1 791 128 CELLULAR AND MOLECULAR NETWORKS IN CHRONIC MYELOID LEUKEMIA: THE LEUKEMIC STEM, PROGENITOR AND STROMAL CELL INTERPLAY. THE USE OF IMATINIB, SECOND AND THIRD GENERATION ABL TYROSINE KINASE INHIBITORS (TKI) (I.E. DASATINIB, NILOTINIB, BOSUTINIB AND PONATINIB) MADE CML A CLINICALLY MANAGEABLE AND, IN A SMALL PERCENTAGE OF CASES, A CURED DISEASE. TKI THERAPY ALSO TURNED CML BLASTIC TRANSFORMATION INTO A RARE EVENT; HOWEVER, DISEASE PROGRESSION STILL OCCURS IN THOSE PATIENTS WHO ARE REFRACTORY, NOT COMPLIANT WITH TKI THERAPY OR DEVELOP RESISTANCE TO MULTIPLE TKIS. IN THE PAST FEW YEARS, IT BECAME CLEAR THAT THE BCRABL1 ONCOGENE DOES NOT OPERATE ALONE TO DRIVE DISEASE EMERGENCE, MAINTENANCE AND PROGRESSION. INDEED, IT SEEMS THAT BONE MARROW (BM) MICROENVIRONMENT-GENERATED SIGNALS AND CELL AUTONOMOUS BCRABL1 KINASE-INDEPENDENT GENETIC AND EPIGENETIC ALTERATIONS ALL CONTRIBUTE TO: I. PERSISTENCE OF A QUIESCENT LEUKEMIC STEM CELL (LSC) RESERVOIR, II. INNATE OR ACQUIRED RESISTANCE TO TKIS, AND III. PROGRESSION INTO THE FATAL BLAST CRISIS STAGE. HEREIN, WE REVIEW THE INTRICATE LEUKEMIC NETWORK IN WHICH ABERRANT, BUT FINELY TUNED, SURVIVAL, MITOGENIC AND SELF-RENEWAL SIGNALS ARE GENERATED BY LEUKEMIC PROGENITORS, STROMAL CELLS, IMMUNE CELLS AND METABOLIC MICROENVIRONMENTAL CONDITIONS (E.G. HYPOXIA) TO PROMOTE LSC MAINTENANCE AND BLASTIC TRANSFORMATION. 2017 2 955 36 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 3 2928 31 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 4 952 36 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 5 4124 39 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 6 3234 24 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 7 1082 34 CML - NOT ONLY BCR-ABL1 MATTERS. BCR-ABL1 IS IN THE CENTER OF CHRONIC MYELOID LEUKEMIA (CML) PATHOLOGY, DIAGNOSIS AND TREATMENT, AS CONFIRMED BY THE SUCCESS OF TYROSINE KINASE INHIBITOR (TKI) THERAPY. HOWEVER, ADDITIONAL MECHANISMS AND EVENTS, MANY OF WHICH FUNCTION INDEPENDENTLY OF BCR-ABL1, PLAY IMPORTANT ROLES, PARTICULARLY IN TERMS OF LEUKEMIC STEM CELL (LSC) PERSISTENCE, PRIMARY AND SECONDARY RESISTANCE, AND DISEASE PROGRESSION. PROMISING THERAPEUTIC APPROACHES AIM TO DISRUPT PATHWAYS WHICH MEDIATE LSC SURVIVAL DURING SUCCESSFUL TKI TREATMENT, IN THE HOPE OF IMPROVING LONG-TERM TREATMENT-FREE-REMISSION AND PERHAPS PROVIDE A FUNCTIONAL CURE FOR SOME PATIENTS. OVER THE YEARS THROUGH ADVANCES IN SEQUENCING TECHNOLOGY FREQUENT MOLECULAR ABERRATIONS IN ADDITION TO BCR-ABL1 HAVE BEEN IDENTIFIED