1 2887 92 GADD45A TRANSCRIPTIONAL INDUCTION ELICITED BY THE AURORA KINASE INHIBITOR MK-0457 IN BCR-ABL-EXPRESSING CELLS IS DRIVEN BY OCT-1 TRANSCRIPTION FACTOR. THE ADVANTAGE OF AURORA KINASE (AK) INHIBITORS IN CHRONIC MYELOID LEUKEMIA (CML) THERAPY MOSTLY ARISES FROM "OFF-TARGET" EFFECTS ON TYROSINE KINASE (TK) ACTIVITY OF WILD TYPE (WT) OR MUTATED BCR-ABL PROTEINS WHICH DRIVE THE DISEASE RESISTANCE TO IMATINIB (IM). WE PROVED THAT THE AK INHIBITOR MK-0457 INDUCES THE GROWTH ARREST DNA DAMAGE-INDUCIBLE (GADD) 45A THROUGH RECRUITMENT OF OCTAMER-BINDING (OCT)-1 TRANSCRIPTION FACTOR AT A CRITICAL PROMOTER REGION FOR GENE TRANSCRIPTION AND COVALENT MODIFICATIONS OF HISTONE H3 (LYSINE 14 ACETYLATION, LYSINE 9 DE-METHYLATION). SUCH EPIGENETIC CHROMATIN MODIFICATIONS MAY DEPICT A GENERAL MECHANISM PROMOTING THE RE-ACTIVATION OF TUMOR SUPPRESSOR GENES SILENCED BY BCR-ABL. 2012 2 671 32 BOTHROPS MOOJENI L-AMINO ACID OXIDASE INDUCES APOPTOSIS AND EPIGENETIC MODULATION ON BCR-ABL(+) CELLS. BACKGROUND: RESISTANCE TO APOPTOSIS IN CHRONIC MYELOID LEUKEMIA (CML) IS ASSOCIATED WITH CONSTITUTIVE TYROSINE KINASE ACTIVITY OF THE BCR-ABL ONCOPROTEIN. THE DEREGULATED EXPRESSION OF APOPTOSIS-RELATED GENES AND ALTERATION IN EPIGENETIC MACHINERY MAY ALSO CONTRIBUTE TO APOPTOSIS RESISTANCE IN CML. TYROSINE KINASE INHIBITORS TARGET THE BCR-ABL ONCOPROTEIN AND ARE USED IN CML TREATMENT. THE RESISTANCE OF CML PATIENTS TO TYROSINE KINASE INHIBITORS HAS GUIDED THE SEARCH FOR NEW COMPOUNDS THAT MAY INDUCE APOPTOSIS IN BCR-ABL(+) LEUKEMIC CELLS AND IMPROVE THE DISEASE TREATMENT. METHODS: IN THE PRESENT STUDY, WE INVESTIGATED WHETHER THE L-AMINO ACID OXIDASE ISOLATED FROM BOTHROPS MOOJENI SNAKE VENOM (BMOOLAAO-I) (I) WAS CYTOTOXIC TO BCR-ABL(+) CELL LINES (HL-60.BCR-ABL, K562-S, AND K562-R), HL-60 (ACUTE PROMYELOCYTIC LEUKEMIA) CELLS, THE NON-TUMOR CELL LINE HEK-293, AND PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC); AND (II) AFFECTED EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION AND MICRORNAS EXPRESSION IN VITRO. RESULTS: BMOOLAAO-I INDUCED ROS PRODUCTION, APOPTOSIS, AND DIFFERENTIAL DNA METHYLATION PATTERN OF REGULATORY APOPTOSIS GENES. THE TOXIN UPREGULATED EXPRESSION OF THE PRO-APOPTOTIC GENES BID AND FADD AND DOWNREGULATED DFFA EXPRESSION IN LEUKEMIC CELL LINES, AS WELL AS INCREASED MIR-16 EXPRESSION - WHOSE MAJOR PREDICTED TARGET IS THE ANTI-APOPTOTIC GENE BCL2 - IN BCR-ABL(+) CELLS. CONCLUSION: BMOOLAAO-I EXERTS SELECTIVE ANTITUMOR ACTION MEDIATED BY H(2)O(2) RELEASE AND INDUCES APOPTOSIS, AND ALTERATIONS IN EPIGENETIC MECHANISMS. THESE RESULTS SUPPORT FUTURE INVESTIGATIONS ON THE EFFECT OF BMOOLAAO-I ON IN VIVO MODELS TO DETERMINE ITS POTENTIAL IN CML THERAPY. 2020 3 5775 23 SPERMIDINE/SPERMINE N(1)-ACETYLTRANSFERASE ACTIVITY ASSOCIATES WITH WHITE BLOOD CELL COUNT IN MYELOID LEUKEMIAS. THE METABOLISM OF POLYAMINES, THE CATIONIC SMALL MOLECULES ESSENTIAL FOR CELL PROLIFERATION AND DIFFERENTIATION, IS ALTERED IN CANCER CELLS AND CAN BE EXPLOITED IN CANCER DIAGNOSIS AND THERAPY. SPERMIDINE/SPERMINE N(1)-ACETYLTRANSFERASE (SSAT), WHICH REGULATES INTRACELLULAR LEVELS OF POLYAMINES BY CATABOLIZING SPERMIDINE AND SPERMINE, HAS A CONTROVERSIAL ROLE IN THE DEVELOPMENT OF CANCERS. IN THIS STUDY, THE POLYAMINE METABOLISM AND FUNCTION OF SSAT WERE CHARACTERIZED IN ACUTE MYELOID LEUKEMIA (AML), CHRONIC MYELOID LEUKEMIA (CML), AND ACUTE LYMPHOID LEUKEMIA PATIENT SAMPLES. ALSO, MICE OVEREXPRESSING SSAT AND HAVING A MYELOPROLIFERATIVE PHENOTYPE WERE ANALYZED FOR THEIR RESPONSE TO DECITABINE AND HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A. THE PRESENCE OF EPIGENETIC FACTORS IN THE BONE MARROW CELLS OF SSAT MICE WAS ANALYZED. ELEVATED LEVELS OF SPERMIDINE AND SPERMINE, AS WELL AS INCREASED ACTIVITY OF SSAT, WERE DETECTED IN AML, CML, AND ACUTE LYMPHOID LEUKEMIA PATIENTS COMPARED WITH THE CONTROLS. HOWEVER, WE FOUND SSAT ACTIVITY TO BE ASSOCIATED WITH WHITE BLOOD CELL COUNT ONLY IN AML