1 2928 103 GENERATION OF IPSCS FROM CULTURED HUMAN MALIGNANT CELLS. INDUCED PLURIPOTENT STEM CELLS (IPSCS) CAN BE GENERATED FROM VARIOUS DIFFERENTIATED CELL TYPES BY THE EXPRESSION OF A SET OF DEFINED TRANSCRIPTION FACTORS. SO FAR, IPSCS HAVE BEEN GENERATED FROM PRIMARY CELLS, BUT IT IS UNCLEAR WHETHER HUMAN CANCER CELL LINES CAN BE REPROGRAMMED. HERE WE DESCRIBE THE GENERATION AND CHARACTERIZATION OF IPSCS DERIVED FROM HUMAN CHRONIC MYELOID LEUKEMIA CELLS. WE SHOW THAT, DESPITE THE PRESENCE OF ONCOGENIC MUTATIONS, THESE CELLS ACQUIRED PLURIPOTENCY BY THE EXPRESSION OF 4 TRANSCRIPTION FACTORS AND UNDERWENT DIFFERENTIATION INTO CELL TYPES DERIVED OF ALL 3 GERM LAYERS DURING TERATOMA FORMATION. INTERESTINGLY, ALTHOUGH THE PARENTAL CELL LINE WAS STRICTLY DEPENDENT ON CONTINUOUS SIGNALING OF THE BCR-ABL ONCOGENE, ALSO TERMED ONCOGENE ADDICTION, REPROGRAMMED CELLS LOST THIS DEPENDENCY AND BECAME RESISTANT TO THE BCR-ABL INHIBITOR IMATINIB. THIS FINDING INDICATES THAT THE THERAPEUTIC AGENT IMATINIB TARGETS CELLS IN A SPECIFIC EPIGENETIC DIFFERENTIATED CELL STATE, AND THIS MAY CONTRIBUTE TO ITS INABILITY TO FULLY ERADICATE DISEASE IN CHRONIC MYELOID LEUKEMIA PATIENTS. 2010 2 5405 33 REGULATED EXPRESSION OF P210 BCR-ABL DURING EMBRYONIC STEM CELL DIFFERENTIATION STIMULATES MULTIPOTENTIAL PROGENITOR EXPANSION AND MYELOID CELL FATE. P210 BCR-ABL IS AN ACTIVATED TYROSINE KINASE ONCOGENE ENCODED BY THE PHILADELPHIA CHROMOSOME ASSOCIATED WITH HUMAN CHRONIC MYELOGENOUS LEUKEMIA (CML). THE DISEASE REPRESENTS A CLONAL DISORDER ARISING IN THE PLURIPOTENT HEMATOPOIETIC STEM CELL. DURING THE CHRONIC PHASE, PATIENTS PRESENT WITH A DRAMATIC EXPANSION OF MYELOID CELLS AND A MILD ANEMIA. RETROVIRAL GENE TRANSFER AND TRANSGENIC EXPRESSION IN RODENTS HAVE DEMONSTRATED THE ABILITY OF BCR-ABL TO INDUCE VARIOUS TYPES OF LEUKEMIA. HOWEVER, STUDY OF HUMAN CML OR RODENT MODELS HAS NOT DETERMINED THE DIRECT AND IMMEDIATE EFFECTS OF BCR-ABL ON HEMATOPOIETIC CELLS FROM THOSE REQUIRING SECONDARY GENETIC OR EPIGENETIC CHANGES SELECTED DURING THE PATHOGENIC PROCESS. WE UTILIZED TETRACYCLINE-REGULATED EXPRESSION OF BCR-ABL FROM A PROMOTER ENGINEERED FOR ROBUST EXPRESSION IN PRIMITIVE STEM CELLS THROUGH MULTILINEAGE BLOOD CELL DEVELOPMENT IN COMBINATION WITH THE IN VITRO DIFFERENTIATION OF EMBRYONAL STEM CELLS INTO HEMATOPOIETIC ELEMENTS. OUR RESULTS DEMONSTRATE THAT BCR-ABL EXPRESSION ALONE IS SUFFICIENT TO INCREASE THE NUMBER OF MULTIPOTENT AND MYELOID LINEAGE COMMITTED PROGENITORS IN A DOSE-DEPENDENT MANNER WHILE SUPPRESSING THE DEVELOPMENT OF COMMITTED ERYTHROID PROGENITORS. THESE EFFECTS ARE REVERSIBLE UPON EXTINGUISHING BCR-ABL EXPRESSION. THESE FINDINGS ARE CONSISTENT WITH BCR-ABL BEING THE SOLE GENETIC CHANGE NEEDED FOR THE ESTABLISHMENT OF THE CHRONIC PHASE OF CML AND PROVIDE A POWERFUL SYSTEM FOR THE ANALYSIS OF ANY GENETIC CHANGE THAT ALTERS CELL GROWTH AND LINEAGE CHOICES OF THE HEMATOPOIETIC STEM CELL. 2000 3 3234 29 HEMATOPOIETIC AND CHRONIC MYELOID LEUKEMIA STEM CELLS: MULTI-STABILITY VERSUS LINEAGE RESTRICTION. THERE IS COMPELLING EVIDENCE TO SUPPORT THE VIEW THAT THE CELL-OF-ORIGIN FOR CHRONIC MYELOID LEUKEMIA IS A HEMATOPOIETIC STEM CELL. UNLIKE NORMAL HEMATOPOIETIC STEM CELLS, THE PROGENY OF THE LEUKEMIA STEM CELLS ARE PREDOMINANTLY NEUTROPHILS DURING THE DISEASE CHRONIC PHASE AND THERE IS A MILD ANEMIA. THE HALLMARK ONCOGENE FOR CHRONIC MYELOID LEUKEMIA IS THE BCR-ABLP210 FUSION GENE. VARIOUS STUDIES HAVE EXCLUDED A ROLE FOR BCR-ABLP210 EXPRESSION IN MAINTAINING THE POPULATION OF LEUKEMIA STEM CELLS. STUDIES OF BCR-ABLP210 EXPRESSION IN EMBRYONAL STEM CELLS THAT WERE DIFFERENTIATED INTO HEMATOPOIETIC STEM CELLS AND OF THE EXPRESSION IN