NOT ONLY IN ADVANCED DISEASE BUT ALSO IN CHRONIC PHASE CML, OFTEN AFFECTING EPIGENETIC REGULATORS SUCH AS ASXL1, DNMT3A AND TET2. ANALYSES OF SERIAL SAMPLES HAVE REVEALED VARIOUS PATTERNS OF CLONAL EVOLUTION WITH SOME MUTATIONS PRECEDING THE BCR-ABL1 ACQUISITION. SUCH MUTATIONS CAN BE CONSIDERED TO BE IMPORTANT CO-FACTORS IN THE PATHOGENESIS OF CML AND COULD POTENTIALLY INFLUENCE THERAPEUTIC STRATEGIES IN THE FUTURE. 2020 8 5405 32 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 9 5212 38 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 10 1685 38 DRUGGABLE BIOCHEMICAL PATHWAYS AND POTENTIAL THERAPEUTIC ALTERNATIVES TO TARGET LEUKEMIC STEM CELLS AND ELIMINATE THE RESIDUAL DISEASE IN CHRONIC MYELOID LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A DISEASE ARISING IN STEM CELLS EXPRESSING THE BCR-ABL ONCOGENIC TYROSINE KINASE THAT TRANSFORMS ONE HEMATOPOIETIC STEM/PROGENITOR CELL INTO A LEUKEMIC STEM CELL (LSC) AT THE ORIGIN OF DIFFERENTIATED AND PROLIFERATING LEUKEMIC CELLS IN THE BONE MARROW (BM). CML-LSCS ARE RECOGNIZED AS BEING RESPONSIBLE FOR RESISTANCES AND RELAPSES THAT OCCUR DESPITE THE ADVENT OF BCR-ABL-TARGETING THERAPIES WITH TYROSINE KINASE INHIBITORS (TKIS). LSCS SHARE A LOT OF FUNCTIONAL PROPERTIES WITH HEMATOPOIETIC STEM CELLS (HSCS) ALTHOUGH SOME PHENOTYPICAL AND FUNCTIONAL DIFFERENCES HAVE BEEN DESCRIBED DURING THE LAST TWO DECADES. SUBVERTED MECHANISMS AFFECTING EPIGENETIC PROCESSES, APOPTOSIS, AUTOPHAGY AND MORE RECENTLY METABOLISM AND IMMUNOLOGY IN THE BONE MARROW MICROENVIRONMENT (BMM) HAVE BEEN REPORTED. THE AIM OF THIS REVIEW IS TO BRING TOGETHER THE MODIFICATIONS AND MOLECULAR MECHANISMS THAT ARE KNOWN TO ACCOUNT FOR TKI RESISTANCE IN PRIMARY CML-LSCS AND TO FOCUS ON THE POTENTIAL SOLUTIONS THAT CAN CIRCUMVENT THESE RESISTANCES, IN PARTICULAR THOSE THAT HAVE BEEN, OR WILL BE TESTED IN CLINICAL TRIALS. 2019 11 924 32 CHRONIC INFLAMMATION AS A PROMOTOR OF MUTAGENESIS IN ESSENTIAL THROMBOCYTHEMIA, POLYCYTHEMIA VERA AND MYELOFIBROSIS. A HUMAN INFLAMMATION MODEL FOR CANCER DEVELOPMENT? THE PHILADELPHIA-NEGATIVE CHRONIC MYELOPROLIFERATIVE NEOPLASMS (MPNS) ARE ACQUIRED STEM CELL NEOPLASMS, IN WHICH A STEM CELL LESION INDUCES AN AUTONOMOUS PROLIFERATIVE ADVANTAGE. IN ADDITION TO THE JAK2V617 MUTATION SEVERAL OTHER MUTATIONS HAVE BEEN DESCRIBED. RECENTLY CHRONIC INFLAMMATION HAS BEEN PROPOSED AS A TRIGGER AND DRIVER OF CLONAL EVOLUTION IN MPNS. HEREIN, IT IS HYPOTHESIZED THAT SUSTAINED INFLAMMATION MAY ELICIT THE STEM CELL INSULT