AND CML PATIENTS. DECITABINE TREATMENT BROUGHT THE PERIPHERAL BLOOD AND BONE MARROW CELL COUNTS OF SSAT MICE TO THE LEVEL OF WILD-TYPE MICE. SPERMIDINE/SPERMINE N(1)-ACETYLTRANSFERASE MICE HAD INCREASED HISTONE METHYLATION AND AN INCREASED LEVEL OF HISTONE DEACETYLASE 1 IN THEIR BONE MARROW CELLS. THE STUDY SUGGESTS THAT SSAT INFLUENCES THE DEVELOPMENT OF MYELOID MALIGNANCIES, AND EPIGENETIC FACTORS PARTLY CONTRIBUTE TO THE SSAT OVEREXPRESSION-INDUCED MYELOPROLIFERATIVE DISEASE IN MICE. 2014 4 2763 28 EXPRESSION OF THE LEUKEMIC PROGNOSTIC MARKER CD7 IS LINKED TO EPIGENETIC MODIFICATIONS IN CHRONIC MYELOID LEUKEMIA. BACKGROUND: EXPRESSION LEVELS OF THE CELL SURFACE GLYCOPROTEIN, CD7, AND THE SERINE PROTEASE, ELASTASE 2 (ELA2), IN THE LEUKEMIC CELLS OF PATIENTS WITH CHRONIC MYELOID LEUKEMIA (CML) HAVE BEEN ASSOCIATED WITH CLINICAL OUTCOME. HOWEVER, LITTLE IS KNOWN ABOUT THE MECHANISMS THAT UNDERLIE THE VARIABLE EXPRESSION OF THESE GENES IN THE LEUKEMIC CELLS. RESULTS: TO ADDRESS THIS QUESTION, WE COMPARED THE LEVEL OF THEIR EXPRESSION WITH THE DNA METHYLATION AND HISTONE ACETYLATION STATUS OF 5' SEQUENCES OF BOTH GENES IN LEUKEMIC CELL LINES AND PRIMITIVE (LIN-CD34+) LEUKEMIC CELLS FROM CHRONIC PHASE CML PATIENTS. DNA METHYLATION OF THE ELA2 GENE PROMOTER DID NOT CORRELATE WITH ITS EXPRESSION PATTERN IN LIN-CD34+ CELLS FROM CHRONIC PHASE CML PATIENT SAMPLES EVEN THOUGH THERE WAS CLEAR DIFFERENTIAL DNA METHYLATION OF THIS LOCUS IN ELA2-EXPRESSING AND NON-EXPRESSING CELL LINES. IN CONTRAST, WE FOUND A STRONG RELATION BETWEEN CD7 EXPRESSION AND TRANSCRIPTION-PERMISSIVE CHROMATIN MODIFICATIONS, BOTH AT THE LEVEL OF DNA METHYLATION AND HISTONE ACETYLATION WITH EVIDENCE OF HYPOMETHYLATION OF THE CD7 PROMOTER REGION IN THE LIN-CD34+ CELLS FROM CML PATIENTS WITH HIGH CD7 EXPRESSION. CONCLUSION: THESE FINDINGS INDICATE A LINK BETWEEN EPIGENETIC MODIFICATIONS AND CD7 EXPRESSION IN PRIMITIVE CML CELLS. 2010 5 4696 29 NF-KAPPAB REPRESSES RETINOIC ACID RECEPTOR-MEDIATED GPRC5A TRANSACTIVATION IN LUNG EPITHELIAL CELLS TO PROMOTE NEOPLASIA. CHRONIC INFLAMMATION IS ASSOCIATED WITH LUNG TUMORIGENESIS, IN WHICH NF-KAPPAB-MEDIATED EPIGENETIC REGULATION PLAYS A CRITICAL ROLE. LUNG TUMOR SUPPRESSOR G PROTEIN-COUPLED RECEPTOR, FAMILY C, MEMBER 5A (GPRC5A), IS REPRESSED IN MOST NON-SMALL CELL LUNG CANCER (NSCLC); HOWEVER, THE MECHANISMS REMAIN UNCLEAR. HERE, WE SHOW THAT NF-KAPPAB ACTS AS A TRANSCRIPTIONAL REPRESSOR IN SUPPRESSION OF GPRC5A. NF-KAPPAB INDUCED GPRC5A REPRESSION BOTH IN VITRO AND IN VIVO. INTRIGUINGLY, TRANSACTIVATION OF NF-KAPPAB DOWNSTREAM TARGETS WAS NOT REQUIRED, BUT THE TRANSACTIVATION DOMAIN OF RELA/P65 WAS REQUIRED FOR GPRC5A REPRESSION. NF-KAPPAB DID NOT BIND TO ANY POTENTIAL CIS-ELEMENT IN THE GPRC5A PROMOTER. INSTEAD, P65 WAS COMPLEXED WITH RETINOIC ACID RECEPTOR ALPHA/BETA (RARALPHA/BETA) AND RECRUITED TO THE RA RESPONSE ELEMENT SITE AT THE GPRC5A PROMOTER, RESULTING IN DISRUPTED RNA POLYMERASE II COMPLEXING AND SUPPRESSED TRANSCRIPTION. NOTABLY, PHOSPHORYLATION ON SERINE 276 OF P65 WAS REQUIRED FOR INTERACTION WITH RARALPHA/BETA AND REPRESSION OF GPRC5A. MOREOVER, NF-KAPPAB-MEDIATED EPIGENETIC REPRESSION WAS THROUGH SUPPRESSION OF ACETYLATED HISTONE H3K9 (H3K9AC), BUT NOT DNA METHYLATION OF THE CPG ISLANDS, AT THE GPRC5A PROMOTER. CONSISTENTLY, A HISTONE DEACETYLASE INHIBITOR, BUT NOT DNA METHYLATION INHIBITOR, RESTORED GPRC5A EXPRESSION IN NSCLC CELLS. THUS, NF-KAPPAB INDUCES TRANSCRIPTIONAL REPRESSION OF GPRC5A VIA A COMPLEX WITH RARALPHA/BETA AND MEDIATES EPIGENETIC REPRESSION VIA SUPPRESSION OF H3K9AC. 2023 6 1843 28 EFFECTS OF TELOMERASE INHIBITOR ON EPIGENETIC CHROMATIN MODIFICATION ENZYMES IN MALIGNANCIES. TELOMERASE HAS A CRITICAL ROLE IN CELL PROLIFERATION, TUMOR MAINTAINING, AND THERAPY RESISTANCE, WHICH ACT BY MODIFYING MANY SIGNALING PATHWAYS. 