1 5319 136 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 2 5861 56 SUPER-ENHANCER LANDSCAPE REVEALS LEUKEMIA STEM CELL RELIANCE ON X-BOX BINDING PROTEIN 1 AS A THERAPEUTIC VULNERABILITY. RELAPSE OF PATIENTS WITH CHRONIC MYELOGENOUS LEUKEMIA (CML) MAY OCCUR AT LEAST PARTIALLY BECAUSE LEUKEMIA STEM CELLS (LSCS) LACK SENSITIVITY TO TYROSINE KINASE INHIBITORS (TKIS) SUCH AS IMATINIB. THE PRECISE REGULATION OF LSC STEMNESS IS INCOMPLETELY UNDERSTOOD. GIVEN THAT TRAITS OF LSCS ARE SUBJECT TO EPIGENETIC REGULATION, WE HYPOTHESIZED THAT LSCS MIGHT BE DEPENDENT ON CONTINUOUS ACTIVE TRANSCRIPTION OF GENES ASSOCIATED WITH SUPER-ENHANCERS (SES), WHICH MIGHT, IN TURN, SUGGEST AN OPPORTUNITY FOR INTERVENTION. IN THIS STUDY, WE TESTED THIS HYPOTHESIS AND DELINEATED THE SE LANDSCAPE IN LSCS FROM PATIENTS WITH CML. DISRUPTION OF THE SE-ASSOCIATED GENE TRANSCRIPTION BY THZ1, A COVALENT CYCLIN-DEPENDENT KINASE 7 (CDK7) INHIBITOR, EFFICIENTLY ERADICATED LSCS IN RETROVIRAL BCR-ABL-DRIVEN CML MICE WHILE SPARING NORMAL HEMATOPOIETIC STEM CELLS. FURTHERMORE, WE FOUND THAT X-BOX BINDING PROTEIN 1 (XBP1), A SUBSTRATE OF MRNA-SPLICING ENDONUCLEASE IRE1ALPHA IN THE UNFOLDED PROTEIN RESPONSE PATHWAY, WAS AN SE-ASSOCIATED ONCOGENE IN LSCS. KNOCKDOWN OF XBP1 REDUCED SURVIVAL AND SELF-RENEWAL CAPACITY IN PRIMARY CML CD34(+) CELLS AND ERADICATED LSCS IN CML MICE. SELECTIVELY BLOCKING GENERATION OF THE SPLICED FORM OF XBP1 BY HEMATOPOIETIC CELL-SPECIFIC IRE1 CONDITIONAL KNOCKOUT SUPPRESSED THE PROGRESSION OF CML AND IMPAIRED THE LEUKEMOGENESIS OF LSCS IN CML MICE. OVERALL, WE IDENTIFIED AN EPIGENETIC TRANSCRIPTIONAL PROGRAM IN LSCS, ADDING TO EVIDENCE FOR THE THEORY OF "ONCOGENE ADDICTION" AND SUGGESTING A POTENTIAL TARGETING STRATEGY FOR CML. 2021 3 5940 53 TARGETING METHYLTRANSFERASE PRMT5 ELIMINATES LEUKEMIA STEM CELLS IN CHRONIC MYELOGENOUS LEUKEMIA. IMATINIB-INSENSITIVE LEUKEMIA STEM CELLS (LSCS) ARE BELIEVED TO BE RESPONSIBLE FOR RESISTANCE TO BCR-ABL TYROSINE KINASE INHIBITORS AND RELAPSE OF CHRONIC MYELOGENOUS LEUKEMIA (CML). IDENTIFYING THERAPEUTIC TARGETS TO ERADICATE CML LSCS MAY BE A STRATEGY TO CURE CML. IN THE PRESENT STUDY, WE DISCOVERED A POSITIVE FEEDBACK LOOP BETWEEN BCR-ABL AND PROTEIN ARGININE METHYLTRANSFERASE 5 (PRMT5) IN CML CELLS. OVEREXPRESSION OF PRMT5 WAS OBSERVED IN HUMAN CML LSCS. SILENCING PRMT5 WITH SHRNA OR BLOCKING PRMT5 METHYLTRANSFERASE ACTIVITY WITH THE SMALL-MOLECULE INHIBITOR PJ-68 REDUCED SURVIVAL, SERIAL REPLATING CAPACITY, AND LONG-TERM CULTURE-INITIATING CELLS (LTC-ICS) IN LSCS FROM CML PATIENTS. FURTHER, PRMT5 KNOCKDOWN OR PJ-68 TREATMENT DRAMATICALLY PROLONGED SURVIVAL IN A MURINE MODEL OF RETROVIRAL BCR-ABL-DRIVEN CML AND IMPAIRED THE IN VIVO SELF-RENEWAL CAPACITY OF TRANSPLANTED CML LSCS. PJ-68 ALSO INHIBITED LONG-TERM ENGRAFTMENT OF HUMAN CML CD34+ CELLS IN IMMUNODEFICIENT MICE. MOREOVER, INHIBITION OF PRMT5 ABROGATED THE WNT/BETA-CATENIN PATHWAY IN CML CD34+ CELLS BY DEPLETING DISHEVELLED HOMOLOG 3 (DVL3). THIS STUDY SUGGESTS THAT EPIGENETIC METHYLATION MODIFICATION ON HISTONE PROTEIN ARGININE RESIDUES IS A REGULATORY MECHANISM TO CONTROL SELF-RENEWAL OF LSCS AND INDICATES THAT PRMT5 MAY REPRESENT A POTENTIAL THERAPEUTIC TARGET AGAINST LSCS. 2016 4 2402 52 EPIGENETIC REPROGRAMMING SENSITIZES CML STEM CELLS TO COMBINED EZH2 AND TYROSINE KINASE INHIBITION. A MAJOR OBSTACLE TO CURING CHRONIC MYELOID LEUKEMIA (CML) IS RESIDUAL DISEASE MAINTAINED