BY INDUCING A STATE OF CHRONIC OXIDATIVE STRESS WITH ELEVATED LEVELS OF REACTIVE OXYGEN SPECIES (ROS) IN THE BONE MARROW, THEREBY CREATING A HIGH-RISK MICROENVIRONMENT FOR INDUCTION OF MUTATIONS DUE TO THE PERSISTENT INFLAMMATION-INDUCED OXIDATIVE DAMAGE TO DNA IN HEMATOPOIETIC CELLS. ALTERATIONS IN THE EPIGENOME INDUCED BY THE CHRONIC INFLAMMATORY DRIVE MAY LIKELY ELICIT A "EPIGENETIC SWITCH" PROMOTING PERSISTENT INFLAMMATION. THE PERSPECTIVES OF CHRONIC INFLAMMATION AS THE DRIVER OF MUTAGENESIS IN MPNS ARE DISCUSSED, INCLUDING EARLY INTERVENTION WITH INTERFERON-ALPHA2 AND POTENT ANTI-INFLAMMATORY AGENTS (E.G. JAK1-2 INHIBITORS, HISTONE DEACETYLASE INHIBITORS, DNA-HYPOMETHYLATORS AND STATINS) TO DISRUPT THE SELF-PERPETUATING CHRONIC INFLAMMATION STATE AND ACCORDINGLY ELIMINATING A POTENTIAL TRIGGER OF CLONAL EVOLUTION AND DISEASE PROGRESSION WITH MYELOFIBROTIC AND LEUKEMIC TRANSFORMATION. 2013 12 1674 28 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 13 572 49 BCR-ABL1 KINASE-DEPENDENT ALTERATION OF MRNA METABOLISM: POTENTIAL ALTERNATIVES FOR THERAPEUTIC INTERVENTION. THE USE OF FIRST- AND SECOND-GENERATION TYROSINE KINASE INHIBITORS (TKIS) SIGNIFICANTLY IMPROVES PROGNOSIS FOR PATIENTS WITH EARLY CHRONIC PHASE CHRONIC MYELOID LEUKEMIA (CML) AND EFFICIENTLY COUNTERACTS LEUKEMIA IN MOST PATIENTS WITH CML BEARING A DISEASE CHARACTERIZED BY THE EXPRESSION OF BCR-ABL1 MUTANTS. HOWEVER, THE SO-CALLED 'TINIB' TKIS (E.G. IMATINIB, NILOTINIB, DASATINIB, AND BOSUTINIB) ARE BOTH INEFFECTIVE IN PATIENTS WHO UNDERGO BLASTIC TRANSFORMATION AND UNABLE TO ERADICATE CML AT THE STEM CELL LEVEL. THIS RAISES A FEW IMPORTANT QUESTIONS. IS BCR-ABL1 EXPRESSION AND/OR ACTIVITY ESSENTIAL FOR BLASTIC TRANSFORMATION? IS BLASTIC TRANSFORMATION THE RESULT OF GENETIC OR EPIGENETIC EVENTS THAT OCCUR AT THE STEM CELL LEVEL WHICH ONLY BECOME APPARENT IN THE GRANULOCYTE-MACROPHAGE PROGENITOR (GMP) CELL POOL, OR DOES IT ARISE DIRECTLY AT THE GMP LEVEL? AS ALTERED MRNA METABOLISM CONTRIBUTES TO THE PHENOTYPE OF BLAST CRISIS CML PROGENITORS (DECREASED TRANSLATION OF TUMOR SUPPRESSOR GENES AND TRANSCRIPTION FACTORS ESSENTIAL FOR TERMINAL DIFFERENTIATION AND INCREASED TRANSLATION OF ANTI-APOPTOTIC GENES), ONE ATTRACTIVE CONCEPT IS TO RESTORE LEVELS OF THESE ESSENTIAL MOLECULES TO THEIR NORMAL LEVELS. IN THIS REVIEW, WE DISCUSS THE MECHANISMS BY WHICH MRNA PROCESSING, TRANSLATION, AND DEGRADATION ARE DEREGULATED IN BCR-ABL1 MYELOID BLAST CRISIS CML PROGENITORS, AND PRESENT ENCOURAGING RESULTS FROM STUDIES WITH PHARMACOLOGIC INHIBITORS WHICH SUPPORT THEIR INCLUSION IN THE CLINIC. 