2-[(E)-3-NAPHTALEN-2-YL-BUT-2-ENOYLAMINO]-BENZOIC ACID (BIBR1532) IS ONE OF THE MOST STUDIED TELOMERASE INHIBITORS, AND IT TARGETS TELOMERASE COMPONENTS TERC AND TERT. IN THIS NOVEL STUDY, WE AIMED TO INVESTIGATE THE EPIGENETIC EFFECTS OF BIBR1532 ON BOTH HEMATOLOGIC MALIGNANCIES AND SOLID TUMORS. K-562 HUMAN CHRONIC MYELOID LEUKEMIA CELL LINE AND U87MG GLIOBLASTOMA CELL LINE WERE COMPARED WITH CONTROL GROUPS WITHOUT BIBR1532 TREATMENT. CYTOTOXIC EFFECTS OF BIBR1532 WERE DETERMINED BY USING WST-1 ASSAY. APOPTOTIC EFFECTS OF BIBR1532 WERE DETECTED BY USING ANNEXIN V METHOD. TO ASSESS EXPRESSION CHANGES IN THE HUMAN EPIGENETIC CHROMATIN MODIFICATION ENZYME GENES, TOTAL RNA WAS ISOLATED FROM K-562 AND U87MG CELLS TREATED WITH BIBR1532 AND UNTREATED CONTROL CELLS. BIBR1532 INDUCED 2.41-FOLD APOPTOTIC CELL DEATH IN U87MG CELL LINES COMPARED WITH CONTROL GROUPS. APOPTOSIS WAS SLIGHTLY INDUCED IN K-562 CELLS WITH BIBR1532 TREATMENT COMPARED WITH CONTROL CELLS. WE OBSERVED THAT BIBR1532 ALSO REGULATES SIMILAR GENES IN BOTH CELL LINES, AND IT IS USEFUL ON EPIGENETIC MECHANISMS. AS A RESULT, TELOMERASE INHIBITOR BIBR1532 HAS A SIGNIFICANT EFFECT ON BOTH HEMATOLOGICAL MALIGNANCIES AND SOLID TUMORS. 2018 7 829 22 CHARACTERIZATION OF P190-BCR-ABL CHRONIC MYELOID LEUKEMIA REVEALS SPECIFIC SIGNALING PATHWAYS AND THERAPEUTIC TARGETS. THE ONCOGENIC PROTEIN BCR-ABL HAS TWO MAJOR ISOFORMS, P190(BCR-ABL) AND P210(BCR-ABL). WHILE P210(BCR-ABL) IS THE HALLMARK OF CHRONIC MYELOID LEUKEMIA (CML), P190(BCR-ABL) OCCURS IN THE MAJORITY OF PHILADELPHIA-POSITIVE ACUTE LYMPHOBLASTIC LEUKEMIA (PH + ALL) PATIENTS. IN CML, P190(BCR-ABL) OCCURS IN A MINORITY OF PATIENTS ASSOCIATING WITH DISTINCT HEMATOLOGICAL FEATURES AND INFERIOR OUTCOMES, YET THE PATHOGENIC ROLE OF P190(BCR-ABL) AND POTENTIAL TARGETING THERAPIES ARE LARGELY UNCHARACTERIZED. WE EMPLOYED NEXT GENERATION SEQUENCING, PHOSPHO-PROTEOMIC PROFILING, AND DRUG SENSITIVITY TESTING TO CHARACTERIZE P190(BCR-ABL) IN CML AND HEMATOPOIETIC PROGENITOR CELL LINE MODELS (BA/F3 AND HPC-LSK). P190(BCR-ABL) CML PATIENTS DEMONSTRATED POOR RESPONSE TO IMATINIB AND FREQUENT MUTATIONS IN EPIGENETIC MODIFIERS GENES. IN CONTRAST WITH P210(BCR-ABL), P190(BCR-ABL) EXHIBITED SPECIFIC TRANSCRIPTIONAL UPREGULATION OF INTERFERON, INTERLEUKIN-1 RECEPTOR, AND P53 SIGNALING PATHWAYS, ASSOCIATED WITH HYPERPHOSPHORYLATION OF RELEVANT SIGNALING MOLECULES INCLUDING JAK1/STAT1 AND PAK1 IN ADDITION TO SRC HYPERPHOSPHORYLATION. COMPARABLE TO P190(BCR-ABL) CML PATIENTS, P190(BCR-ABL) CELL LINES DEMONSTRATED SIMILAR TRANSCRIPTIONAL AND PHOSPHO-SIGNALING SIGNATURES. WITH THE DRUG SENSITIVITY SCREENING WE IDENTIFIED TARGETED DRUGS WITH SPECIFIC ACTIVITY IN P190(BCR-ABL) CELL LINES INCLUDING IAP-, PAK1-, AND SRC INHIBITORS AND GLUCOCORTICOIDS. OUR RESULTS PROVIDE NOVEL INSIGHTS INTO THE MECHANISMS UNDERLYING THE DISTINCT FEATURES OF P190(BCR-ABL) CML AND PROMISING THERAPEUTIC TARGETS FOR THIS HIGH-RISK PATIENT GROUP. 2021 8 2888 36 GAIN-OF-FUNCTION MUTATION OF GATA-2 IN ACUTE MYELOID TRANSFORMATION OF CHRONIC MYELOID LEUKEMIA. ACQUISITION OF ADDITIONAL GENETIC AND/OR EPIGENETIC ABNORMALITIES OTHER THAN THE BCR/ABL FUSION GENE IS BELIEVED TO CAUSE DISEASE PROGRESSION IN CHRONIC MYELOID LEUKEMIA (CML) FROM CHRONIC PHASE TO BLAST CRISIS (BC). TO GAIN INSIGHTS INTO THE UNDERLYING MECHANISMS OF PROGRESSION TO BC, WE SCREENED DNA SAMPLES FROM CML PATIENTS DURING BLAST TRANSFORMATION FOR MUTATIONS IN A NUMBER OF TRANSCRIPTION FACTOR GENES THAT ARE CRITICAL FOR MYELOID-LYMPHOID DEVELOPMENT. IN 85 CASES OF CML BLAST TRANSFORMATION, WE IDENTIFIED TWO NEW MUTATIONS IN THE CODING REGION OF GATA-2, A NEGATIVE REGULATOR OF HEMATOPOIETIC STEM/PROGENITOR CELL DIFFERENTIATION. A L359V SUBSTITUTION WITHIN ZINC FINGER DOMAIN (ZF) 2 OF GATA-2 WAS FOUND IN EIGHT CASES WITH MYELOMONOBLASTIC FEATURES, WHEREAS AN IN-FRAME DELETION OF 6 AA (DELTA341-346) SPANNING THE C-TERMINAL BORDER OF ZF1 WAS DETECTED IN ONE PATIENT AT MYELOID BC WITH EOSINOPHILIA. FURTHER STUDIES INDICATED THAT L359V NOT ONLY INCREASED TRANSACTIVATION ACTIVITY OF GATA-2 BUT ALSO ENHANCED ITS INHIBITORY EFFECTS ON THE ACTIVITY OF PU.1, A MAJOR REGULATOR OF MYELOPOIESIS. CONSISTENT WITH THE MYELOMONOBLASTIC FEATURES OF CML TRANSFORMATION WITH THE GATA-2 L359V MUTANT, TRANSDUCTION OF THE GATA-2 L359V MUTANT INTO HL-60 CELLS OR BCR/ABL-HARBORING MURINE CELLS DISTURBED MYELOMONOCYTIC DIFFERENTIATION/PROLIFERATION IN VITRO AND IN VIVO, RESPECTIVELY. THESE DATA STRONGLY SUGGEST THAT GATA-2 MUTATIONS MAY PLAY A ROLE IN ACUTE MYELOID TRANSFORMATION IN A SUBSET OF CML PATIENTS. 