TRANSGENIC MICE HAVE REVEALED THAT BCR-ABLP210 IS ABLE TO VEER HEMATOPOIETIC STEM AND PROGENITOR CELLS TOWARDS A MYELOID FATE. FOR THE TRANSGENIC MICE, GLOBAL CHANGES TO THE EPIGENETIC LANDSCAPE WERE OBSERVED. IN CHRONIC MYELOID LEUKEMIA, THE ABILITY OF THE LEUKEMIA STEM CELLS TO CHOOSE FROM THE MANY FATES THAT ARE AVAILABLE TO NORMAL HEMATOPOIETIC STEM CELLS APPEARS TO BE DEREGULATED BY BCR-ABLP210 AND CHANGES TO THE EPIGENOME ARE ALSO IMPORTANT. EVEN SO, WE STILL DO NOT HAVE A PRECISE PICTURE AS TO WHY NEUTROPHILS ARE ABUNDANTLY PRODUCED IN CHRONIC MYELOID LEUKEMIA. 2022 4 2752 28 EXPRESSION OF ANGIOGENIC FACTORS IN CHRONIC MYELOID LEUKAEMIA: ROLE OF THE BCR/ABL ONCOGENE, BIOCHEMICAL MECHANISMS, AND POTENTIAL CLINICAL IMPLICATIONS. CHRONIC MYELOID LEUKAEMIA (CML) IS A STEM CELL DISEASE CHARACTERIZED BY AN INCREASED PRODUCTION AND ACCUMULATION OF CLONAL BCR/ABL-POSITIVE CELLS IN HAEMATOPOIETIC TISSUES. THE CHRONIC PHASE OF CML IS INEVITABLY FOLLOWED BY AN ACCELERATED PHASE OF THE DISEASE, WITH CONSECUTIVE BLAST CRISIS. HOWEVER, DEPENDING ON GENETIC STABILITY, EPIGENETIC EVENTS, AND SEVERAL OTHER FACTORS, THE CLINICAL COURSE AND SURVIVAL APPEAR TO VARY AMONG PATIENTS. RECENT DATA SUGGEST THAT ANGIOGENIC CYTOKINES SUCH AS VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF), ARE UP-REGULATED IN CML, AND PLAY A ROLE IN THE PATHOGENESIS OF THE DISEASE. THESE FACTORS APPEAR TO BE PRODUCED AND RELEASED IN LEUKAEMIC CELLS IN PATIENTS WITH CML. IN LINE WITH THIS NOTION, INCREASED SERUM-LEVELS OF ANGIOGENIC GROWTH FACTORS ARE MEASURABLE IN CML PATIENTS. IN THIS STUDY WE PROVIDE AN OVERVIEW OF ANGIOGENIC GROWTH FACTORS EXPRESSED IN CML CELLS, DISCUSS THE POSSIBLE PATHOGENETIC ROLE OF THESE CYTOKINES, THE BIOCHEMICAL BASIS OF THEIR PRODUCTION IN LEUKAEMIC CELLS, AND THEIR POTENTIAL CLINICAL IMPLICATIONS. 2004 5 737 39 CANCER STEM CELLS. THERE IS AN INCREASING EVIDENCE SUPPORTING THE CANCER STEM CELL HYPOTHESIS. NORMAL STEM CELLS IN THE ADULT ORGANISM ARE RESPONSIBLE FOR TISSUE RENEWAL AND REPAIR OF AGED OR DAMAGED TISSUE. A SUBSTANTIAL CHARACTERISTIC OF STEM CELLS IS THEIR ABILITY FOR SELF-RENEWAL WITHOUT LOSS OF PROLIFERATION CAPACITY WITH EACH CELL DIVISION. THE STEM CELLS ARE IMMORTAL, AND RATHER RESISTANT TO ACTION OF DRUGS. THEY ARE ABLE TO DIFFERENTIATE AND FORM SPECIFIC TYPES OF TISSUE DUE TO THE INFLUENCE OF MICROENVIRONMENTAL AND SOME OTHER FACTORS. STEM CELLS DIVIDE ASYMMETRICALLY PRODUCING TWO DAUGHTER CELLS -- ONE IS A NEW STEM CELL AND THE SECOND IS PROGENITOR CELL, WHICH HAS THE ABILITY FOR DIFFERENTIATION AND PROLIFERATION, BUT NOT THE CAPABILITY FOR SELF-RENEWAL. CANCER STEM CELLS ARE IN MANY ASPECTS SIMILAR TO THE STEM CELLS. IT HAS BEEN PROVEN THAT TUMOR CELLS ARE HETEROGENEOUS COMPRISING RARE TUMOR INITIATING CELLS AND ABUNDANT NON-TUMOR INITIATING CELLS. TUMOR INITIATING CELLS -- CANCER STEM CELLS HAVE THE ABILITY OF SELF-RENEWAL AND PROLIFERATION, ARE RESISTANT TO DRUGS, AND EXPRESS TYPICAL MARKERS OF STEM CELLS. IT IS NOT CLEAR WHETHER CANCER STEM CELLS ORIGINATE FROM NORMAL STEM CELLS IN CONSEQUENCE OF GENETIC AND EPIGENETIC CHANGES AND/OR BY REDIFFERENTIATION FROM SOMATIC TUMOR CELLS TO THE STEM-LIKE CELLS. PROBABLY BOTH MECHANISMS ARE INVOLVED IN THE ORIGIN OF CANCER STEM CELLS. DYSREGULATION OF STEM CELL SELF-RENEWAL IS A LIKELY REQUIREMENT FOR THE DEVELOPMENT OF CANCER. ISOLATION AND IDENTIFICATION OF CANCER STEM CELLS IN HUMAN TUMORS AND IN TUMOR CELL LINES HAS BEEN SUCCESSFUL. TO DATE, THE EXISTENCE OF CANCER STEM CELLS HAS BEEN PROVEN IN ACUTE AND CHRONIC MYELOID LEUKEMIA, IN BREAST CANCER, IN BRAIN TUMORS, IN LUNG CANCER AND GASTROINTESTINAL TUMORS. CANCER STEM CELL MODEL IS ALSO CONSISTENT WITH