1 924 118 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 2 2548 31 EPIGENETICS IN MYELOPROLIFERATIVE NEOPLASMS. THE MYELOPROLIFERATIVE NEOPLASMS (MPNS) ARE A GROUP OF ACQUIRED CLONAL DISORDERS WHERE MUTATIONS DRIVE PROLIFERATIVE DISEASE RESULTING IN INCREASED BLOOD COUNTS AND IN SOME CASES END-STAGE MYELOFIBROSIS. EPIGENETIC CHANGES ARE THE REVERSIBLE MODIFICATIONS TO DNA- AND RNA-ASSOCIATED PROTEINS THAT IMPACT GENE ACTIVITY WITHOUT CHANGING THE DNA SEQUENCE. THIS REVIEW SUMMARIZES MECHANISMS OF EPIGENETIC CHANGES AND THE NUCLEOSOME. THE DRIVERS AND EPIGENETIC REGULATORS IN MPNS ARE OUTLINED. IN MPNS, DISTINCT PATTERNS OF EPIGENETIC DYSREGULATION HAVE BEEN SEEN IN CHRONIC AND IN ADVANCED PHASES. METHYLATION AGE AND HISTONE MODIFICATION ARE ALTERED IN MPNS AND BY FURTHER TREATMENT. THE ALTERATIONS FOUND IN METHYLATION AGE IN MPNS AND WITH TREATMENT ARE DISCUSSED, AND THE CHANGES IN HISTONE MODIFICATION WITH JANUS KINASE (JAK) INHIBITION ARE EVALUATED. CURRENTLY AVAILABLE THERAPEUTIC AREAS WHERE THE EPIGENOME CAN BE ALTERED ARE OUTLINED. THUS, WE REVIEW THE CURRENT KNOWLEDGE AND UNDERSTANDING OF EPIGENETICS IN MPN AND CONSIDER FURTHER MANAGEMENT OPTIONS. UNDERSTANDING THE EPIGENOME AND ITS ALTERATION IN MPNS AND EPIGENETIC CHANGES ASSOCIATED WITH THE PROGRESSION OF DISEASE WILL LEAD TO ADVANCES IN THERAPEUTIC OPTIONS. 2023 3 359 39 ALWAYS STRESSED BUT NEVER EXHAUSTED: HOW STEM CELLS IN MYELOID NEOPLASMS AVOID EXTINCTION IN INFLAMMATORY CONDITIONS. CHRONIC OR RECURRENT EPISODES OF ACUTE INFLAMMATION CAUSE ATTRITION OF NORMAL HEMATOPOIETIC STEM CELLS (HSCS) THAT CAN LEAD TO HEMATOPOIETIC FAILURE BUT THEY DRIVE PROGRESSION IN MYELOID MALIGNANCIES AND THEIR PRECURSOR CLONAL HEMATOPOIESIS. MECHANISTIC PARALLELS EXIST BETWEEN HEMATOPOIESIS IN CHRONIC INFLAMMATION AND THE CONTINUOUSLY INCREASED PROLIFERATION OF MYELOID MALIGNANCIES, PARTICULARLY MYELOPROLIFERATIVE NEOPLASMS (MPNS). THE ABILITY TO ENTER DORMANCY, A STATE OF DEEP QUIESCENCE CHARACTERIZED BY LOW OXIDATIVE PHOSPHORYLATION, LOW GLYCOLYSIS, REDUCED PROTEIN SYNTHESIS, AND INCREASED AUTOPHAGY IS CENTRAL TO THE PRESERVATION OF LONG-TERM HSCS AND LIKELY MPN SCS. THE METABOLIC FEATURES OF DORMANCY RESEMBLE THOSE OF DIAPAUSE, A STATE OF ARRESTED EMBRYONIC DEVELOPMENT TRIGGERED BY ADVERSE ENVIRONMENTAL CONDITIONS. TO OUTCOMPETE THEIR NORMAL COUNTERPARTS IN THE INFLAMMATORY MPN ENVIRONMENT, MPN SCS CO-OPT MECHANISMS USED BY HSCS TO AVOID EXHAUSTION, INCLUDING SIGNAL ATTENUATION BY NEGATIVE REGULATORS, INSULATION FROM ACTIVATING CYTOKINE SIGNALS, ANTI-INFLAMMATORY SIGNALING, AND