2008 9 1334 29 DEREGULATION OF AIOLOS EXPRESSION IN CHRONIC LYMPHOCYTIC LEUKEMIA IS ASSOCIATED WITH EPIGENETIC MODIFICATIONS. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS CHARACTERIZED BY A CLONAL ACCUMULATION OF MATURE NEOPLASTIC B CELLS THAT ARE RESISTANT TO APOPTOSIS. AIOLOS, A MEMBER OF THE IKAROS FAMILY OF ZINC-FINGER TRANSCRIPTION FACTORS, PLAYS AN IMPORTANT ROLE IN THE CONTROL OF MATURE B LYMPHOCYTE DIFFERENTIATION AND MATURATION. IN THIS STUDY, WE SHOWED THAT AIOLOS EXPRESSION IS UP-REGULATED IN B-CLL CELLS. THIS OVEREXPRESSION DOES NOT IMPLICATE ISOFORM IMBALANCE OR DISTURB AIOLOS SUBCELLULAR LOCALIZATION. THE CHROMATIN STATUS AT THE AIOLOS PROMOTER IN CLL IS DEFINED BY THE DEMETHYLATION OF DNA AND AN ENRICHMENT OF EUCHROMATIN ASSOCIATED HISTONE MARKERS, SUCH AS THE DIMETHYLATION OF THE LYSINE 4 ON HISTONE H3. THESE EPIGENETIC MODIFICATIONS SHOULD ALLOW ITS UPSTREAM EFFECTORS, SUCH AS NUCLEAR FACTOR-KAPPAB, CONSTITUTIVELY ACTIVATED IN CLL, TO GAIN ACCESS TO PROMOTER, RESULTING UP-REGULATION OF AIOLOS. TO DETERMINE THE CONSEQUENCES OF AIOLOS DEREGULATION IN CLL, WE ANALYZED THE EFFECTS OF AIOLOS OVEREXPRESSION OR DOWN-REGULATION ON APOPTOSIS. AIOLOS IS INVOLVED IN CELL SURVIVAL BY REGULATING THE EXPRESSION OF SOME BCL-2 FAMILY MEMBERS. OUR RESULTS STRONGLY SUGGEST THAT AIOLOS DEREGULATION BY EPIGENETIC MODIFICATIONS MAY BE A HALLMARK OF CLL. 2011 10 1234 30 CRYPTOTANSHINONE SUPPRESSES KEY ONCO-PROLIFERATIVE AND DRUG-RESISTANT PATHWAYS OF CHRONIC MYELOID LEUKEMIA BY TARGETING STAT5 AND STAT3 PHOSPHORYLATION. C-MYC AND SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION (STAT) FAMILY PROTEINS HAVE BEEN PROPOSED TO BE IMPORTANT DOWNSTREAM GENES OF BCR-ABL, WHICH CHARACTERIZES MOST CASES OF CHRONIC MYELOID LEUKEMIA (CML). HERE, WE REPORT A C-MYC PATHWAY-TARGETED SCREENING OF SEVEN NATURAL ANTICANCER COMPOUNDS, IN WHICH WE IDENTIFIED CRYPTOTANSHINONE AS A HIGHLY PROMISING AGENT FOR CML THERAPY. CRYPTOTANSHINONE DEPLETES C-MYC IN CML BY REPRESSING THE PHOSPHORYLATION OF STAT5. DECREASED VIABILITY OF K562 CELLS CORRELATED WITH P-STAT5 SUPPRESSION. UNEXPECTEDLY, IMATINIB ACTIVATES RATHER THAN INHIBITS THE PHOSPHORYLATION OF STAT3 IN K562 CELLS. WE DEMONSTRATED THAT CRYPTOTANSHINONE, AS A DUAL INHIBITOR OF P-STAT5 AND P-STAT3, CAN EFFECTIVELY BLOCK IL-6-MEDIATED STAT3 ACTIVATION AND REVERSE BCR-ABL KINASE-INDEPENDENT DRUG RESISTANCE. MOREOVER, WE SHOWED THAT THE EPIGENETIC REBALANCE BETWEEN DECREASED BCR-ABL/STAT5/C-MYC AND ENHANCED STAT3/MULTI-DRUG RESISTANCE (MDR) PATHWAYS IS CHARACTERISTIC OF THE CANCER STEM CELL-LIKE PROPERTY OF K562/ADR. SIMULTANEOUSLY SUPPRESSING THESE TWO PATHWAYS USING CRYPTOTANSHINONE PROVES TO BE CRITICAL FOR THE MALIGNANT NETWORK REDRESS AND MDR REVERSAL OF K562/ADR. THESE STUDIES REVEAL THE DUAL FUNCTIONS OF CRYPTOTANSHINONE THAT SUPPRESS KEY ONCOGENIC PROLIFERATION AND DRUG-RESISTANT PATHWAYS IN CML CELLS BY TARGETING P-STAT5 AND P-STAT3, PROVIDING A NEW STRATEGY FOR CML THERAPY THAT TAKES ADVANTAGE OF NATURAL PRODUCTS. 