BY TYROSINE KINASE INHIBITOR (TKI)-PERSISTENT LEUKEMIC STEM CELLS (LSC). THESE ARE BCR-ABL1 KINASE INDEPENDENT, REFRACTORY TO APOPTOSIS, AND SERVE AS A RESERVOIR TO DRIVE RELAPSE OR TKI RESISTANCE. WE DEMONSTRATE THAT POLYCOMB REPRESSIVE COMPLEX 2 IS MISREGULATED IN CHRONIC PHASE CML LSCS. THIS IS ASSOCIATED WITH EXTENSIVE REPROGRAMMING OF H3K27ME3 TARGETS IN LSCS, THUS SENSITIZING THEM TO APOPTOSIS UPON TREATMENT WITH AN EZH2-SPECIFIC INHIBITOR (EZH2I). EZH2I DOES NOT IMPAIR NORMAL HEMATOPOIETIC STEM CELL SURVIVAL. STRIKINGLY, TREATMENT OF PRIMARY CML CELLS WITH EITHER EZH2I OR TKI ALONE CAUSED SIGNIFICANT UPREGULATION OF H3K27ME3 TARGETS, AND COMBINED TREATMENT FURTHER POTENTIATED THESE EFFECTS AND RESULTED IN SIGNIFICANT LOSS OF LSCS COMPARED TO TKI ALONE, IN VITRO, AND IN LONG-TERM BONE MARROW MURINE XENOGRAFTS. OUR FINDINGS POINT TO A PROMISING EPIGENETIC-BASED THERAPEUTIC STRATEGY TO MORE EFFECTIVELY TARGET LSCS IN PATIENTS WITH CML RECEIVING TKIS. SIGNIFICANCE: IN CML, TKI-PERSISTENT LSCS REMAIN AN OBSTACLE TO CURE, AND APPROACHES TO ERADICATE THEM REMAIN A SIGNIFICANT UNMET CLINICAL NEED. WE DEMONSTRATE THAT EZH2 AND H3K27ME3 REPROGRAMMING IS IMPORTANT FOR LSC SURVIVAL, BUT RENDERS LSCS SENSITIVE TO THE COMBINED EFFECTS OF EZH2I AND TKI. THIS REPRESENTS A NOVEL APPROACH TO MORE EFFECTIVELY TARGET LSCS IN PATIENTS RECEIVING TKI TREATMENT. CANCER DISCOV; 6(11); 1248-57. (C)2016 AACR.SEE RELATED ARTICLE BY XIE ET AL., P. 1237THIS ARTICLE IS HIGHLIGHTED IN THE IN THIS ISSUE FEATURE, P. 1197. 2016 5 5924 36 TARGETING DNMT1 BY DEMETHYLATING AGENT OR-2100 INCREASES TYROSINE KINASE INHIBITORS-SENSITIVITY AND DEPLETES LEUKEMIC STEM CELLS IN CHRONIC MYELOID LEUKEMIA. ABL1 TYROSINE KINASE INHIBITORS (TKIS) DRAMATICALLY IMPROVE THE PROGNOSIS OF CHRONIC MYELOID LEUKEMIA (CML), BUT 10-20% OF PATIENTS ACHIEVE SUBOPTIMAL RESPONSES WITH LOW TKIS SENSITIVITY. FURTHERMORE, RESIDUAL LEUKEMIC STEM CELLS (LSCS) ARE INVOLVED IN THE MOLECULAR RELAPSE AFTER TKIS DISCONTINUATION. ABERRANT DNA HYPERMETHYLATION CONTRIBUTES TO LOW TKIS SENSITIVITY AND THE PERSISTENCE OF LSCS IN CML. DNMT1 IS A KEY REGULATOR OF HEMATOPOIETIC STEM CELLS, SUGGESTING THAT ABERRANT DNA HYPERMETHYLATION TARGETING DNMT1 REPRESENTS A POTENTIAL THERAPEUTIC TARGET FOR CML. WE INVESTIGATED THE EFFICACY OF OR-2100 (OR21), THE FIRST ORALLY AVAILABLE SINGLE-COMPOUND PRODRUG OF DECITABINE. OR21 EXHIBITED ANTI-TUMOR EFFECTS AS A MONOTHERAPY, AND IN COMBINATION THERAPY IT INCREASED TKI-INDUCED APOPTOSIS AND INDUCTION OF TUMOR SUPPRESSOR GENES INCLUDING PTPN6 ENCODING SHP-1 IN CML CELLS. OR21 IN COMBINATION WITH IMATINIB SIGNIFICANTLY SUPPRESSED TUMOR GROWTH IN A XENOTRANSPLANT MODEL. OR21 AND COMBINATION THERAPY DECREASED THE ABUNDANCE OF LSCS AND INHIBITED ENGRAFTMENT IN A BCR-ABL1-TRANSDUCED MOUSE MODEL. THESE RESULTS DEMONSTRATE THAT TARGETING DNMT1 USING OR21 EXERTS ANTI-TUMOR EFFECTS AND IMPAIRS LSCS IN CML. THEREFORE, COMBINATION TREATMENT OF TKIS AND OR21 REPRESENTS A PROMISING TREATMENT STRATEGY IN CML. 2022 6 952 32 CHRONIC MYELOID LEUKEMIA STEM CELL BIOLOGY. LEUKEMIA PROGRESSION AND RELAPSE IS FUELED BY LEUKEMIA STEM CELLS (LSC) THAT ARE RESISTANT TO CURRENT TREATMENTS. IN THE PROGRESSION OF CHRONIC MYELOID LEUKEMIA (CML), BLAST CRISIS PROGENITORS ARE CAPABLE OF ADOPTING MORE PRIMITIVE BUT DEREGULATED STEM CELL FEATURES WITH ACQUIRED RESISTANCE TO TARGETED THERAPIES. THIS IN TURN PROMOTES LSC BEHAVIOR