SOME CLINICAL OBSERVATIONS. ALTHOUGH STANDARD CHEMOTHERAPY KILLS MOST CELLS IN A TUMOR, CANCER STEM CELLS REMAIN VIABLE. DESPITE THE SMALL NUMBER OF SUCH CELLS, THEY MIGHT BE THE CAUSE OF TUMOR RECURRENCE, SOMETIMES MANY YEARS AFTER THE "SUCCESSFUL" TREATMENT OF PRIMARY TUMOR. GROWTH OF METASTASES IN DISTINCT AREAS OF BODY AND THEIR CELLULAR HETEROGENEITY MIGHT BE CONSEQUENCE OF CANCER STEM CELL DIFFERENTIATION AND/OR DEDIFFERENTIATION AND ASYMMETRIC DIVISION OF CANCER STEM CELLS. FURTHER CHARACTERIZATION OF CANCER STEM CELLS IS NEEDED IN ORDER TO FIND WAYS TO DESTROY THEM, WHICH MIGHT CONTRIBUTE SIGNIFICANTLY TO THE THERAPEUTIC MANAGEMENT OF MALIGNANT TUMORS. 2005 6 736 31 CANCER STEM CELLS--NEW APPROACH TO CANCEROGENENSIS AND TREATMENT. RECENTLY, THERE IS AN INCREASING EVIDENCE SUPPORTING THE THEORY OF CANCER STEM CELLS NOT ONLY IN LEUKEMIA BUT ALSO IN SOLID CANCER. TO DATE, THE EXISTENCE OF CANCER STEM CELLS HAS BEEN PROVEN IN ACUTE AND CHRONIC MYELOID LEUKEMIA, IN BREAST CANCER, IN BRAIN TUMORS, IN LUNG CANCER AND GASTROINTESTINAL TUMORS. THIS REVIEW IS FOCUSING ON THE RECENT DISCOVERY OF STEM CELLS IN LEUKEMIA, HUMAN BRAIN TUMORS AND BREAST CANCER. A SMALL POPULATION OF CELLS IN THE TUMOR (LESS THAN 1%) SHOWS THE POTENTIAL TO GIVE RISE TO THE TUMOR AND ITS GROWTH. THESE CELLS HAVE A SUBSTANTIAL CHARACTERISTIC OF STEM CELLS--ABILITY FOR SELF-RENEWAL WITHOUT LOSS OF PROLIFERATION CAPACITY WITH EACH CELL DIVISION. FURTHERMORE THEY ARE IMMORTAL, RATHER RESISTANT TO TREATMENT AND EXPRESS TYPICAL MARKERS OF STEM CELLS. THE ORIGIN OF THESE RESIDENT CANCER STEM CELLS IS NOT CLEAR. WHETHER THE CANCER STEM CELLS ORIGINATE FROM NORMAL STEM CELLS IN CONSEQUENCE OF GENETIC AND EPIGENETIC CHANGES AND/OR REDIFFERENTIATION FROM SOMATIC TUMOR CELLS TO THE STEM-LIKE CELLS REMAINS TO BE INVESTIGATED. WE PROPOSE THE IDEA OF THE RELATION BETWEEN NORMAL TISSUE STEM CELLS AND CANCER STEM CELLS AND THEIR POPULATIONS--PROGENITOR CELLS. BASED ON THIS WE HIGHLIGHT ONE OF THE MAJOR CHARACTERISTIC OF STEM CELL--PLASTICITY, WHICH IS EQUALLY IMPORTANT IN THE PHYSIOLOGICAL REGENERATION PROCESS AS WELL AS CARCINOGENESIS. FURTHERMORE, WE CONSIDER THE MICROENVIRONMENT AS A LIMITING FACTOR FOR TUMOR GENESIS IN AML, BREAST CANCER AND BRAIN TUMORS. THUS THE BIOLOGICAL PROPERTIES OF CANCER STEM CELLS ARE JUST BEGINNING TO BE REVEALED, THE CONTINUATION OF THESE STUDIES SHOULD LEAD TO THE DEVELOPMENT OF CANCER STEM CELLS TARGET THERAPIES FOR CANCER TREATMENT. 2008 7 4124 35 MECHANISMS OF DISEASE PROGRESSION AND RESISTANCE TO TYROSINE KINASE INHIBITOR THERAPY IN CHRONIC MYELOID LEUKEMIA: AN UPDATE. CHRONIC MYELOID LEUKEMIA (CML) IS CHARACTERIZED BY THE PRESENCE OF THE BCR-ABL1 FUSION GENE, WHICH ENCODES A CONSTITUTIVE ACTIVE TYROSINE KINASE CONSIDERED TO BE THE PATHOGENIC DRIVER CAPABLE OF INITIATING AND MAINTAINING THE DISEASE. DESPITE THE REMARKABLE EFFICACY OF TYROSINE KINASE INHIBITORS (TKIS) TARGETING BCR-ABL1, SOME PATIENTS MAY NOT RESPOND (PRIMARY RESISTANCE) OR MAY RELAPSE AFTER AN INITIAL RESPONSE (SECONDARY RESISTANCE). IN A SMALL PROPORTION OF CASES, DEVELOPMENT OF RESISTANCE IS ACCOMPANIED OR SHORTLY FOLLOWED BY PROGRESSION FROM CHRONIC TO BLASTIC PHASE (BP), CHARACTERIZED BY A DISMAL PROGNOSIS. EVOLUTION FROM CP INTO BP IS A MULTIFACTORIAL AND PROBABLY MULTISTEP PHENOMENON. INCREASE IN BCR-ABL1 TRANSCRIPT LEVELS IS THOUGHT TO PROMOTE THE ONSET OF SECONDARY CHROMOSOMAL OR GENETIC DEFECTS, INDUCE DIFFERENTIATION ARREST, PERTURB RNA TRANSCRIPTION, EDITING AND TRANSLATION THAT TOGETHER WITH EPIGENETIC AND METABOLIC CHANGES MAY ULTIMATELY LEAD TO THE EXPANSION OF HIGHLY PROLIFERATING, DIFFERENTIATION-ARRESTED MALIGNANT CELLS. A MULTITUDE OF STUDIES OVER THE PAST TWO DECADES HAVE INVESTIGATED THE MECHANISMS UNDERLYING THE CLOSELY INTERTWINED PHENOMENA OF DRUG RESISTANCE AND DISEASE PROGRESSION. HERE, WE PROVIDE AN UPDATE ON WHAT IS CURRENTLY KNOWN ON THE MECHANISMS UNDERLYING PROGRESSION AND PRESENT THE LATEST ACQUISITIONS ON BCR-ABL1-INDEPENDENT RESISTANCE AND LEUKEMIA STEM CELL PERSISTENCE. 