2018 11 3898 30 LARGE-SCALE TOPOLOGICAL DISRUPTION OF CHROMOSOME TERRITORIES 9 AND 22 IS ASSOCIATED WITH NONRESPONSE TO TREATMENT IN CML. CHRONIC MYELOID LEUKEMIA (CML) IS A MYELOPROLIFERATIVE NEOPLASM DEFINED BY THE PRESENCE OF T(9;22) TRANSLOCATION WHOSE ORIGIN HAS BEEN ASSOCIATED WITH THE TRIDIMENSIONAL GENOME ORGANIZATION. THIS REARRANGEMENT LEADS TO THE FUSION OF BCR AND ABL1 GENES GIVING RISE TO A CHIMERIC PROTEIN WITH CONSTITUTIVE KINASE ACTIVITY. IMATINIB, A TYROSINE KINASE INHIBITOR (TKI), IS USED AS A FIRST-LINE TREATMENT FOR CML, THOUGH ~40% OF CML PATIENTS DO NOT RESPOND. HERE, USING STRUCTURED ILLUMINATION MICROSCOPY (SIM) AND 3D RECONSTRUCTION, WE STUDIED THE 3D ORGANIZATION PATTERNS OF THE ABL1 AND BCR GENES, AND THEIR CHROMOSOME TERRITORIES (CTS) CT9 AND CT22, IN CD34+ CELLS FROM CML PATIENTS THAT RESPONDED OR NOT TO TKI. WE FOUND THAT TKI RESISTANCE IN CML IS ASSOCIATED WITH HIGH LEVELS OF STRUCTURAL DISRUPTION OF CT9 AND CT22 IN CD34+ CELLS, INCREASED CT VOLUMES (ESPECIALLY FOR CT22), INTERMINGLING BETWEEN CT9 AND CT22, AND AN OPEN-CHROMATIN EPIGENETIC MARK IN CT22. ALTOGETHER OUR RESULTS SUGGEST THAT LARGE-SCALE DISRUPTION OF CT9 AND CT22 CORRELATES WITH THE CLINICAL RESPONSE OF CML PATIENTS, WHICH COULD BE TRANSLATED INTO A POTENTIAL PROGNOSTIC MARKER OF RESPONSE TO TREATMENT IN THIS DISEASE AND PROVIDE NOVEL INSIGHTS INTO THE MECHANISMS UNDERLYING RESISTANCE TO TKI IN CML. 2022 12 5101 24 POLYCOMB FACTOR PHF19 CONTROLS CELL GROWTH AND DIFFERENTIATION TOWARD ERYTHROID PATHWAY IN CHRONIC MYELOID LEUKEMIA CELLS. POLYCOMB GROUP (PCG) OF PROTEINS ARE A GROUP OF HIGHLY CONSERVED EPIGENETIC REGULATORS INVOLVED IN MANY BIOLOGICAL FUNCTIONS, SUCH AS EMBRYONIC DEVELOPMENT, CELL PROLIFERATION, AND ADULT STEM CELL DETERMINATION. PHD FINGER PROTEIN 19 (PHF19) IS AN ASSOCIATED FACTOR OF POLYCOMB REPRESSOR COMPLEX 2 (PRC2), OFTEN UPREGULATED IN HUMAN CANCERS. IN PARTICULAR, MYELOID LEUKEMIA CELL LINES SHOW INCREASED LEVELS OF PHF19, YET LITTLE IS KNOWN ABOUT ITS FUNCTION. HERE, WE HAVE CHARACTERIZED THE ROLE OF PHF19 IN MYELOID LEUKEMIA CELLS. WE DEMONSTRATED THAT PHF19 DEPLETION DECREASES CELL PROLIFERATION AND PROMOTES CHRONIC MYELOID LEUKEMIA (CML) DIFFERENTIATION. MECHANISTICALLY, WE HAVE SHOWN HOW PHF19 REGULATES THE PROLIFERATION OF CML THROUGH A DIRECT REGULATION OF THE CELL CYCLE INHIBITOR P21. FURTHERMORE, WE OBSERVED THAT MTF2, A PHF19 HOMOLOG, PARTIALLY COMPENSATES FOR PHF19 DEPLETION IN A SUBSET OF TARGET GENES, INSTRUCTING SPECIFIC ERYTHROID DIFFERENTIATION. TAKEN TOGETHER, OUR RESULTS SHOW THAT PHF19 IS A KEY TRANSCRIPTIONAL REGULATOR FOR CELL FATE DETERMINATION AND COULD BE A POTENTIAL THERAPEUTIC TARGET FOR MYELOID LEUKEMIA TREATMENT. 2021 13 368 30 AMYLOID BETA-MEDIATED EPIGENETIC ALTERATION OF INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN 3 CONTROLS CELL SURVIVAL IN ALZHEIMER'S DISEASE. SWEDISH DOUBLE MUTATION (KM670/671NL) OF AMYLOID PRECURSOR PROTEIN (APP) IS REPORTED TO INCREASE TOXIC AMYLOID BETA (ABETA) PRODUCTION VIA ABERRANT CLEAVAGE AT THE BETA-SECRETASE SITE AND THEREBY CAUSE EARLY-ONSET ALZHEIMER'S DISEASE (AD). HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS LEADING TO AD PATHOGENESIS REMAINS LARGELY UNKNOWN. PREVIOUSLY, OUR TRANSCRIPTOME SEQUENCE ANALYSES REVEALED GLOBAL EXPRESSIONAL MODIFICATIONS OF OVER 600 GENES IN APP-SWEDISH MUTANT-EXPRESSING H4 (H4-SW) CELLS COMPARED TO WILD TYPE H4 CELLS. INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN 3 (IGFBP3) IS ONE GENE THAT SHOWED SIGNIFICANTLY DECREASED MRNA EXPRESSION IN H4-SW CELLS. IN THIS STUDY, WE INVESTIGATED THE FUNCTIONAL ROLE OF IGFBP3 IN AD PATHOGENESIS AND ELUCIDATED THE MECHANISMS REGULATING ITS EXPRESSION. WE OBSERVED DECREASED IGFBP3 EXPRESSION IN THE H4-SW CELL LINE AS WELL AS THE HIPPOCAMPUS OF AD MODEL TRANSGENIC MICE. TREATMENT WITH EXOGENOUS IGFBP3 PROTEIN INHIBITED ABETA1-42- INDUCED CELL DEATH AND CASPASE-3 ACTIVITY, WHEREAS SIRNA-MEDIATED SUPPRESSION OF IGFBP3 EXPRESSION INDUCED CELL DEATH AND CASPASE-3 CLEAVAGE. IN PRIMARY HIPPOCAMPAL NEURONS, ADMINISTRATION OF IGFBP3 PROTEIN BLOCKED APOPTOTIC CELL DEATH DUE TO ABETA1-42 TOXICITY. THESE DATA IMPLICATE A PROTECTIVE ROLE FOR IGFBP3 AGAINST ABETA1-42-MEDIATED APOPTOSIS. NEXT, WE INVESTIGATED THE REGULATORY MECHANISMS OF IGFBP3 EXPRESSION IN AD PATHOGENESIS. WE OBSERVED ABNORMAL IGFBP3 HYPERMETHYLATION WITHIN THE PROMOTER CPG ISLAND IN H4-SW CELLS. TREATMENT WITH THE DNA METHYLTRANSFERASE INHIBITOR 5-AZA-2'-DEOXYCYTIDINE RESTORED IGFBP3 EXPRESSION AT BOTH THE MRNA AND PROTEIN LEVELS. CHRONIC EXPOSURE TO ABETA1-42 INDUCED IGFBP3 HYPERMETHYLATION AT CPGS, PARTICULARLY AT LOCI -164 AND -173, AND SUBSEQUENTLY SUPPRESSED IGFBP3 EXPRESSION. THEREFORE, WE DEMONSTRATE THAT EXPRESSION OF ANTI-APOPTOTIC IGFBP3 IS REGULATED BY EPIGENETIC DNA METHYLATION, SUGGESTING A MECHANISM THAT CONTRIBUTES TO AD PATHOGENESIS. 