CHARACTERIZED BY ABERRANT SELF-RENEWAL, DIFFERENTIATION, AND SURVIVAL CAPACITY. MULTIPLE REPORTS SUGGEST THAT CELL CYCLE ALTERATIONS, ACTIVATION OF CRITICAL SIGNALING PATHWAYS, ABERRANT MICROENVIRONMENTAL CUES FROM THE HEMATOPOIETIC NICHE, AND ABERRANT EPIGENETIC EVENTS AND DEREGULATION OF RNA PROCESSING MAY FACILITATE THE ENHANCED SURVIVAL AND MALIGNANT TRANSFORMATION OF CML PROGENITORS. HERE WE REVIEW THE MOLECULAR EVOLUTION OF CML LSC THAT PROMOTES CML PROGRESSION AND RELAPSE. RECENT ADVANCES IN THESE AREAS HAVE IDENTIFIED NOVEL TARGETS THAT REPRESENT IMPORTANT AVENUES FOR FUTURE THERAPEUTIC APPROACHES AIMED AT SELECTIVELY ERADICATING THE LSC POPULATION WHILE SPARING NORMAL HEMATOPOIETIC PROGENITORS IN PATIENTS SUFFERING FROM CHRONIC MYELOID MALIGNANCIES. 2012 7 690 36 BRD4 DEGRADATION BLOCKS EXPRESSION OF MYC AND MULTIPLE FORMS OF STEM CELL RESISTANCE IN PH(+) CHRONIC MYELOID LEUKEMIA. IN MOST PATIENTS WITH CHRONIC MYELOID LEUKEMIA (CML) CLONAL CELLS CAN BE KEPT UNDER CONTROL BY BCR::ABL1 TYROSINE KINASE INHIBITORS (TKI). HOWEVER, OVERT RESISTANCE OR INTOLERANCE AGAINST THESE TKI MAY OCCUR. WE IDENTIFIED THE EPIGENETIC READER BRD4 AND ITS DOWNSTREAM-EFFECTOR MYC AS GROWTH REGULATORS AND THERAPEUTIC TARGETS IN CML CELLS. BRD4 AND MYC WERE FOUND TO BE EXPRESSED IN PRIMARY CML CELLS, CD34(+) /CD38(-) LEUKEMIC STEM CELLS (LSC), AND IN THE CML CELL LINES KU812, K562, KCL22, AND KCL22(T315I) . THE BRD4-TARGETING DRUG JQ1 WAS FOUND TO SUPPRESS PROLIFERATION IN KU812 CELLS AND PRIMARY LEUKEMIC CELLS IN THE MAJORITY OF PATIENTS WITH CHRONIC PHASE CML. IN THE BLAST PHASE OF CML, JQ1 WAS LESS EFFECTIVE. HOWEVER, THE BRD4 DEGRADER DBET6 WAS FOUND TO BLOCK PROLIFERATION AND/OR SURVIVAL OF PRIMARY CML CELLS IN ALL PATIENTS TESTED, INCLUDING BLAST PHASE CML AND CML CELLS EXHIBITING THE T315I VARIANT OF BCR::ABL1. MOREOVER, DBET6 WAS FOUND TO BLOCK MYC EXPRESSION AND TO SYNERGIZE WITH BCR::ABL1 TKI IN INHIBITING THE PROLIFERATION IN THE JQ1-RESISTANT CELL LINE K562. FURTHERMORE, BRD4 DEGRADATION WAS FOUND TO OVERCOME OSTEOBLAST-INDUCED TKI RESISTANCE OF CML LSC IN A CO-CULTURE SYSTEM AND TO BLOCK INTERFERON-GAMMA-INDUCED UPREGULATION OF THE CHECKPOINT ANTIGEN PD-L1 IN LSC. FINALLY, DBET6 WAS FOUND TO SUPPRESS THE IN VITRO SURVIVAL OF CML LSC AND THEIR ENGRAFTMENT IN NSG MICE. TOGETHER, TARGETING OF BRD4 AND MYC THROUGH BET DEGRADATION SENSITIZES CML CELLS AGAINST BCR::ABL1 TKI AND IS A POTENT APPROACH TO OVERCOME MULTIPLE FORMS OF DRUG RESISTANCE IN CML LSC. 2022 8 4532 24 MULTIMODAL ANALGESIA FOR PERIOPERATIVE MANAGEMENT OF PATIENTS PRESENTING FOR SPINAL SURGERY. MULTIMODAL, NON-OPIOID BASED ANALGESIA HAS BECOME THE CORNERSTONE OF ERAS PROTOCOLS FOR EFFECTIVE ANALGESIA AFTER SPINAL SURGERY. OPIOID SIDE EFFECTS, DEPENDENCE AND LEGISLATION RESTRICTING LONG TERM OPIOID USE HAS LED TO A RESURGENCE IN INTEREST IN OPIOID SPARING TECHNIQUES. THE INCREASING ARRAY OF MULTIMODAL OPIOID SPARING ANALGESICS AVAILABLE FOR SPINAL SURGERY TARGETING NOVEL RECEPTORS, TRANSMITTERS, AND ALTERING EPIGENETICS CAN HELP PROVIDE AN OPTIMAL PERIOPERATIVE EXPERIENCE WITH LESS OPIOID SIDE EFFECTS AND LONG-TERM DEPENDENCE. EPIGENETIC MECHANISMS OF PAIN MAY ENHANCE OR SUPPRESS GENE EXPRESSION, WITHOUT ALTERING THE GENOME ITSELF. SUCH MECHANISMS ARE COMPLEX, DYNAMIC AND RESPONSIVE TO ENVIRONMENT. ALTERATIONS THAT OCCUR CAN AFFECT THE PATHOPHYSIOLOGY OF PAIN MANAGEMENT AT A DNA LEVEL, MODIFYING PERCEIVED PAIN RELIEF. IN THIS REVIEW, WE PROVIDE A BRIEF OVERVIEW OF EPIGENETICS OF PAIN, SYSTEMIC LOCAL ANESTHETICS AND NEURAXIAL TECHNIQUES THAT CONTINUE TO REMAIN USEFUL FOR SPINAL SURGERY, NEUROPATHIC AGENTS, AS WELL AS OTHER COMMON AND LESS COMMON TARGET RECEPTORS FOR A TRULY MULTIMODAL APPROACH TO PERIOPERATIVE PAIN MANAGEMENT. 