2019 8 2697 32 EX VIVO MODELS OF CHRONIC GRANULOMATOUS DISEASE. INDUCED PLURIPOTENT STEM CELLS (IPSCS) ARE PLURIPOTENT STEM CELLS THAT CAN BE ESTABLISHED FROM DEDIFFERENTIATION OF ALL SOMATIC CELL TYPES BY EPIGENETIC PHENOMENA. IPSCS CAN BE DIFFERENTIATED INTO ANY MATURE CELLS LIKE NEURONS, HEPATOCYTES, OR PANCREATIC CELLS THAT HAVE NOT BEEN EASILY AVAILABLE TO DATE. THUS, IPSCS ARE WIDELY USED FOR DISEASE MODELING, DRUG DISCOVERY, AND CELL THERAPY DEVELOPMENT. HERE, WE DESCRIBE A PROTOCOL TO OBTAIN HUMAN MATURE AND FUNCTIONAL NEUTROPHILS AND MACROPHAGES AS EX VIVO MODELS OF X-LINKED CHRONIC GRANULOMATOUS DISEASE (X-CGD). THIS METHOD CAN BE APPLIED TO MODEL THE OTHER GENETIC FORMS OF CGD. WE ALSO DESCRIBE METHODS FOR TESTING THE CHARACTERISTICS AND FUNCTIONS OF NEUTROPHILS AND MACROPHAGES BY MORPHOLOGY, PHAGOCYTOSIS ASSAY, RELEASE OF GRANULE MARKERS OR CYTOKINES, CELL SURFACE MARKERS, AND NADPH OXIDASE ACTIVITY. 2019 9 358 37 ALTERNATIVE SPLICING IN CHRONIC MYELOID LEUKEMIA (CML): A NOVEL THERAPEUTIC TARGET? ALTHOUGH THE IMATINIB BASED THERAPY OF CHRONIC MYELOID LEUKEMIA (CML) REPRESENTS A TRIUMPH OF MEDICINE, NOT ALL PATIENTS WITH CML BENEFIT FROM THIS DRUG DUE TO THE DEVELOPMENT OF RESISTANCE AND INTOLERANCE. THE INTERRUPTION OF IMATINIB TREATMENT IS OFTEN FOLLOWED BY CLINICAL RELAPSE, SUGGESTING A FAILURE IN THE KILLING OF RESIDUAL LEUKAEMIC STEM CELLS. THERE IS NEED TO IDENTIFY ALTERNATIVE SELECTIVE MOLECULAR TARGETS FOR THIS DISEASE AND DEVELOP MORE EFFECTIVE THERAPEUTIC APPROACHES. ALTERNATIVE PRE-MRNA SPLICING (AS) IS AN EPIGENETIC PROCESS THAT GREATLY DIVERSIFIES THE REPERTOIRE OF THE TRANSCRIPTOME. AS ORCHESTRATES INTERACTIONS BETWEEN VARIOUS TYPES OF PROTEINS AND BETWEEN PROTEINS AND NUCLEIC ACIDS. CHANGES CAUSED BY INDIVIDUAL SPLICING EVENTS IN THE CELLS ARE SMALL, HOWEVER, "SPLICING PROGRAMS" TYPICALLY REACT TO THESE INDIVIDUAL CHANGES WITH CONSIDERABLE EFFECTS IN CELL PROLIFERATION, CELL SURVIVAL, AND APOPTOSIS. CURRENT EVIDENCE SUGGESTS A PIVOTAL ROLE OF AS IN LEUKEMIAS, PARTICULARLY IN MYELODISPLASTIC SYNDROME (MDS) AND CHRONIC LYMPHOCYTE LEUKEMIA (CLL). FROM THESE STUDIES AND STUDIES IN OTHER MALIGNANCES, IT IS CLEAR THAT SPLICING ABNORMALITIES PLAY A SIGNIFICANT ROLE IN MALIGNANT TRANSFORMATION. EVALUATION OF AS EVENTS IN CML CAN BE USED TO IDENTIFY NOVEL DISEASE MARKERS AND DRUGSENSITIVE TARGETS TO OVERCOME THE LIMITS OF THE SMALL MOLECULE INHIBITORS CURRENTLY USED FOR TREATING PATIENTS WITH CML. THE USE OF ABERRANT SPLICE VARIANTS AS DISEASE MARKERS HAS BEEN REPORTED, HOWEVER, LITTLE IS KNOWN ABOUT THE USE OF SPLICING ABNORMALITIES AS DRUG TARGETS IN CML. HEREIN WE DISCUSS POTENTIAL THERAPEUTIC APPROACHES THAT CAN BE USED TO TARGET SPLICING ABNORMALITIES IN CML. 2013 10 2393 28 EPIGENETIC REPROGRAMMING AND EMERGING EPIGENETIC THERAPIES IN CML. CHRONIC MYELOID LEUKEMIA (CML) IS A HEMATOPOIETIC STEM CELL DISORDER CHARACTERIZED BY BCR-ABL1, AN ONCOGENIC FUSION GENE ARISING FROM THE PHILADELPHIA CHROMOSOME. THE DEVELOPMENT OF TYROSINE KINASE INHIBITORS (TKIS) TO OVERCOME THE CONSTITUTIVE TYROSINE KINASE ACTIVITY OF THE BCR-ABL PROTEIN HAS DRAMATICALLY IMPROVED DISEASE MANAGEMENT AND PATIENT OUTCOMES OVER THE PAST 20 YEARS. HOWEVER, THE MAJORITY OF PATIENTS ARE NOT CURED AND DEVELOPING NOVEL THERAPEUTIC STRATEGIES THAT TARGET EPIGENETIC PROCESSES ARE A PROMISING AVENUE TO IMPROVE CURE RATES. A NUMBER OF EPIGENETIC MECHANISMS ARE ALTERED OR REPROGRAMMED DURING THE DEVELOPMENT AND PROGRESSION OF CML, RESULTING IN ALTERATIONS IN HISTONE MODIFICATIONS, DNA METHYLATION AND DYSREGULATION OF THE TRANSCRIPTIONAL MACHINERY. IN THIS REVIEW THESE EPIGENETIC ALTERATIONS ARE EXAMINED AND THE POTENTIAL OF EPIGENETIC THERAPIES ARE DISCUSSED AS A MEANS OF ERADICATING RESIDUAL DISEASE AND OFFERING A POTENTIAL CURE FOR CML IN COMBINATION WITH CURRENT THERAPIES. 