2014 14 5934 21 TARGETING FEATURES OF CURAXIN CBL0137 ON HEMATOLOGICAL MALIGNANCIES IN VITRO AND IN VIVO. THE ANTICANCER ACTIVITY OF CURAXIN CBL0137, A DNA-BINDING SMALL MOLECULE WITH CHROMATIN REMODULATING EFFECT, HAS BEEN DEMONSTRATED IN DIFFERENT CANCERS. HEREIN, A COMPARATIVE EVALUATION OF CBL0137 ACTIVITY WAS PERFORMED IN RESPECT TO ACUTE MYELOID LEUKEMIA (AML), ACUTE LYMPHOBLASTIC LEUKEMIA (ALL), CHRONIC MYELOID LEUKEMIA AND MULTIPLE MYELOMA (MM) CULTURED IN VITRO. MTT ASSAY SHOWED AML AND MM HIGHER SENSITIVITY TO CBL0137'S CYTOSTATIC EFFECT COMPARATIVELY TO OTHER HEMATOLOGICAL MALIGNANCY CELLS. FLOW CYTOMETRY CELL CYCLE ANALYSIS REVEALED AN INCREASE IN SUBG1 AND G2/M POPULATIONS AFTER CBL0137 CELL TREATMENT, BUT THE PREVALENT TYPE OF ARREST VARIED. APOPTOSIS ACTIVATION BY CBL0137 MEASURED BY ANNEXIN-V/PI DUAL STAINING WAS MORE ACTIVE IN AML AND MM CELLS. RT2 PCR ARRAY SHOWED THAT CHANGES CAUSED BY CBL0137 IN SIGNALING PATHWAYS INVOLVED IN CANCER PATHOGENESIS WERE MORE INTENSIVE IN AML AND MM CELLS. ON THE MURINE MODEL OF AML WEHI-3, CBL0137 SHOWED SIGNIFICANT ANTICANCER EFFECTS IN VIVO, WHICH WERE EVALUATED BY CORRESPONDING CHANGES IN SPLEEN AND LIVER. THUS, MORE PRONOUNCED ANTICANCER EFFECTS OF CBL0137 IN VITRO WERE OBSERVED IN RESPECT TO AML AND MM. EXPERIMENTS IN VIVO ALSO INDICATED THE PERSPECTIVE OF CBL0137 USE FOR AML TREATMENT. THIS IN ACCORDANCE WITH THE FRONTLINE TREATMENT APPROACH IN AML USING EPIGENETIC DRUGS. 2023 15 1298 27 DECREASED NUCLEAR RECEPTOR ACTIVITY AND EPIGENETIC MODULATION ASSOCIATES WITH DOWN-REGULATION OF HEPATIC DRUG-METABOLIZING ENZYMES IN CHRONIC KIDNEY DISEASE. PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD) REQUIRE MANY MEDICATIONS. CYP2C AND CYP3A DRUG-METABOLIZING ENZYMES PLAY A CRITICAL ROLE IN DETERMINING THE PHARMACOKINETICS OF THE MAJORITY OF PRESCRIBED MEDICATIONS. THESE ENZYMES ARE TRANSCRIPTIONALLY REGULATED BY THE NUCLEAR RECEPTORS PREGNANE X RECEPTOR (PXR) AND HEPATIC NUCLEAR FACTOR 4ALPHA (HNF-4ALPHA). EXPRESSION OF CYP2C AND CYP3A IS DECREASED IN CKD; HOWEVER, THE MECHANISMS BY WHICH THIS OCCURS IS UNKNOWN. WE INDUCED CKD IN RATS BY 5/6 NEPHRECTOMY AND USED CHROMATIN IMMUNOPRECIPITATION (CHIP) TO DETERMINE NUCLEAR RECEPTOR- AND EPIGENETIC ALTERATION-MEDIATED DIFFERENCES IN THE PROMOTER REGION OF THE CYP2C AND CYP3A GENES. RNA POLYMERASE II AND HNF-4ALPHA BINDING WAS DECREASED 76 AND 57% IN THE CYP2C11 PROMOTOR AND 71 AND 77% IN THE CYP3A2 PROMOTER, RESPECTIVELY (P<0.05). CHIP ALSO REVEALED A 57% DECREASE IN PXR BINDING TO THE CYP3A2 PROMOTER IN CKD RATS (P<0.05). THE DECREASE IN PXR AND HNF-4ALPHA BINDING WAS ACCOMPANIED BY DIMINISHED HISTONE 4 ACETYLATION IN THE CYP3A2 PROMOTER (48%) AND HISTONE 3 ACETYLATION IN THE CYP2C11 (77%) AND CYP3A2 (77%) PROMOTER LOCI FOR NUCLEAR RECEPTOR ACTIVATION (P<0.05). THIS STUDY SUGGESTS THAT DECREASED NUCLEAR RECEPTOR BINDING AND HISTONE ACETYLATION MAY CONTRIBUTE TO THE MECHANISM OF DRUG-METABOLIZING ENZYME DOWN-REGULATION AND ALTERED PHARMACOKINETICS IN CKD. 2014 16 35 22 A CHROMATIN ACTIVITY-BASED CHEMOPROTEOMIC APPROACH REVEALS A TRANSCRIPTIONAL REPRESSOME FOR GENE-SPECIFIC SILENCING. IMMUNE CELLS DEVELOP ENDOTOXIN TOLERANCE (ET) AFTER PROLONGED STIMULATION. ET INCREASES THE LEVEL OF A REPRESSION MARK H3K9ME2 IN THE TRANSCRIPTIONALLY SILENT CHROMATIN SPECIFICALLY ASSOCIATED WITH PRO-INFLAMMATORY GENES. HOWEVER, IT IS NOT CLEAR WHAT PROTEINS ARE FUNCTIONALLY INVOLVED IN THIS PROCESS. HERE WE