2019 9 4741 46 NOVEL HDAC INHIBITOR MAKV-8 AND IMATINIB SYNERGISTICALLY KILL CHRONIC MYELOID LEUKEMIA CELLS VIA INHIBITION OF BCR-ABL/MYC-SIGNALING: EFFECT ON IMATINIB RESISTANCE AND STEM CELLS. BACKGROUND: CHRONIC MYELOID LEUKEMIA (CML) PATHOGENESIS IS MAINLY DRIVEN BY THE ONCOGENIC BREAKPOINT CLUSTER REGION-ABELSON MURINE LEUKEMIA VIRAL ONCOGENE HOMOLOG 1 (BCR-ABL) FUSION PROTEIN. SINCE BCR-ABL DISPLAYS ABNORMAL CONSTITUTIVE TYROSINE KINASE ACTIVITY, THERAPIES USING TYROSINE KINASE INHIBITORS (TKIS) SUCH AS IMATINIB REPRESENT A MAJOR BREAKTHROUGH FOR THE OUTCOME OF CML PATIENTS. NEVERTHELESS, THE DEVELOPMENT OF TKI RESISTANCE AND THE PERSISTENCE OF LEUKEMIA STEM CELLS (LSCS) REMAIN BARRIERS TO CURE THE DISEASE, JUSTIFYING THE DEVELOPMENT OF NOVEL THERAPEUTIC APPROACHES. SINCE THE ACTIVITY OF HISTONE DEACETYLASE (HDAC) IS DEREGULATED IN NUMEROUS CANCERS INCLUDING CML, PAN-HDAC INHIBITORS MAY REPRESENT PROMISING THERAPEUTIC REGIMENS FOR THE TREATMENT OF CML CELLS IN COMBINATION WITH TKI. RESULTS: WE ASSESSED THE ANTI-LEUKEMIC ACTIVITY OF A NOVEL HYDROXAMATE-BASED PAN-HDAC INHIBITOR MAKV-8, WHICH COMPLIED WITH THE LIPINSKI'S "RULE OF FIVE," IN VARIOUS CML CELLS ALONE OR IN COMBINATION WITH IMATINIB. WE VALIDATED THE IN VITRO HDAC-INHIBITORY POTENTIAL OF MAKV-8 AND DEMONSTRATED EFFICIENT BINDING TO THE LIGAND-BINDING POCKET OF HDAC ISOENZYMES. IN CELLULO, MAKV-8 SIGNIFICANTLY INDUCED TARGET PROTEIN ACETYLATION, DISPLAYED CYTOSTATIC AND CYTOTOXIC PROPERTIES, AND TRIGGERED CONCOMITANT ER STRESS/PROTECTIVE AUTOPHAGY LEADING TO CANONICAL CASPASE-DEPENDENT APOPTOSIS. CONSIDERING THE SPECIFIC UPREGULATION OF SELECTED HDACS IN LSCS FROM CML PATIENTS, WE INVESTIGATED THE DIFFERENTIAL TOXICITY OF A CO-TREATMENT WITH MAKV-8 AND IMATINIB IN CML VERSUS HEALTHY CELLS. WE ALSO SHOWED THAT BECLIN-1 KNOCKDOWN PREVENTED MAKV-8-IMATINIB COMBINATION-INDUCED APOPTOSIS. MOREOVER, MAKV-8 AND IMATINIB CO-TREATMENT SYNERGISTICALLY REDUCED BCR-ABL-RELATED SIGNALING PATHWAYS INVOLVED IN CML CELL GROWTH AND SURVIVAL. SINCE OUR RESULTS SHOWED THAT LSCS FROM CML PATIENTS OVEREXPRESSED C-MYC, IMPORTANTLY MAKV-8-IMATINIB CO-TREATMENT REDUCED C-MYC LEVELS AND THE LSC POPULATION. IN VIVO, TUMOR GROWTH OF XENOGRAFTED K-562 CELLS IN ZEBRAFISH WAS COMPLETELY ABROGATED UPON COMBINED TREATMENT WITH MAKV-8 AND IMATINIB. CONCLUSIONS: COLLECTIVELY, THE PRESENT FINDINGS SHOW THAT COMBINATIONS HDAC INHIBITOR-IMATINIB ARE LIKELY TO OVERCOME DRUG RESISTANCE IN CML PATHOLOGY. 2020 10 5212 39 PRESERVATION OF QUIESCENT CHRONIC MYELOGENOUS LEUKEMIA STEM CELLS BY THE BONE MARROW MICROENVIRONMENT. THE MAJORITY OF LEUKEMIA PATIENTS ACHIEVING REMISSION ULTIMATELY RELAPSE. PERSISTENCE OF LEUKEMIA STEM CELLS (LSC) CAPABLE OF REGENERATING LEUKEMIA IS A MAJOR CAUSE OF RELAPSE. THERE IS A PRESSING NEED TO BETTER UNDERSTAND MECHANISMS OF LSC REGULATION AND THEIR RESISTANCE TO THERAPY IN ORDER TO IMPROVE OUTCOMES FOR LEUKEMIA. CHRONIC MYELOGENOUS LEUKEMIA (CML) IS A LETHAL MYELOPROLIFERATIVE DISORDER THAT THAT IS CAUSED BY HEMATOPOIETIC STEM CELL (HSC) TRANSFORMATION BY THE BCR-ABL TYROSINE