2019 11 5589 25 ROLE OF SIRT1 IN THE GROWTH AND REGULATION OF NORMAL HEMATOPOIETIC AND LEUKEMIA STEM CELLS. PURPOSE OF REVIEW: RECENT STUDIES HAVE ENHANCED OUR UNDERSTANDING OF THE ROLE OF THE SIRT1 DEACETYLASE IN REGULATION OF NORMAL HEMATOPOIETIC STEM CELLS (HSCS) AND LEUKEMIA STEM CELLS (LSCS), AND ITS IMPORTANCE IN REGULATING AUTOPHAGY AND EPIGENETIC REPROGRAMMING IN RESPONSE TO METABOLIC ALTERATIONS. RECENT FINDINGS: STUDIES EMPLOYING CONDITIONAL DELETION MOUSE MODELS INDICATE AN IMPORTANT ROLE OF SIRT1 IN MAINTENANCE OF ADULT HSCS UNDER CONDITIONS OF STRESS. SIRT1 IS SIGNIFICANTLY OVEREXPRESSED IN LSC POPULATIONS FROM ACUTE MYELOID LEUKEMIA (AML) PATIENTS WITH THE FLT3-ITD MUTATION, AND MAINTAINS THEIR SURVIVAL, GROWTH AND DRUG RESISTANCE, AS PREVIOUSLY DESCRIBED FOR CHRONIC MYELOGENOUS LEUKEMIA (CML). SIRT1 CAN ALSO ENHANCE LEUKEMIA EVOLUTION AND DRUG RESISTANCE BY PROMOTING GENETIC INSTABILITY. RECENT STUDIES INDICATE AN IMPORTANT ROLE OF SIRT1 IN REGULATING AUTOPHAGY IN RESPONSE TO OXIDATIVE STRESS AND NUTRIENT REQUIREMENTS, AND HAVE ELUCIDATED COMPLEX MECHANISMS BY WHICH SIRT1 REGULATES EPIGENETIC REPROGRAMMING OF STEM CELLS. SUMMARY: SIRT1 INHIBITION HOLDS PROMISE AS A NOVEL APPROACH FOR ABLATION OF LSCS IN CHRONIC PHASE CML OR FLT3-ITD-ASSOCIATED AML. ADDITIONAL STUDIES TO UNDERSTAND THE ROLE OF SIRT1 IN LINKING METABOLIC ALTERATIONS TO GENOMIC STABILITY, AUTOPHAGY AND EPIGENETIC REPROGRAMMING OF STEM CELLS ARE WARRANTED. 2015 12 1674 24 DRIVER MUTATIONS IN LEUKEMIA PROMOTE DISEASE PATHOGENESIS THROUGH A COMBINATION OF CELL-AUTONOMOUS AND NICHE MODULATION. STUDIES OF PATIENTS WITH ACUTE MYELOID LEUKEMIA (AML) HAVE LED TO THE IDENTIFICATION OF MUTATIONS THAT AFFECT DIFFERENT CELLULAR PATHWAYS. SOME OF THESE HAVE BEEN CLASSIFIED AS PRELEUKEMIC, AND A STEPWISE EVOLUTION PROGRAM WHEREBY CELLS ACQUIRE ADDITIONAL MUTATIONS HAS BEEN PROPOSED IN THE DEVELOPMENT OF AML. HOW THE TIMING OF ACQUISITION OF THESE MUTATIONS AND THEIR IMPACT ON TRANSFORMATION AND THE BONE MARROW (BM) MICROENVIRONMENT OCCURS HAS ONLY RECENTLY BEGUN TO BE INVESTIGATED. WE SHOW THAT CONSTITUTIVE AND EARLY LOSS OF THE EPIGENETIC REGULATOR, TET2, WHEN COMBINED WITH CONSTITUTIVE ACTIVATION OF FLT3, RESULTS IN TRANSFORMATION OF CHRONIC MYELOMONOCYTIC LEUKEMIA-LIKE OR MYELOPROLIFERATIVE NEOPLASM-LIKE PHENOTYPE TO AML, WHICH IS MORE PRONOUNCED IN DOUBLE-MUTANT MICE RELATIVE TO MICE CARRYING MUTATIONS IN SINGLE GENES. FURTHERMORE, WE SHOW THAT IN PRELEUKEMIC AND LEUKEMIC MICE THERE ARE ALTERATIONS IN THE BM NICHE AND SECRETED CYTOKINES, WHICH CREATES A PERMISSIVE ENVIRONMENT FOR THE GROWTH OF MUTATION-BEARING CELLS RELATIVE TO NORMAL CELLS. 