SHOW THAT A NOVEL CHROMATIN ACTIVITY-BASED CHEMOPROTEOMIC (CHAC) APPROACH CAN DISSECT THE FUNCTIONAL CHROMATIN PROTEIN COMPLEXES THAT REGULATE ET-ASSOCIATED INFLAMMATION. USING UNC0638 THAT BINDS THE ENZYMATICALLY ACTIVE H3K9-SPECIFIC METHYLTRANSFERASE G9A/GLP, CHAC REVEALS THAT G9A IS CONSTITUTIVELY ACTIVE AT A G9A-DEPENDENT MEGA-DALTON REPRESSOME IN PRIMARY ENDOTOXIN-TOLERANT MACROPHAGES. G9A/GLP BROADLY IMPACTS THE ET-SPECIFIC REPROGRAMMING OF THE HISTONE CODE LANDSCAPE, CHROMATIN REMODELLING AND THE ACTIVITIES OF SELECT TRANSCRIPTION FACTORS. WE DISCOVER THAT THE G9A-DEPENDENT EPIGENETIC ENVIRONMENT PROMOTES THE TRANSCRIPTIONAL REPRESSION ACTIVITY OF C-MYC FOR GENE-SPECIFIC CO-REGULATION OF CHRONIC INFLAMMATION. CHAC MAY ALSO BE APPLICABLE TO DISSECT OTHER FUNCTIONAL PROTEIN COMPLEXES IN THE CONTEXT OF PHENOTYPIC CHROMATIN ARCHITECTURES. 2014 17 573 28 BCR-ABL1-INDUCED DOWNREGULATION OF WASP IN CHRONIC MYELOID LEUKEMIA INVOLVES EPIGENETIC MODIFICATION AND CONTRIBUTES TO MALIGNANCY. CHRONIC MYELOID LEUKEMIA (CML) IS A MYELOPROLIFERATIVE DISEASE CAUSED BY THE BCR-ABL1 TYROSINE KINASE (TK). THE DEVELOPMENT OF TK INHIBITORS (TKIS) REVOLUTIONIZED THE TREATMENT OF CML PATIENTS. HOWEVER, TKIS ARE NOT EFFECTIVE TO THOSE AT ADVANCED PHASES WHEN AMPLIFIED BCR-ABL1 LEVELS AND INCREASED GENOMIC INSTABILITY LEAD TO SECONDARY ONCOGENIC MODIFICATIONS. WISKOTT-ALDRICH SYNDROME PROTEIN (WASP) IS AN IMPORTANT REGULATOR OF SIGNALING TRANSDUCTION IN HEMATOPOIETIC CELLS AND WAS SHOWN TO BE AN ENDOGENOUS INHIBITOR OF THE C-ABL TK. HERE, WE SHOW THAT THE EXPRESSION OF WASP DECREASES WITH THE PROGRESSION OF CML, INVERSELY CORRELATES WITH THE EXPRESSION OF BCR-ABL1 AND IS PARTICULARLY LOW IN BLAST CRISIS. ENFORCED EXPRESSION OF BCR-ABL1 NEGATIVELY REGULATES THE EXPRESSION OF WASP. DECREASED EXPRESSION OF WASP IS PARTIALLY DUE TO DNA METHYLATION OF THE PROXIMAL WASP PROMOTER. IMPORTANTLY, LOWER LEVELS OF WASP IN CML ADVANCED PHASE PATIENTS CORRELATE WITH POORER OVERALL SURVIVAL (OS) AND IS ASSOCIATED WITH TKI RESPONSE. INTERESTINGLY, ENFORCED EXPRESSION OF WASP IN BCR-ABL1-POSITIVE K562 CELLS INCREASES THE SUSCEPTIBILITY TO APOPTOSIS INDUCED BY TRAIL OR CHEMOTHERAPEUTIC DRUGS AND NEGATIVELY MODULATES BCR-ABL1-INDUCED TUMORIGENESIS IN VITRO AND IN VIVO. TAKEN TOGETHER, OUR DATA REVEAL A NOVEL MOLECULAR MECHANISM THAT OPERATES IN BCR-ABL1-INDUCED TUMORIGENESIS THAT CAN BE USED TO DEVELOP NEW STRATEGIES TO HELP TKI-RESISTANT, CML PATIENTS IN BLAST CRISIS (BC). 2017 18 3484 26 IDENTIFICATION OF CHROMATIN REMODELING GENES ARID4A AND ARID4B AS LEUKEMIA SUPPRESSOR GENES. BACKGROUND: LEUKEMIA EVOLVES THROUGH A MULTISTEP PROCESS FROM PREMALIGNANCY TO MALIGNANCY. EPIGENETIC ALTERATIONS, INCLUDING HISTONE MODIFICATIONS, HAVE BEEN PROPOSED TO PLAY AN IMPORTANT ROLE IN TUMORIGENESIS. THE INVOLVEMENT OF TWO CHROMATIN REMODELING GENES, RETINOBLASTOMA-BINDING PROTEIN 1 (RBBP1/ARID4A) AND RBBP1-LIKE 1 (RBBP1L1/ARID4B), IN LEUKEMOGENESIS WAS NOT CHARACTERIZED. METHODS: THE LEUKEMIC PHENOTYPE OF MICE DEFICIENT FOR ARID4A WITH OR WITHOUT HAPLOINSUFFICIENCY FOR ARID4B WAS INVESTIGATED BY SERIALLY MONITORING COMPLETE BLOOD COUNTS TOGETHER WITH MICROSCOPIC HISTOLOGIC ANALYSIS AND FLOW CYTOMETRIC ANALYSIS OF BONE MARROW AND SPLEEN FROM THE ARID4A(-/-) MICE OR ARID4A(-/-)ARID4B(+/-) MICE. REGULATION IN BONE MARROW CELLS OF DOWNSTREAM GENES IMPORTANT FOR NORMAL HEMATOPOIESIS WAS ANALYZED BY REVERSE TRANSCRIPTION-POLYMERASE CHAIN REACTION. GENOTYPIC EFFECTS ON HISTONE MODIFICATIONS WERE EXAMINED BY WESTERN BLOTTING AND IMMUNOFLUORESCENCE ANALYSIS. ALL STATISTICAL TESTS WERE TWO-SIDED. RESULTS: YOUNG (2-5 MONTHS OLD) ARID4A-DEFICIENT MICE HAD INEFFECTIVE BLOOD CELL PRODUCTION IN ALL HEMATOPOIETIC LINEAGES. BEYOND 5 MONTHS OF AGE, THE ARID4A(-/-) MICE MANIFESTED MONOCYTOSIS, ACCOMPANIED BY SEVERE ANEMIA AND THROMBOCYTOPENIA. THESE SICK ARID4A(-/-) MICE SHOWED BONE MARROW FAILURE WITH MYELOFIBROSIS ASSOCIATED WITH SPLENOMEGALY AND