KINASE. TREATMENT WITH TYROSINE KINASE INHIBITORS (TKI) HAS REVOLUTIONIZED CML TREATMENT, BUT FAILS TO ELIMINATE LSC RESPONSIBLE FOR PROPAGATING AND REGENERATING LEUKEMIA. THEREFORE, PATIENTS REQUIRE CONTINUED TREATMENT TO PREVENT RELAPSE. LEUKEMIC AND NORMAL STEM CELLS SHARE PROPERTIES OF QUIESCENCE AND SELF-RENEWAL, THAT ARE SUPPORTED BY BONE MARROW NICHES. PERSISTENCE OF LSC AFTER TKI TREATMENT IS RELATED TO TYROSINE KINASE INDEPENDENT MECHANISMS WHICH INCLUDE INTRINSIC PROPERTIES OF LSCS DETERMINED BY EPIGENETIC ALTERATIONS, ALTERED TRANSCRIPTIONAL REGULATORY NETWORKS OR MITOCHONDRIAL/METABOLIC CHANGES. IN ADDITION TO CELL INTRINSIC CHANGES, SIGNALS FROM THE BONE MARROW MICROENVIRONMENT (BMM) PLAY A CRITICAL ROLE IN PROTECTING LSC FROM TKI TREATMENT. EACH TYPE OF ALTERATION MAY OFFER POTENTIAL POINTS OF INTERVENTION FOR THERAPEUTIC TARGETING OF LSC. 2018 11 3158 37 GLYCOGEN SYNTHASE KINASE 3BETA MISSPLICING CONTRIBUTES TO LEUKEMIA STEM CELL GENERATION. RECENT EVIDENCE SUGGESTS THAT A RARE POPULATION OF SELF-RENEWING CANCER STEM CELLS (CSC) IS RESPONSIBLE FOR CANCER PROGRESSION AND THERAPEUTIC RESISTANCE. CHRONIC MYELOID LEUKEMIA (CML) REPRESENTS AN IMPORTANT PARADIGM FOR UNDERSTANDING THE GENETIC AND EPIGENETIC EVENTS INVOLVED IN CSC PRODUCTION. CML PROGRESSES FROM A CHRONIC PHASE (CP) IN HEMATOPOIETIC STEM CELLS (HSC) THAT HARBOR THE BCR-ABL TRANSLOCATION, TO BLAST CRISIS (BC), CHARACTERIZED BY ABERRANT ACTIVATION OF BETA-CATENIN WITHIN GRANULOCYTE-MACROPHAGE PROGENITORS (GMP). A MAJOR BARRIER TO PREDICTING AND INHIBITING BLAST CRISIS TRANSFORMATION HAS BEEN THE IDENTIFICATION OF MECHANISMS DRIVING BETA-CATENIN ACTIVATION. HERE WE SHOW THAT BC CML MYELOID PROGENITORS, IN PARTICULAR GMP, SERIALLY TRANSPLANT LEUKEMIA IN IMMUNOCOMPROMISED MICE AND THUS ARE ENRICHED FOR LEUKEMIA STEM CELLS (LSC). NOTABLY, CDNA SEQUENCING OF WNT/BETA-CATENIN PATHWAY REGULATORY GENES, INCLUDING ADENOMATOUS POLYPOSIS COLI, GSK3BETA, AXIN 1, BETA-CATENIN, LYMPHOID ENHANCER FACTOR-1, CYCLIN D1, AND C-MYC, REVEALED A NOVEL IN-FRAME SPLICE DELETION OF THE GSK3BETA KINASE DOMAIN IN THE GMP OF BC SAMPLES THAT WAS NOT DETECTABLE BY SEQUENCING IN BLASTS OR NORMAL PROGENITORS. MOREOVER, BC CML PROGENITORS WITH MISSPLICED GSK3BETA HAVE ENHANCED BETA-CATENIN EXPRESSION AS WELL AS SERIAL ENGRAFTMENT POTENTIAL WHILE REINTRODUCTION OF FULL-LENGTH GSK3BETA REDUCES BOTH IN VITRO REPLATING AND LEUKEMIC ENGRAFTMENT. WE PROPOSE THAT CP CML IS INITIATED BY BCR-ABL EXPRESSION IN AN HSC CLONE BUT THAT PROGRESSION TO BC MAY INCLUDE MISSPLICING OF GSK3BETA IN GMP LSC, ENABLING UNPHOSPHORYLATED BETA-CATENIN TO PARTICIPATE IN LSC SELF-RENEWAL. MISSPLICING OF GSK3BETA REPRESENTS A UNIQUE MECHANISM FOR THE EMERGENCE OF BC CML LSC AND MIGHT PROVIDE A NOVEL DIAGNOSTIC AND THERAPEUTIC TARGET. 2009 12 4533 41 MULTIPLE GENE KNOCKDOWN STRATEGIES FOR INVESTIGATING THE PROPERTIES OF HUMAN LEUKEMIA STEM CELLS AND EXPLORING NEW THERAPIES. THE PAST TWO DECADES HAVE WITNESSED SIGNIFICANT STRIDES IN LEUKEMIA THERAPIES THROUGH APPROVAL OF THERAPEUTIC INHIBITORS TARGETING ONCOGENE-DRIVING DYSREGULATED TYROSINE KINASE ACTIVITIES AND KEY EPIGENETIC AND APOPTOSIS REGULATORS. ALTHOUGH THESE DRUGS HAVE BROUGHT ABOUT COMPLETE REMISSION IN THE MAJORITY OF PATIENTS, MANY PATIENTS FACE RELAPSE OR HAVE REFRACTORY DISEASE. THE MAIN FACTOR CONTRIBUTING TO RELAPSE IS THE PRESENCE OF A SMALL SUBPOPULATION OF DORMANT DRUG-RESISTANT LEUKEMIA