2020 13 6198 33 THE IMPLICATION OF CANCER PROGENITOR CELLS AND THE ROLE OF EPIGENETICS IN THE DEVELOPMENT OF NOVEL THERAPEUTIC STRATEGIES FOR CHRONIC MYELOID LEUKEMIA. SIGNIFICANCE: CHRONIC MYELOID LEUKEMIA (CML) INVOLVES THE MALIGNANT TRANSFORMATION OF HEMATOPOIETIC STEM CELLS, DEFINED LARGELY BY THE PHILADELPHIA CHROMOSOME AND EXPRESSION OF THE BREAKPOINT CLUSTER REGION-ABELSON (BCR-ABL) ONCOPROTEIN. PHARMACOLOGICAL TYROSINE KINASE INHIBITORS (TKIS), INCLUDING IMATINIB MESYLATE, HAVE OVERCOME LIMITATIONS IN CONVENTIONAL TREATMENT FOR THE IMPROVED CLINICAL MANAGEMENT OF CML. RECENT ADVANCES: ACCUMULATED EVIDENCE HAS LED TO THE IDENTIFICATION OF A SUBPOPULATION OF QUIESCENT LEUKEMIA PROGENITOR CELLS WITH STEM-LIKE SELF RENEWAL PROPERTIES THAT MAY INITIATE LEUKEMOGENESIS, WHICH ARE ALSO SHOWN TO BE PRESENT IN RESIDUAL DISEASE DUE TO THEIR INSENSITIVITY TO TYROSINE KINASE INHIBITION. CRITICAL ISSUES: THE CHARACTERIZATION OF QUIESCENT LEUKEMIA PROGENITOR CELLS AS A UNIQUE CELL POPULATION IN CML PATHOGENESIS HAS BECOME CRITICAL WITH THE COMPLETE ELUCIDATION OF MECHANISMS INVOLVED IN THEIR SURVIVAL INDEPENDENT OF BCR-ABL THAT IS IMPORTANT IN THE DEVELOPMENT OF NOVEL ANTICANCER STRATEGIES. UNDERSTANDING OF THESE FUNCTIONAL PATHWAYS IN CML PROGENITOR CELLS WILL ALLOW FOR THEIR SELECTIVE THERAPEUTIC TARGETING. IN ADDITION, DISEASE PATHOGENESIS AND DRUG RESPONSIVENESS IS ALSO THOUGHT TO BE MODULATED BY EPIGENETIC REGULATORY MECHANISMS SUCH AS DNA METHYLATION, HISTONE ACETYLATION, AND MICRORNA EXPRESSION, WITH A CAPACITY TO CONTROL CML-ASSOCIATED GENE TRANSCRIPTION. FUTURE DIRECTIONS: A NUMBER OF COMPOUNDS IN COMBINATION WITH TKIS ARE UNDER PRECLINICAL AND CLINICAL INVESTIGATION TO ASSESS THEIR SYNERGISTIC POTENTIAL IN TARGETING LEUKEMIC PROGENITOR CELLS AND/OR THE EPIGENOME IN CML. DESPITE THE COLLECTIVE PROMISE, FURTHER RESEARCH IS REQUIRED IN ORDER TO REFINE UNDERSTANDING, AND, ULTIMATELY, ADVANCE ANTILEUKEMIC THERAPEUTIC STRATEGIES. 2015 14 1507 29 DNA METHYLATION AND INTRA-CLONAL HETEROGENEITY: THE CHRONIC MYELOID LEUKEMIA MODEL. CHRONIC MYELOID LEUKEMIA (CML) IS A MODEL TO INVESTIGATE THE IMPACT OF TUMOR INTRA-CLONAL HETEROGENEITY IN PERSONALIZED MEDICINE. INDEED, TYROSINE KINASE INHIBITORS (TKIS) TARGET THE BCR-ABL FUSION PROTEIN, WHICH IS CONSIDERED THE MAJOR CML DRIVER. TKI USE HAS HIGHLIGHTED THE EXISTENCE OF INTRA-CLONAL HETEROGENEITY, AS INDICATED BY THE PERSISTENCE OF A MINORITY SUBCLONE FOR SEVERAL YEARS DESPITE THE PRESENCE OF THE TARGET FUSION PROTEIN IN ALL CELLS. EPIGENETIC MODIFICATIONS COULD PARTLY EXPLAIN THIS HETEROGENEITY. THIS REVIEW SUMMARIZES THE RESULTS OF DNA METHYLATION STUDIES IN CML. NEXT-GENERATION SEQUENCING TECHNOLOGIES ALLOWED FOR MOVING FROM SINGLE-GENE TO GENOME-WIDE ANALYSES SHOWING THAT METHYLATION ABNORMALITIES ARE MUCH MORE WIDESPREAD IN CML CELLS. THESE DATA SHOWED THAT GLOBAL HYPOMETHYLATION IS ASSOCIATED WITH HYPERMETHYLATION OF SPECIFIC SITES ALREADY AT DIAGNOSIS IN THE EARLY PHASE OF CML. THE BCR-ABL-INDEPENDENCE OF SOME METHYLATION PROFILE ALTERATIONS AND THE RECENT DEMONSTRATION OF THE INITIAL INTRA-CLONAL DNA METHYLATION HETEROGENEITY SUGGESTS THAT SOME DNA METHYLATION ALTERATIONS MAY BE BIOMARKERS OF TKI SENSITIVITY/RESISTANCE AND OF DISEASE PROGRESSION RISK. THESE RESULTS ALSO OPEN PERSPECTIVES FOR UNDERSTANDING THE EPIGENETIC/GENETIC BACKGROUND OF CML PREDISPOSITION AND FOR DEVELOPING NEW THERAPEUTIC STRATEGIES. 2021 15 2652 24 EPIGENOMICS OF LEUKEMIA: FROM MECHANISMS TO THERAPEUTIC APPLICATIONS. LEUKEMOGENESIS IS A MULTISTEP PROCESS IN WHICH SUCCESSIVE TRANSFORMATIONAL EVENTS ENHANCE THE ABILITY OF A CLONAL POPULATION ARISING FROM HEMATOPOIETIC PROGENITOR CELLS TO PROLIFERATE, DIFFERENTIATE AND SURVIVE. CLINICALLY AND PATHOLOGICALLY, LEUKEMIA IS SUBDIVIDED INTO FOUR MAIN CATEGORIES: CHRONIC LYMPHOCYTIC LEUKEMIA, CHRONIC MYELOID LEUKEMIA, ACUTE LYMPHOCYTIC LEUKEMIA AND ACUTE MYELOID LEUKEMIA. LEUKEMIA HAS BEEN PREVIOUSLY CONSIDERED ONLY AS A GENETIC DISEASE. HOWEVER, IN RECENT YEARS, SIGNIFICANT ADVANCES HAVE BEEN MADE IN THE ELUCIDATION OF THE LEUKEMOGENESIS-ASSOCIATED PROCESSES. THUS, WE HAVE COME TO UNDERSTAND THAT EPIGENETIC ALTERATIONS INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS AND MIRNA ARE INVOLVED IN THE PERMANENT CHANGES OF GENE EXPRESSION CONTROLLING THE LEUKEMIA PHENOTYPE. IN THIS ARTICLE, WE WILL FOCUS ON THE EPIGENETIC DEFECTS ASSOCIATED WITH LEUKEMIA AND THEIR IMPLICATIONS AS BIOMARKERS FOR DIAGNOSTIC, PROGNOSTIC AND THERAPEUTIC APPLICATIONS. 