2011 14 4436 30 MOLECULAR EVOLUTION OF CHRONIC MYELOID LEUKAEMIA. CHRONIC MYELOID LEUKAEMIA (CML) IS A CLONAL DISORDER OF THE PLURIPOTENT HAEMATOPOIETIC STEM CELL. THE TYPICAL TRIPHASIC COURSE OF CML STARTS WITH THE PREMALIGNANT CHRONIC PHASE INITIATED BY BCR-ABL HYBRID ONCOGENE FORMATION. SECONDARY GENETIC AND EPIGENETIC ABERRATIONS ACCOMPANY THE PROGRESSION TO THE ACCELERATED PHASE AND FATAL BLASTIC CRISIS. PROPERLY TIMED BONE MARROW TRANSPLANTATION IN ELIGIBLE PATIENTS CAN RESULT IN DURABLE REMISSIONS OR CURE. BOTH OF THESE STATES ARE OFTEN ACCOMPANIED BY A LONG-TERM PERSISTENCE OF QUIESCENT LEUKAEMIC CELLS. ACCORDINGLY, A "FUNCTIONAL CURE" (I.E. TUMOUR DORMANCY INDUCTION), RATHER THAN COMPLETE ERADICATION OF THE MALIGNANT CELLS, IS AN ADEQUATE THERAPEUTICAL GOAL. THE LEVEL OF THE RESIDUAL BCR-ABL-POSITIVE CLONES SHOULD BE MONITORED AND SALVAGE TREATMENT INITIATED WHENEVER THESE QUIESCENT LEUKAEMIC CELLS EXIT THEIR DORMANT STATE. 2001 15 953 36 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 16 4552 31 MUTATIONAL LANDSCAPE OF CHRONIC MYELOID LEUKEMIA: MORE THAN A SINGLE ONCOGENE LEUKEMIA. THE BCR-ABL1 FUSION GENE, WHICH CAUSES ABERRANT KINASE ACTIVITY AND UNCONTROLLED CELL PROLIFERATION, IS THE HALLMARK OF CHRONIC MYELOID LEUKEMIA (CML). THE DEVELOPMENT OF TYROSINE KINASE INHIBITORS (TKI) THAT TARGET THE BCR-ABL ONCOPROTEIN HAS LED TO DRAMATIC IMPROVEMENT IN CML MANAGEMENT. HOWEVER, SOME CHALLENGES REMAIN TO BE ADDRESSED IN THE TKI ERA, INCLUDING PATIENT STRATIFICATION AND THE SELECTION OF FRONTLINE TKIS AND CML PROGRESSION. ADDITIONALLY, WITH THE EMERGING GOAL OF TREATMENT-FREE REMISSION (TFR) IN CML MANAGEMENT, BIOMARKERS THAT PREDICT THE OUTCOMES OF STOPPING TKI REMAIN TO BE IDENTIFIED. NOTABLY, RECENT REPORTS HAVE REVEALED THE POWER OF GENOME SCREENING IN UNDERSTANDING THE ROLE OF GENOME ABERRATIONS OTHER THAN BCR-ABL1 IN CML PATHOGENESIS. THESE STUDIES HAVE DISCOVERED THE PRESENCE OF DISEASE-PHASE SPECIFIC MUTATIONS AND LINKED CERTAIN MUTATIONS TO INFERIOR RESPONSES TO TKI TREATMENT AND CML PROGRESSION. A PERSONALIZED APPROACH THAT INCORPORATES GENETIC DATA IN TAILORING TREATMENT STRATEGIES HAS BEEN SUCCESSFULLY IMPLEMENTED IN ACUTE LEUKEMIA, AND IT REPRESENTS A PROMISING APPROACH FOR THE MANAGEMENT OF HIGH-RISK CML PATIENTS. IN THIS ARTICLE, WE WILL REVIEW CURRENT KNOWLEDGE ABOUT THE MUTATIONAL PROFILE IN DIFFERENT PHASES OF CML AS WELL AS PATTERNS OF MUTATIONAL DYNAMICS IN PATIENTS HAVING DIFFERENT OUTCOMES. WE HIGHLIGHT THE EFFECTS OF SOMATIC MUTATIONS INVOLVING CERTAIN GENES (E.G. EPIGENETIC MODIFIERS) ON THE OUTCOMES OF TKI TREATMENT. WE ALSO DISCUSS THE POTENTIAL VALUE OF INCORPORATING GENETIC DATA IN TREATMENT DECISIONS AND THE ROUTINE CARE OF CML PATIENTS AS A FUTURE DIRECTION FOR OPTIMIZING CML MANAGEMENT. 