CELLS THAT POSSESS STEM CELL FEATURES (TERMED AS LEUKEMIA STEM CELLS OR LSCS). THUS, OVERCOMING DRUG RESISTANCE AND TARGETING LSCS REMAIN MAJOR CHALLENGES FOR CURATIVE TREATMENT OF HUMAN LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A GOOD EXAMPLE, WITH RARE, PROPAGATING LSCS AND DRUG-RESISTANT CELLS THAT CANNOT BE ERADICATED BY BCR-ABL-DIRECTED TYROSINE KINASE INHIBITOR (TKI) MONOTHERAPY AND THAT ARE RESPONSIBLE FOR DISEASE RELAPSE/PROGRESSION. THEREFORE, IT IS IMPERATIVE TO IDENTIFY KEY PLAYERS IN REGULATING BCR-ABL1-DEPENDENT AND INDEPENDENT DRUG-RESISTANCE MECHANISMS, AND THEIR KEY PATHWAYS, SO THAT CML LSCS CAN BE SELECTIVELY TARGETED OR SENSITIZED TO TKIS. HERE, WE DESCRIBE SEVERAL EASILY ADAPTABLE GENE KNOCKDOWN APPROACHES IN CD34(+) CML STEM/PROGENITOR CELLS THAT CAN BE USED TO INVESTIGATE THE BIOLOGICAL PROPERTIES OF LSCS AND MOLECULAR EFFECTS OF GENES OF INTEREST (GOI), WHICH CAN BE FURTHER EXPLORED AS THERAPEUTIC MODALITIES AGAINST LSCS IN THE CONTEXT OF HUMAN LEUKEMIA. 2022 13 4003 38 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 14 953 37 CHRONIC MYELOID LEUKEMIA STEM CELLS. ALTHOUGH RARE, CHRONIC MYELOID LEUKEMIA (CML) REPRESENTS AN IMPORTANT PARADIGM FOR UNDERSTANDING THE MOLECULAR EVENTS LEADING TO MALIGNANT TRANSFORMATION OF PRIMITIVE HEMATOPOIETIC PROGENITORS. CML WAS THE FIRST CANCER TO BE ASSOCIATED WITH A DEFINED GENETIC ABNORMALITY, BCR-ABL, THAT IS NECESSARY AND SUFFICIENT FOR INITIATING CHRONIC PHASE DISEASE AS WELL AS THE FIRST CANCER TO BE TREATED WITH MOLECULAR TARGETED THERAPY. MALIGNANT PROGENITORS OR LEUKEMIA STEM CELLS (LSCS) EVOLVE AS A RESULT OF BOTH EPIGENETIC AND GENETIC EVENTS THAT ALTER HEMATOPOIETIC PROGENITOR DIFFERENTIATION, PROLIFERATION, SURVIVAL, AND SELF-RENEWAL. LSCS ARE RARE AND DIVIDE LESS FREQUENTLY, AND THUS, REPRESENT A RESERVOIR FOR RELAPSE AND RESISTANCE TO A MOLECULARLY TARGETED SINGLE AGENT. ON SUBVERTING DEVELOPMENTAL PROCESSES NORMALLY RESPONSIBLE FOR MAINTAINING ROBUST LIFE-LONG HEMATOPOIESIS, THE LSCS ARE ABLE TO EVADE THE MAJORITY OF CURRENT CANCER TREATMENTS THAT TARGET RAPIDLY DIVIDING CELLS. ENTHUSIASM FOR THE ENORMOUS SUCCESS OF TYROSINE KINASE INHIBITORS AT CONTROLLING THE CHRONIC PHASE DISEASE IS TEMPERED SOMEWHAT BY THE PERSISTENCE OF THE LSC POOL IN THE MAJORITY OF THE PATIENTS. COMBINED THERAPIES TARGETING ABERRANT PROPERTIES OF LSC MAY OBVIATE THERAPEUTIC RESISTANCE AND RELAPSE IN ADVANCED PHASE AND THERAPEUTICALLY RECALCITRANT CML. 2008 15 573 40 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 16 1142 34 CONCISE REVIEW: CHRONIC MYELOID LEUKEMIA: STEM CELL NICHE AND RESPONSE TO PHARMACOLOGIC TREATMENT. NOWADAYS, MORE THAN 90% OF PATIENTS AFFECTED BY CHRONIC MYELOID LEUKEMIA (CML) SURVIVE WITH A GOOD QUALITY OF LIFE, THANKS TO THE CLINICAL EFFICACY OF TYROSINE KINASE INHIBITORS (TKIS). NEVERTHELESS, POINT MUTATIONS OF THE ABL1 POCKET OCCURRING DURING TREATMENT MAY REDUCE BINDING OF TKIS, BEING RESPONSIBLE OF ABOUT 20% OF CASES OF RESISTANCE AMONG CML PATIENTS. IN ADDITION, THE PRESENCE OF LEUKEMIC STEM CELLS (LSCS) REPRESENTS THE MOST IMPORTANT EVENT IN LEUKEMIA PROGRESSION RELATED TO TKI RESISTANCE. LSCS EXPRESS STEM CELL MARKERS, INCLUDING ACTIVE EFFLUX PUMPS AND GENETIC AND EPIGENETIC ALTERATIONS TOGETHER WITH DEREGULATED CELL SIGNALING PATHWAYS INVOLVED IN SELF-RENEWAL, SUCH AS WNT/BETA-CATENIN, NOTCH, AND HEDGEHOG. MOREOVER, THE INTERACTION WITH THE BONE MARROW