2011 16 1465 25 DISSECTING THE ROLE OF ABERRANT DNA METHYLATION IN HUMAN LEUKAEMIA. CHRONIC MYELOID LEUKAEMIA (CML) IS A MYELOPROLIFERATIVE DISORDER CHARACTERIZED BY THE GENETIC TRANSLOCATION T(9;22)(Q34;Q11.2) ENCODING FOR THE BCR-ABL FUSION ONCOGENE. HOWEVER, MANY MOLECULAR MECHANISMS OF THE DISEASE PROGRESSION STILL REMAIN POORLY UNDERSTOOD. A GROWING BODY OF EVIDENCE SUGGESTS THAT THE EPIGENETIC ABNORMALITIES ARE INVOLVED IN TYROSINE KINASE RESISTANCE IN CML, LEADING TO LEUKAEMIC CLONE ESCAPE AND DISEASE PROPAGATION. HERE WE SHOW THAT, BY APPLYING CELLULAR REPROGRAMMING TO PRIMARY CML CELLS, ABERRANT DNA METHYLATION CONTRIBUTES TO THE DISEASE EVOLUTION. IMPORTANTLY, USING A BCR-ABL INDUCIBLE MURINE MODEL, WE DEMONSTRATE THAT A SINGLE ONCOGENIC LESION TRIGGERS DNA METHYLATION CHANGES, WHICH IN TURN ACT AS A PRECIPITATING EVENT IN LEUKAEMIA PROGRESSION. 2015 17 6773 20 [ADVANCES OF RESEARCH ON DEMETHYLATION THERAPY FOR HEMATOLOGIC MALIGNANCIES]. DNA METHYLATION IS AN IMPORTANT AND REVERSIBLE EPIGENETIC MODIFICATION WHICH REGULATES GENOMIC STABILITY. METHYLATION IS ESSENTIAL FOR MAMMALIAN DEVELOPMENT. GENERALLY, GENE EXPRESSION LEVEL AND DNA METHYLATION ARE NEGATIVE CORRELATION. TRANSCRIPTIONAL SILENCING VIA METHYLATION OF CPG ISLANDS IN THE PROMOTER IS IMPORTANT FOR CELL GROWTH AND DIFFERENTIATION AND PLAYS A KEY ROLE IN TUMORIGENESIS. DEMETHYLATION DRUG CAN MODIFY CHROMATIN AND RESTORE THE ABILITY OF ANTI-ONCOGENE. DEMETHYLATION THERAPY AS A NEW THERAPY MAY TREAT EFFICIENTLY HEMATOLOGICAL MALIGNANCIES WITH RESISTANCE AND RELAPSE. IN THIS REVIEW, DNA METHYLATION MECHANISM, RELATIONSHIP BETWEEN ABERRANT METHYLATION AND HEMATOLOGIC MALIGNANCIES, MECHANISM OF DEMETHYLATION THERAPY, THE ADVANCE OF RESEARCH ON THE DEMETHYLATION THERAPY OF HEMATOLOGICAL MALIGNANCIES, SUCH AS ACUTE AND CHRONIC LEUKEMIA, LYMPHOMA, MYELODYSPLASTIC SYNDROME WERE SUMMARIZED. 2009 18 2085 35 EPIGENETIC DYSREGULATION IN CHRONIC MYELOID LEUKAEMIA: A MYRIAD OF MECHANISMS AND THERAPEUTIC OPTIONS. THE ONSET OF GLOBAL EPIGENETIC CHANGES IN CHROMATIN THAT DRIVE TUMOR PROLIFERATION AND HETEROGENEITY IS A HALLMARK OF MANY FORMS OF CANCER. IDENTIFYING THE EPIGENETIC MECHANISMS THAT GOVERN THESE CHANGES AND DEVELOPING THERAPEUTIC APPROACHES TO MODULATE THEM, IS A WELL-ESTABLISHED AVENUE PURSUED IN TRANSLATIONAL CANCER MEDICINE. CHRONIC MYELOID LEUKEMIA (CML) ARISES CLONALLY WHEN A HEMATOPOIETIC STEM CELL (HSC) ACQUIRES THE CAPACITY TO PRODUCE THE CONSTITUTIVELY ACTIVE TYROSINE KINASE BCR-ABL1 FUSION PROTEIN WHICH DRIVES TUMOR DEVELOPMENT. TREATMENT WITH TYROSINE KINASE INHIBITORS (TKI) THAT TARGET BCR-ABL1 HAS BEEN TRANSFORMATIVE IN CML MANAGEMENT BUT IT DOES NOT LEAD TO CURE IN THE VAST MAJORITY OF PATIENTS. THUS NOVEL THERAPEUTIC APPROACHES ARE REQUIRED AND THESE MUST TARGET CHANGES TO BIOLOGICAL PATHWAYS THAT ARE ABERRANT IN CML - INCLUDING THOSE THAT OCCUR WHEN EPIGENETIC MECHANISMS ARE ALTERED. THESE CHANGES MAY BE DUE TO ALTERATIONS IN DNA OR HISTONES, THEIR BIOCHEMICAL MODIFICATIONS AND REQUISITE 'WRITER' PROTEINS, OR TO DYSREGULATION OF VARIOUS TYPES OF NON-CODING RNAS THAT COLLECTIVELY FUNCTION AS MODULATORS OF TRANSCRIPTIONAL CONTROL AND DNA INTEGRITY. HERE, WE REVIEW THE EVIDENCE FOR SUBVERTED EPIGENETIC MECHANISMS IN CML AND HOW THESE IMPACT ON A DIVERSE SET OF BIOLOGICAL PATHWAYS, ON DISEASE PROGRESSION, PROGNOSIS AND DRUG RESISTANCE. WE WILL ALSO DISCUSS RECENT PROGRESS TOWARDS DEVELOPING EPIGENETIC THERAPIES THAT SHOW PROMISE TO IMPROVE CML PATIENT CARE AND MAY LEAD TO IMPROVED CURE RATES. 