2021 17 570 46 BCR-ABL INDEPENDENT MECHANISMS OF RESISTANCE IN CHRONIC MYELOID LEUKEMIA. NOT ALL CHRONIC MYELOID LEUKEMIA (CML) PATIENTS ARE CURED WITH TYROSINE KINASE INHIBITORS (TKIS), AND A PROPORTION OF THEM DEVELOP RESISTANCE. RECENTLY, CONTINUOUS BCR-ABL GENE EXPRESSION HAS BEEN FOUND IN RESISTANT CELLS WITH UNDETECTABLE BCR-ABL PROTEIN EXPRESSION, INDICATING THAT RESISTANCE MAY OCCUR THROUGH KINASE INDEPENDENT MECHANISMS, MAINLY DUE TO THE PERSISTENCE OF LEUKEMIA STEM CELLS (LSCS). LSCS RESIDE IN THE BONE MARROW NICHE IN A QUIESCENT STATE, AND ARE CHARACTERIZED BY A HIGH HETEROGENEITY IN GENETIC, EPIGENETIC, AND TRANSCRIPTIONAL MECHANISMS. NEW APPROACHES BASED ON SINGLE CELL GENOMICS HAVE OFFERED THE OPPORTUNITY TO IDENTIFY DISTINCT SUBPOPULATIONS OF LSCS AT DIAGNOSIS AND DURING TREATMENT. IN THE ONE HAND, TKIS ARE NOT ABLE TO EFFICIENTLY KILL CML-LSCS, BUT THEY MAY BE RESPONSIBLE FOR THE MODIFICATION OF SOME LSCS CHARACTERISTICS, THUS CONTRIBUTING TO HETEROGENEITY WITHIN THE TUMOR. IN THE OTHER HAND, THE BONE MARROW NICHE IS RESPONSIBLE FOR THE INTERACTIONS BETWEEN SURROUNDING STROMAL CELLS AND LSCS, RESULTING IN THE GENERATION OF SPECIFIC SIGNALS WHICH COULD FAVOR LSCS CELL CYCLE ARREST AND ALLOW THEM TO PERSIST DURING TREATMENT WITH TKIS. ADDITIONALLY, LSCS MAY THEMSELVES ALTER THE NICHE BY EXPRESSING VARIOUS COSTIMULATORY MOLECULES AND SECRETING SUPPRESSIVE CYTOKINES, ABLE TO TARGET METABOLIC PATHWAYS, CREATE AN ANTI-APOPTOTIC ENVIRONMENT, AND ALTER IMMUNE SYSTEM FUNCTIONS. ACCORDINGLY, THE PRODUCTION OF AN IMMUNOSUPPRESSANT MILIEU MAY FACILITATE TUMOR ESCAPE FROM IMMUNE SURVEILLANCE AND INDUCE CHEMO-RESISTANCE. IN THIS REVIEW WE WILL FOCUS ON BCR-ABL-INDEPENDENT MECHANISMS, ANALYZING ESPECIALLY THOSE WITH A POTENTIAL CLINICAL IMPACT IN THE MANAGEMENT OF CML PATIENTS. 