HEPATOMEGALY. FIVE OF 42 ARID4A(-/-) MICE AND 10 OF 12 ARID4A(-/-)ARID4B(+/-) MICE PROGRESSED TO ACUTE MYELOID LEUKEMIA (AML) AND HAD RAPID FURTHER INCREASES OF LEUKOCYTE COUNTS. EXPRESSION OF HOX GENES (HOXB3, HOXB5, HOXB6, AND HOXB8) WAS DECREASED IN ARID4A-DEFICIENT BONE MARROW CELLS WITH OR WITHOUT ARID4B HAPLOINSUFFICIENCY, AND FOXP3 EXPRESSION WAS REDUCED IN ARID4A(-/-)ARID4B(+/-) BONE MARROW. INCREASES OF HISTONE TRIMETHYLATION OF H3K4, H3K9, AND H4K20 (FOLD INCREASES IN TRIMETHYLATION = 32, 95% CONFIDENCE INTERVAL [CI] = 27 TO 32; 45, 95% CI = 41 TO 49; AND 2.2, 95% CI = 1.7 TO 2.7, RESPECTIVELY) WERE OBSERVED IN THE BONE MARROW OF ARID4A-DEFICIENT MICE. CONCLUSIONS: ARID4A-DEFICIENT MICE INITIALLY DISPLAY INEFFECTIVE HEMATOPOIESIS, FOLLOWED BY TRANSITION TO CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML)-LIKE MYELODYSPLASTIC/MYELOPROLIFERATIVE DISORDER, AND THEN TRANSFORMATION TO AML. THE DISEASE PROCESSES IN THE ARID4A-DEFICIENT MICE ARE VERY SIMILAR TO THE COURSE OF EVENTS IN HUMANS WITH CMML AND AML. THIS MOUSE MODEL HAS THE POTENTIAL TO FURNISH ADDITIONAL INSIGHTS INTO THE ROLE OF EPIGENETIC ALTERATIONS IN LEUKEMOGENESIS, AND IT MAY BE USEFUL IN DEVELOPING NOVEL PHARMACOLOGICAL APPROACHES TO TREATMENT OF PRELEUKEMIC AND LEUKEMIC STATES. 2008 19 1629 21 DNMT3A ARG882 MUTATION DRIVES CHRONIC MYELOMONOCYTIC LEUKEMIA THROUGH DISTURBING GENE EXPRESSION/DNA METHYLATION IN HEMATOPOIETIC CELLS. THE GENE ENCODING DNA METHYLTRANSFERASE 3A (DNMT3A) IS MUTATED IN APPROXIMATELY 20% OF ACUTE MYELOID LEUKEMIA CASES, WITH ARG882 (R882) AS THE HOTSPOT. HERE, WE ADDRESSED THE TRANSFORMATION ABILITY OF THE DNMT3A-ARG882HIS (R882H) MUTANT BY USING A RETROVIRAL TRANSDUCTION AND BONE MARROW TRANSPLANTATION (BMT) APPROACH AND FOUND THAT THE MUTANT GENE CAN INDUCE ABERRANT PROLIFERATION OF HEMATOPOIETIC STEM/PROGENITOR CELLS. AT 12 MO POST-BMT, ALL MICE DEVELOPED CHRONIC MYELOMONOCYTIC LEUKEMIA WITH THROMBOCYTOSIS. RNA MICROARRAY ANALYSIS REVEALED ABNORMAL EXPRESSIONS OF SOME HEMATOPOIESIS-RELATED GENES, AND THE DNA METHYLATION ASSAY IDENTIFIED CORRESPONDING CHANGES IN METHYLATION PATTERNS IN GENE BODY REGIONS. MOREOVER, DNMT3A-R882H INCREASED THE CDK1 PROTEIN LEVEL AND ENHANCED CELL-CYCLE ACTIVITY, THEREBY CONTRIBUTING TO LEUKEMOGENESIS. 2014 20 2080 24 EPIGENETIC DNA METHYLATION OF EBI3 MODULATES HUMAN INTERLEUKIN-35 FORMATION VIA NFKB SIGNALING: A PROMISING THERAPEUTIC OPTION IN ULCERATIVE COLITIS. ULCERATIVE COLITIS (UC), A SEVERE CHRONIC DISEASE WITH UNCLEAR ETIOLOGY THAT IS ASSOCIATED WITH INCREASED RISK FOR COLORECTAL CANCER, IS ACCOMPANIED BY DYSREGULATION OF CYTOKINES. EPSTEIN-BARR VIRUS-INDUCED GENE 3 (EBI3) ENCODES A SUBUNIT IN THE UNIQUE HETERODIMERIC IL-12 CYTOKINE FAMILY OF EITHER PRO- OR ANTI-INFLAMMATORY FUNCTION. AFTER HAVING RECENTLY DEMONSTRATED THAT UPREGULATION OF EBI3 BY HISTONE ACETYLATION ALLEVIATES DISEASE SYMPTOMS IN A DEXTRAN SULFATE SODIUM (DSS)-TREATED MOUSE MODEL OF CHRONIC COLITIS, WE NOW AIMED TO EXAMINE A POSSIBLE FURTHER EPIGENETIC REGULATION OF EBI3 BY DNA METHYLATION UNDER INFLAMMATORY CONDITIONS. TREATMENT WITH THE DNA METHYLTRANSFERASE INHIBITOR (DNMTI) DECITABINE (DAC) AND TNFALPHA LED TO SYNERGISTIC UPREGULATION OF EBI3 IN HUMAN COLON EPITHELIAL CELLS (HCEC). USE OF DIFFERENT SIGNALING PATHWAY INHIBITORS INDICATED NFKAPPAB SIGNALING WAS NECESSARY AND PROPORTIONAL TO THE SYNERGISTIC EBI3 INDUCTION. MALDI-TOF/MS AND HPLC-ESI-MS/MS ANALYSIS OF DAC/TNFALPHA-TREATED HCEC IDENTIFIED IL-12P35 AS THE MOST PROBABLE BINDING PARTNER TO FORM A FUNCTIONAL PROTEIN. EBI3/IL-12P35 HETERODIMERS (IL-35) INDUCE THEIR OWN GENE UPREGULATION, SOMETHING THAT WAS INDEED OBSERVED IN HCEC CULTURED WITH MEDIA FROM PREVIOUSLY DAC/TNFALPHA-TREATED HCEC. THESE RESULTS SUGGEST THAT UNDER INFLAMMATORY AND DEMETHYLATING CONDITIONS THE UPREGULATION OF EBI3 RESULTS IN THE FORMATION OF ANTI-INFLAMMATORY IL-35, WHICH MIGHT BE CONSIDERED AS A THERAPEUTIC TARGET IN COLITIS. 2021