2018 19 109 33 A REVIEW ON THE THERAPEUTIC ROLE OF TKIS IN CASE OF CML IN COMBINATION WITH EPIGENETIC DRUGS. CHRONIC MYELOID LEUKEMIA IS A MALIGNANCY OF BONE MARROW THAT AFFECTS WHITE BLOOD CELLS. THERE IS STRONG EVIDENCE THAT DISEASE PROGRESSION, TREATMENT RESPONSES, AND OVERALL CLINICAL OUTCOMES OF CML PATIENTS ARE INFLUENCED BY THE ACCUMULATION OF OTHER GENETIC AND EPIGENETIC ABNORMALITIES, RATHER THAN ONLY THE BCR/ABL1 ONCOPROTEIN. BOTH GENETIC AND EPIGENETIC FACTORS INFLUENCE THE EFFICACY OF CML TREATMENT STRATEGIES. TARGETED MEDICINES KNOWN AS TYROSINE-KINASE INHIBITORS HAVE DRAMATICALLY IMPROVED LONG-TERM SURVIVAL RATES IN CML PATIENTS DURING THE PREVIOUS 2 DECADES. WHEN COMPARED TO EARLIER CHEMOTHERAPY TREATMENTS, THESE DRUGS HAVE REVOLUTIONIZED CML TREATMENT AND ALLOWED MOST PEOPLE TO LIVE LONGER LIVES. ALTHOUGH EPIGENETIC INHIBITORS' ACTIVITY IS DISRUPTED IN MANY CANCERS, INCLUDING CML, BUT WHEN COMBINED WITH TKI, THEY MAY OFFER POTENTIAL THERAPEUTIC STRATEGIES FOR THE TREATMENT OF CML CELLS. THE EPIGENETICS OF TYROSINE KINASE INHIBITORS AND RESISTANCE TO THEM IS BEING STUDIED, WITH A PARTICULAR FOCUS ON IMATINIB, WHICH IS USED TO TREAT CML. IN ADDITION, THE USE OF EPIGENETIC DRUGS IN CONJUNCTION WITH TKIS HAS BEEN DISCUSSED. RESISTANCE TO TKIS IS STILL A PROBLEM IN CURING THE DISEASE, NECESSITATING THE DEVELOPMENT OF NEW THERAPIES. THIS STUDY FOCUSED ON EPIGENETIC PATHWAYS INVOLVED IN CML PATHOGENESIS AND TUMOR CELL RESISTANCE TO TKIS, BOTH OF WHICH CONTRIBUTE TO LEUKEMIC CLONE BREAKOUT AND PROLIFERATION. 2021 20 390 30 AN INTEGRATIVE MODEL OF PATHWAY CONVERGENCE IN GENETICALLY HETEROGENEOUS BLAST CRISIS CHRONIC MYELOID LEUKEMIA. TARGETED THERAPIES AGAINST THE BCR-ABL1 KINASE HAVE REVOLUTIONIZED TREATMENT OF CHRONIC PHASE (CP) CHRONIC MYELOID LEUKEMIA (CML). IN CONTRAST, MANAGEMENT OF BLAST CRISIS (BC) CML REMAINS CHALLENGING BECAUSE BC CELLS ACQUIRE COMPLEX MOLECULAR ALTERATIONS THAT CONFER STEMNESS FEATURES TO PROGENITOR POPULATIONS AND RESISTANCE TO BCR-ABL1 TYROSINE KINASE INHIBITORS. COMPREHENSIVE MODELS OF BC TRANSFORMATION HAVE PROVED ELUSIVE BECAUSE OF THE RARITY AND GENETIC HETEROGENEITY OF BC, BUT ARE IMPORTANT FOR DEVELOPING BIOMARKERS PREDICTING BC PROGRESSION AND EFFECTIVE THERAPIES. TO BETTER UNDERSTAND BC, WE PERFORMED AN INTEGRATED MULTIOMICS ANALYSIS OF 74 CP AND BC SAMPLES USING WHOLE-GENOME AND EXOME SEQUENCING, TRANSCRIPTOME AND METHYLOME PROFILING, AND CHROMATIN IMMUNOPRECIPITATION FOLLOWED BY HIGH-THROUGHPUT SEQUENCING. EMPLOYING PATHWAY-BASED ANALYSIS, WE FOUND THE BC GENOME WAS SIGNIFICANTLY ENRICHED FOR MUTATIONS AFFECTING COMPONENTS OF THE POLYCOMB REPRESSIVE COMPLEX (PRC) PATHWAY. WHILE TRANSCRIPTOMICALLY, BC PROGENITORS WERE ENRICHED AND DEPLETED FOR PRC1- AND PRC2-RELATED GENE SETS RESPECTIVELY. BY INTEGRATING OUR DATA SETS, WE DETERMINED THAT BC PROGENITORS UNDERGO PRC-DRIVEN EPIGENETIC REPROGRAMMING TOWARD A CONVERGENT TRANSCRIPTOMIC STATE. SPECIFICALLY, PRC2 DIRECTS BC DNA HYPERMETHYLATION, WHICH IN TURN SILENCES KEY GENES INVOLVED IN MYELOID DIFFERENTIATION AND TUMOR SUPPRESSOR FUNCTION VIA SO-CALLED EPIGENETIC SWITCHING, WHEREAS PRC1 REPRESSES AN OVERLAPPING AND DISTINCT SET OF GENES, INCLUDING NOVEL BC TUMOR SUPPRESSORS. ON THE BASIS OF THESE OBSERVATIONS, WE DEVELOPED AN INTEGRATED MODEL OF BC THAT FACILITATED THE IDENTIFICATION OF COMBINATORIAL THERAPIES CAPABLE OF REVERSING BC REPROGRAMMING (DECITABINE+PRC1 INHIBITORS), NOVEL PRC-SILENCED TUMOR SUPPRESSOR GENES (NR4A2), AND GENE EXPRESSION SIGNATURES PREDICTIVE OF DISEASE PROGRESSION AND DRUG RESISTANCE IN CP. 2020