2019 18 2503 18 EPIGENETICS AND METABOLISM AT THE CROSSROADS OF STRESS-INDUCED PLASTICITY, STEMNESS AND THERAPEUTIC RESISTANCE IN CANCER. DESPITE THE RECENT ADVANCES IN THE TREATMENT OF CANCERS, ACQUIRED DRUG RESISTANCE REMAINS A MAJOR CHALLENGE IN CANCER MANAGEMENT. WHILE EARLIER STUDIES SUGGEST DARWINIAN FACTORS DRIVING ACQUIRED DRUG RESISTANCE, RECENT STUDIES POINT TO A MORE DYNAMIC PROCESS INVOLVING PHENOTYPIC PLASTICITY AND TUMOR HETEROGENEITY IN THE EVOLUTION OF ACQUIRED DRUG RESISTANCE. CHRONIC STRESS AFTER DRUG TREATMENT INDUCES INTRINSIC CELLULAR REPROGRAMMING AND CANCER STEMNESS THROUGH A SLOW-CYCLING PERSISTER STATE, WHICH SUBSEQUENTLY DRIVES CANCER PROGRESSION. BOTH EPIGENETIC AND METABOLIC MECHANISMS PLAY AN IMPORTANT ROLE IN THIS DYNAMIC PROCESS. IN THIS REVIEW, WE DISCUSS HOW EPIGENETIC AND METABOLIC REPROGRAMMING LEADS TO STRESS-INDUCED PHENOTYPIC PLASTICITY AND ACQUIRED DRUG RESISTANCE, AND HOW THE TWO REPROGRAMMING MECHANISMS CROSSTALK WITH EACH OTHER. 2020 19 109 38 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 20 384 26 AN EVOLUTIONARY PERSPECTIVE ON CHRONIC MYELOMONOCYTIC LEUKEMIA. CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML) SHARES WITH OTHER MYELOID DISEASES A NUMBER OF SOMATIC GENE MUTATIONS. THESE MUTATIONS CAN NOW BE INTEGRATED WITHIN THE FRAMEWORK OF EVOLUTION THEORY TO ADDRESS THE MECHANISMS OF THE DISEASE. SEVERAL EVIDENCES INDICATE THAT THE DISEASE EMERGES IN ADULT HEMATOPOIETIC STEM CELLS (HSC) THROUGH THE AGE-DEPENDENT ACCUMULATION OF DNA DAMAGE, LEADING STOCHASTICALLY TO A DRIVER MUTATION THAT CONFERS A COMPETITIVE ADVANTAGE TO THE CELL. A MUTATION IN TET2 GENE COULD BE ONE OF THESE DRIVER MUTATIONS PROVOKING THE EMERGENCE OF CLONALITY. AFTER A LONG LATENCY, SECONDARY LESIONS, SUCH AS MUTATIONS IN THE SRSF2 GENE, CONTRIBUTE TO PROGRESSION TO FULL-BLOWN MALIGNANCY, WITH ABNORMAL DIFFERENTIATION. ADDITIONAL MUTATIONS ACCUMULATE AND BRANCHING ARISING MOSTLY THROUGH MITOTIC RECOMBINATION GENERATES CLONAL HETEROGENEITY. MODIFICATIONS IN THE MICROENVIRONMENT PROBABLY AFFECT THIS CLONAL DYNAMICS, WHEREAS EPIGENETIC ALTERATIONS, SUCH AS HYPERMETHYLATION OF THE TIF1GAMMA GENE PROMOTER, MAY GENERATE PHENOTYPIC DIVERSIFICATION OF OTHERWISE CLONAL POPULATIONS. THE PRESERVED ALTHOUGH DEREGULATED MYELOID DIFFERENTIATION THAT CHARACTERIZES CMML, WITH GRANULOMONOCYTE EXPANSION AND VARIOUS CYTOPENIAS, MAY DEPEND ON EARLY CLONAL DOMINANCE IN THE HEMATOPIETIC CELL HIERARCHY. PROGRESSION TO ACUTE MYELOID LEUKEMIA OBSERVED IN 25-30% OF THE PATIENTS MAY ARISE FROM THE MASSIVE EXPANSION OF A CLONE WITH NOVEL GENETIC LESIONS, PROVIDING A HIGH FITNESS TO PREVIOUSLY MINOR SUBCLONES WHEN IN CHRONIC PHASE OF THE DISEASE. THIS REVIEW DISCUSSES THE VARIOUS MODELS OF DISEASE EMERGENCE AND PROGRESSION AND HOW THIS RECENT KNOWLEDGE COULD DRIVE RATIONAL THERAPEUTIC STRATEGIES. 2013