE: CHRONIC MYELOID LEUKEMIA (CML) ACCOUNTS FOR ~10% OF LEUKEMIA CASES, AND ITS PROGRESSION INVOLVES EPIGENETIC GENE REGULATION. THIS STUDY INVESTIGATED EPIGENETIC REGULATION OF HOTAIR AND ITS TARGET MICRORNA, MIR-143, IN ADVANCED CML. PATIENTS AND METHODS: WE FIRST ISOLATED BONE MARROW MONONUCLEAR CELLS FROM 70 PATIENTS WITH DIFFERENT PHASES OF CML AND FROM HEALTHY DONORS AS NORMAL CONTROL; WE ALSO CULTURED K562 AND KCL22 CELLS, TREATED WITH DEMETHYLATION DRUG; MTT ASSAY, FLOW CYTOMETRY, QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION (QPCR), METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP), WESTERN BLOT, LUCIFERASE ASSAY, RNA PULL-DOWN ASSAY AND RNA-BINDING PROTEIN IMMUNOPRECIPITATION (RIP) ASSAY WERE PERFORMED. RESULT: AS MEASURED BY QPCR, HOTAIR EXPRESSION IN K562 CELLS, KCL22 CELLS, AND SAMPLES FROM CASES OF ADVANCED-STAGE CML INCREASED WITH LEVELS OF SEVERAL DNA METHYLTRANSFERASES AND HISTONE DEACETYLATES, INCLUDING DNMT1, DNMT3A, HDAC1, EZH2, AND LSD1, AND MIR-143 LEVELS WERE DECREASED AND HOTAIR LEVELS WERE INCREASED. TREATMENT WITH 5-AZACYTIDINE, A DNA METHYLATION INHIBITOR, DECREASED DNMT1, DNMT3A, HDAC1, EZH2, LSD1 MRNA, PROTEIN LEVELS, AND HOTAIR MRNA LEVELS BUT INCREASED MIR-143 LEVELS. HOTAIR KNOCKDOWN AND MIR-143 OVEREXPRESSION BOTH INHIBITED PROLIFERATION AND PROMOTED APOPTOSIS IN KCL22 AND K562 CELLS THROUGH THE PI3K/AKT PATHWAY. RNA PULL-DOWN, MASS SPECTROMETRY, AND RIP ASSAYS SHOWED THAT HOTAIR INTERACTED WITH EZH2 AND LSD1. A DUAL-LUCIFERASE ASSAY DEMONSTRATED THAT HOTAIR INTERACTED WITH MIR-143. CONCLUSION: OUR FINDINGS DEMONSTRATE THE KEY EPIGENETIC INTERACTIONS OF HOTAIR RELATED TO CML PROGRESSION AND SUGGEST HOTAIR AS A POTENTIAL THERAPEUTIC TARGET FOR ADVANCED CML. FURTHERMORE, OUR RESULTS SUPPORT THE USE OF DEMETHYLATION DRUGS AS A CML TREATMENT STRATEGY. 2018 17 2656 18 EPIMUTATION AND CANCER: A NEW CARCINOGENIC MECHANISM OF LYNCH SYNDROME (REVIEW). EPIMUTATION IS DEFINED AS ABNORMAL TRANSCRIPTIONAL REPRESSION OF ACTIVE GENES AND/OR ABNORMAL ACTIVATION OF USUALLY REPRESSED GENES CAUSED BY ERRORS IN EPIGENETIC GENE REPRESSION. EPIMUTATION ARISES IN SOMATIC CELLS AND THE GERMLINE, AND CONSTITUTIONAL EPIMUTATION MAY ALSO OCCUR. EPIMUTATION IS THE FIRST STEP OF TUMORIGENESIS AND CAN BE A DIRECT CAUSE OF CARCINOGENESIS. CANCERS ASSOCIATED WITH EPIMUTATION INCLUDE LYNCH SYNDROME (HEREDITARY NON-POLYPOSIS COLORECTAL CANCER, HNPCC), CHRONIC LYMPHOCYTIC LEUKEMIA, BREAST CANCER AND OVARIAN CANCER. EPIMUTATION HAS BEEN SHOWN FOR MANY TUMOR SUPPRESSOR GENES, INCLUDING