MICROENVIRONMENT, ALSO KNOWN AS HEMATOPOIETIC NICHE, MAY INFLUENCE THE PHENOTYPE OF SURROUNDING CELLS, WHICH EVADE MECHANISMS CONTROLLING CELL PROLIFERATION AND ARE LESS SENSITIVE OR FRANKLY RESISTANT TO TKIS. THIS REVIEW FOCUSES ON THE ROLE OF LSCS AND STEM CELL NICHE IN RELATION TO RESPONSE TO PHARMACOLOGICAL TREATMENTS. A LITERATURE SEARCH FROM PUBMED DATABASE WAS PERFORMED UNTIL APRIL 30, 2017, AND IT HAS BEEN ANALYZED ACCORDING TO KEYWORDS SUCH AS CHRONIC MYELOID LEUKEMIA, STEM CELL, LEUKEMIC STEM CELLS, HEMATOPOIETIC NICHE, TYROSINE KINASE INHIBITORS, AND DRUG RESISTANCE. STEM CELLS TRANSLATIONAL MEDICINE 2018;7:305-314. 2018 17 955 29 CHRONIC MYELOID LEUKEMIA: MECHANISMS OF BLASTIC TRANSFORMATION. THE BCR-ABL1 ONCOPROTEIN TRANSFORMS PLURIPOTENT HSCS AND INITIATES CHRONIC MYELOID LEUKEMIA (CML). PATIENTS WITH EARLY PHASE (ALSO KNOWN AS CHRONIC PHASE [CP]) DISEASE USUALLY RESPOND TO TREATMENT WITH ABL TYROSINE KINASE INHIBITORS (TKIS), ALTHOUGH SOME PATIENTS WHO RESPOND INITIALLY LATER BECOME RESISTANT. IN MOST PATIENTS, TKIS REDUCE THE LEUKEMIA CELL LOAD SUBSTANTIALLY, BUT THE CELLS FROM WHICH THE LEUKEMIA CELLS ARE DERIVED DURING CP (SO-CALLED LEUKEMIA STEM CELLS [LSCS]) ARE INTRINSICALLY INSENSITIVE TO TKIS AND SURVIVE LONG TERM. LSCS OR THEIR PROGENY CAN ACQUIRE ADDITIONAL GENETIC AND/OR EPIGENETIC CHANGES THAT CAUSE THE LEUKEMIA TO TRANSFORM FROM CP TO A MORE ADVANCED PHASE, WHICH HAS BEEN SUBCLASSIFIED AS EITHER ACCELERATED PHASE OR BLASTIC PHASE DISEASE. THE LATTER RESPONDS POORLY TO TREATMENT AND IS USUALLY FATAL. HERE, WE DISCUSS WHAT IS KNOWN ABOUT THE MOLECULAR MECHANISMS LEADING TO BLASTIC TRANSFORMATION OF CML AND PROPOSE SOME NOVEL THERAPEUTIC APPROACHES. 2010 18 571 30 BCR-ABL INDUCES AUTOCRINE IGF-1 SIGNALING. BCR-ABL ONCOGENE IS RESPONSIBLE FOR THE INITIAL PHASE OF CHRONIC MYELOGENOUS LEUKEMIA (CML), WHICH IS EFFECTIVELY TREATED BY THE BCR-ABL INHIBITOR IMATINIB. OVER TIME PATIENTS BECOME RESISTANT TO TREATMENT AND PROGRESS TO BLAST CRISIS, AN EVENT THAT IS DRIVEN BY ADDITIONAL GENETIC AND EPIGENETIC ABERRATIONS. RECENTLY, WE SHOWED THAT RIZ1 EXPRESSION DECREASES IN BLAST CRISIS AND THAT RE-EXPRESSION OF RIZ1 INHIBITS IGF-1 EXPRESSION. IGF-1 SIGNALING IS REQUIRED IN MANY STAGES OF HEMATOPOIESIS AND INAPPROPRIATE ACTIVATION OF AUTOCRINE IGF-1 SIGNALING MAY FACILITATE TRANSFORMATION TO BLAST CRISIS. WE OBSERVED THAT IN 8 OUT OF 11 MATCHED CML PATIENT BIOPSIES THE IGF-1 EXPRESSION IS ELEVATED IN BLAST CRISIS. WE EXAMINED MECHANISMS USED BY CML BLAST CRISIS CELL LINES TO ACTIVATE IGF-1 EXPRESSION. WE FOUND THAT BCR-ABL ACTIVATES AUTOCRINE IGF-1 SIGNALING USING HCK AND STAT5B. INHIBITION OF THESE SIGNALING COMPONENTS USING SMALL MOLECULE DRUGS OR SHRNA DECREASES PROLIFERATION AND ENHANCES APOPTOSIS. TOGETHER, OUR STUDY SUGGESTS THAT ABERRANT IGF-1 SIGNALING IS AN IMPORTANT EVENT IN BLAST CRISIS TRANSFORMATION AND IT PROVIDES A MECHANISM TO EXPLAIN THE ACTIVITY OF IGF-1R AND HCK INHIBITORS IN BLOCKING CML BLAST CRISIS PHENOTYPES. 