RB, VHL, HMLH1, APC AND BRCA1, IN SPORADIC CANCERS. METHYLATION HAS RECENTLY BEEN SHOWN IN DNA FROM NORMAL TISSUES AND PERIPHERAL BLOOD IN CASES OF SPORADIC COLORECTAL CANCER AND MANY STUDIES SHOW CONSTITUTIVE EPIMUTATION IN CANCERS. EPIMUTATION OF DNA MISMATCH REPAIR (MMR) GENES (BRCA1, HMLH1 AND HMSH2) INVOLVED IN DEVELOPMENT FAMILIAL CANCERS HAS ALSO BEEN FOUND. THESE RESULTS HAVE LED TO A FOCUS ON EPIMUTATION AS A NOVEL ONCOGENIC MECHANISM. 2012 18 5057 20 PHENOBARBITAL MECHANISTIC DATA AND RISK ASSESSMENT: ENZYME INDUCTION, ENHANCED CELL PROLIFERATION, AND TUMOR PROMOTION. CHRONIC EXPOSURE TO HIGH DOSES OF PHENOBARBITAL (PB) CAUSES HEPATOCELLULAR ADENOMAS IN BOTH MICE AND RATS AND HEPATOCELLULAR CARCINOMAS IN SOME STRAINS OF MICE. LONG-TERM PB THERAPY HAS NOT BEEN FOUND TO CAUSE HUMAN TUMORS. PB IS NOT DNA REACTIVE, AND MOST GENOTOXICITY TESTS HAVE YIELDED NEGATIVE RESULTS. PB HAS BEEN EXTENSIVELY STUDIED AS AN EPIGENETIC, RODENT LIVER TUMOR PROMOTER. AT EXPOSURES CAUSING RODENT LIVER TUMORS, PB HAS MEASURABLE EFFECTS ON HEPATOCYTES: PB INHIBITS CELL-TO-CELL COMMUNICATION; PB INDUCES ENZYMES, INCLUDING P450 CYTOCHROMES; PB STIMULATES PROLIFERATION AND INHIBITS APOPTOSIS OF HEPATOCYTES IN NEOPLASTIC FOCI. THRESHOLD EXPOSURES FOR SOME OF THESE ENDPOINTS COINCIDE WITH THE THRESHOLD EXPOSURE FOR TUMORIGENESIS. 1996 19 4003 23 LOSS OF PRMT7 REPROGRAMS GLYCINE METABOLISM TO SELECTIVELY ERADICATE LEUKEMIA STEM CELLS IN CML. OUR GROUP HAS REPORTED PREVIOUSLY ON THE ROLE OF VARIOUS MEMBERS OF THE PROTEIN ARGININE METHYLTRANSFERASE (PRMT) FAMILY, WHICH ARE INVOLVED IN EPIGENETIC REGULATION, IN THE PROGRESSION OF LEUKEMIA. HERE, WE EXPLORED THE ROLE OF PRMT7, GIVEN ITS UNIQUE FUNCTION WITHIN THE PRMT FAMILY, IN THE MAINTENANCE OF LEUKEMIA STEM CELLS (LSCS) IN CHRONIC MYELOID LEUKEMIA (CML). GENETIC LOSS OF PRMT7, AND THE DEVELOPMENT AND TESTING OF A SMALL-MOLECULE SPECIFIC INHIBITOR OF PRMT7, SHOWED THAT TARGETING PRMT7 DELAYED LEUKEMIA DEVELOPMENT AND IMPAIRED SELF-RENEWAL OF LSCS IN A CML MOUSE MODEL AND IN PRIMARY CML CD34(+) CELLS FROM HUMANS WITHOUT AFFECTING NORMAL HEMATOPOIESIS. MECHANISTICALLY, LOSS OF PRMT7 RESULTED IN REDUCED EXPRESSIONS OF GLYCINE DECARBOXYLASE, LEADING TO THE REPROGRAMING OF GLYCINE METABOLISM TO GENERATE METHYLGLYOXAL, WHICH IS DETRIMENTAL TO LSCS. THESE FINDINGS LINK HISTONE ARGININE METHYLATION WITH GLYCINE METABOLISM, WHILE SUGGESTING PRMT7 AS A POTENTIAL THERAPEUTIC TARGET FOR THE ERADICATION OF LSCS IN CML. 2022 20 3877 24 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