2008 19 4877 42 OVEREXPRESSION OF MIR-4433 BY SUBEROYLANILIDE HYDROXAMIC ACID SUPPRESSES GROWTH OF CML CELLS AND INDUCES APOPTOSIS THROUGH TARGETING BCR-ABL. BACKGROUND: TARGETING BCR-ABL IS THE KEY FOR THE TREATMENT OF CML. ALTHOUGH GREAT PROGRESS HAS BEEN ACHIEVED FOR THE TREATMENT OF CML PATIENTS IN CHRONIC STAGE, EFFECTIVE DRUGS WITH GOOD SAFETY ARE NOT AVAILABLE FOR THOSE IN ADVANCED STAGES OF CML PATIENTS. IN PRESENT STUDY, A HISTONE DEACETYLASE INHIBITOR, SUBEROYLANILIDE HYDROXAMIC ACID (SAHA), WAS USED TO SCREEN FOR MICRORNA THAT CAN TARGET BCR-ABL. METHODS: RT-QPCR WAS USED TO DETERMINE BCR-ABL AND MIR-4433 TRANSCRIPTION LEVEL IN CML CELLS. IN CML CELLS, PROTEINS INCLUDING PARP, CASPASE-3, ACETYL-HISTONE 3, HISTONE 3 AND BCR-ABL, AS WELL AS BCR-ABL DOWNSTREAM PROTEINS WERE DETECTED USING WESTERN BLOT. CELL VIABILITY AND APOPTOSIS WERE MONITORED RESPECTIVELY BY MTS ASSAY AND FLOW CYTOMETRY. THE CORRELATION BETWEEN MIR-4433 AND BCR-ABL WAS DETERMINED BY LUCIFERASE REPORTER ASSAY. THE ANTI-TUMOR EFFECT OF MIR-4433 TO K562 CELLS WAS EVALUATED BY NUDE MOUSE XENOGRAFT MODEL IN VIVO. RESULTS: SAHA UP-REGULATED THE ACETYLATION LEVEL OF HISTONE 3, AND EFFECTIVELY INHIBITED BCR-ABL MRNA LEVEL AND ITS DOWNSTREAM SIGNAL TRANSDUCTION PATHWAY, WHILE INHIBITING THE GROWTH OF CML CELLS AND INDUCING APOPTOSIS. FURTHERMORE, BIOINFORMATICS TOOLS PREDICTED THAT MIR-4433 IS A PUTATIVE MICRORNA TARGETING BCR-ABL AND THAT THE EXPRESSION LEVEL OF MIR-4433 WAS SIGNIFICANTLY INCREASED AFTER SAHA TREATMENT IN K562 CELLS. LUCIFERASE ACTIVITY ANALYSIS REVEALED THAT MIR-4433 DIRECTLY TARGETS BCR-ABL. ADDITIONALLY, TRANSIENT EXPRESSION OF MIR-4433 ABROGATED BCR-ABL ACTIVITY AND ITS DOWNSTREAM SIGNALING PATHWAYS WHILE INDUCING APOPTOSIS IN K562 CELLS. MOREOVER, STABLE EXPRESSION OF MIR-4433 SUPPRESSED BCR-ABL AND ITS DOWNSTREAM SIGNALING PATHWAY, AND INHIBITED THE GROWTH OF K562 CELLS IN VITRO AND THE GROWTH OF K562-XENOGRAFTS IN NUDE MICE. CONCLUSION: MIR-4433 WAS IDENTIFIED AS A MICRORNA TARGETING BCR-ABL, WHICH MAY BE SUBJECT TO EPIGENETIC REGULATION OF SAHA, A HISTONE DEACETYLASE INHIBITOR THAT HAS BEEN APPROVED BY THE US FDA FOR THE TREATMENT OF CUTANEOUS T-CELL LYMPHOMA. THE FINDINGS OF THIS STUDY PROVIDE A MOLECULAR BASIS FROM ANOTHER ANGLE FOR THE USE OF SAHA IN THE TREATMENT OF CML. 2019 20 3530 41 IMATINIB (ST1571) PROVIDES ONLY LIMITED SELECTIVITY FOR CML CELLS AND TREATMENT MIGHT BE COMPLICATED BY SILENT BCR-ABL GENES. VERY PROMISING RESULTS HAVE BEEN OBTAINED IN CLINICAL TRIALS ON CHRONIC-PHASE CHRONIC MYELOID LEUKEMIA (CP-CML) PATIENTS TREATED WITH IMATINIB MESYLATE (IM; GLEEVECR, STI571), A BCR-ABL TYROSINE KINASE INHIBITOR. HOWEVER, WE FOUND THAT IM CAUSED CONSIDERABLE INHIBITION OF NORMAL HEMATOPOIETIC PROGENITOR CELLS UPON TREATING CONTROL BONE MARROW (BM) CULTURES. IN VITRO IM TREATMENT GAVE A DECREASE IN THE YIELD AND SIZE OF COLONIES FROM BM OF UNTREATED CP-CML PATIENTS THAT WAS ONLY TWO TO THREE TIMES THAT FROM THE NORMAL SAMPLES. MOREOVER, ABOUT 30% OF MYELOID PROGENITORS (CFU-GM) FROM CML BM STILL FORMED COLONIES IN THE PRESENCE OF IM, MOST OF WHICH HAD BCR-ABL RNA. ABOUT HALF OF THESE TREATED COLONIES ALSO DISPLAYED METHYLATION OF THE INTERNAL ABL PA PROMOTER, A CML-SPECIFIC EPIGENETIC ALTERATION, WHICH WAS USED IN THIS STUDY AS A MARKER FOR BCR-ABL TRANSLOCATION-CONTAINING CELLS. HOWEVER, ~5-8% OF THE TREATED OR THE UNTREATED CML BM-DERIVED COLONIES HAD NO DETECTABLE BCR-ABL RNA BY TWO OR THREE ROUNDS OF RT-PCR DESPITE BEING POSITIVE FOR THE INTERNAL STANDARD RNA AND DISPLAYING HALLMARKS OF CML, EITHER T(9;22)(Q34;QL 1) OR ABL PA METHYLATION. OUR RESULTS INDICATE THAT IM IS ONLY PARTIALLY SPECIFIC FOR CML PROGENITOR CELLS COMPARED TO NORMAL HEMATOPOIETIC PROGENITOR CELLS AND SUGGEST THAT SOME CML CELLS MAY HAVE A SILENT BCR-ABL ONCOGENE THAT COULD INTERFERE WITH THERAPY. 2003