EPIGENETIC REPROGRAMMING. WE PROPOSE THAT NEW THERAPEUTIC STRATEGIES MAY BE DERIVED FROM CONCEPTUALIZING MYELOID MALIGNANCIES AS AN ECOSYSTEM OUT OF BALANCE, IN WHICH RESIDUAL NORMAL AND MALIGNANT HEMATOPOIETIC CELLS INTERACT IN MULTIPLE WAYS, ONLY FEW OF WHICH HAVE BEEN CHARACTERIZED IN DETAIL. DISRUPTING MPN SC INSULATION TO OVERCOME DORMANCY, INTERFERING WITH ABERRANT CYTOKINE CIRCUITS THAT FAVOR MPN CELLS, AND DIRECTLY BOOSTING RESIDUAL NORMAL HSCS ARE POTENTIAL STRATEGIES TO TIP THE BALANCE IN FAVOR OF NORMAL HEMATOPOIESIS. ALTHOUGH ERADICATING THE MALIGNANT CELL CLONES REMAINS THE GOAL OF THERAPY, REBALANCING THE ECOSYSTEM MAY BE A MORE ATTAINABLE OBJECTIVE IN THE SHORT TERM. 2023 4 4322 35 MICRORNAS IN MYELOPROLIFERATIVE NEOPLASMS. THE CHRONIC MYELOPROLIFERATIVE NEOPLASMS (MPN), INCLUDING POLYCYTHAEMIA VERA (PV), ESSENTIAL THROMBOCYTHAEMIA (ET) AND PRIMARY MYELOFIBROSIS (PMF), ARE CLONAL STEM CELL DISORDERS CHARACTERIZED BY DYSREGULATED HAEMATOPOIETIC STEM CELL EXPANSION AND PRODUCTION OF RED CELLS, WHITE CELLS AND PLATELETS ALONE OR IN COMBINATION. AN ACQUIRED MUTATION JAK2(V617F) CAN BE FOUND IN ALL THREE DISORDERS AND SHOWS MANY OF THE PHENOTYPIC ABNORMALITIES OF THE DISEASES IN MURINE MODELS. THE DISEASE PHENOTYPE IS ALSO INFLUENCED BY OTHER UNKNOWN GENETIC OR EPIGENETIC FACTORS. MICRORNAS (MIRNA) ARE 18-24 NUCLEOTIDE SINGLE-STRANDED NON-PROTEIN-CODING RNAS THAT FUNCTION PRIMARILY AS GENE REPRESSORS BY BINDING TO THEIR TARGET MESSENGER RNAS. THERE IS GROWING EVIDENCE THAT MIRNAS REGULATE HAEMATOPOIESIS IN BOTH HAEMATOPOIETIC STEM CELLS AND COMMITTED PROGENITOR CELLS. HERE, WE REVIEW THE FIELD OF MIRNA BIOLOGY AND ITS REGULATORY ROLES IN NORMAL HAEMATOPOIESIS WITH AN EMPHASIS ON MIRNA DEREGULATIONS IN MPNS. CONTINUED RESEARCH INTO HOW MIRNAS IMPACT JAK2(V617F) CLONAL EXPANSION, DIFFERENTIAL HAEMATOPOIESIS AMONG DIFFERENT MPNS, DISEASE PROGRESSION AND LEUKAEMIA TRANSFORMATION WILL LEAD TO A BETTER UNDERSTANDING OF THE DEVELOPMENT OF THESE DISORDERS, THEIR CLINICAL MANIFESTATIONS, AND THEIR TREATMENT. 2013 5 1076 37 CLONAL HEMATOPOIESIS IN MYELOPROLIFERATIVE NEOPLASMS CONFERS A PREDISPOSITION TO BOTH THROMBOSIS AND CANCER. PURPOSE OF REVIEW: THIS REVIEW FOCUSES ON VASCULAR COMPLICATIONS ASSOCIATED WITH CHRONIC MYELOPROLIFERATIVE NEOPLASMS (MPN) AND MORE SPECIFICALLY AIMS TO DISCUSS THE CLINICAL AND BIOLOGICAL EVIDENCE SUPPORTING THE EXISTENCE OF A LINK BETWEEN CLONAL HEMATOPOIESIS, CARDIOVASCULAR EVENTS (CVE), AND SOLID CANCER (SC). RECENT FINDINGS: THE MPN NATURAL HISTORY IS DRIVEN BY UNCONTROLLED CLONAL MYELOPROLIFERATION SUSTAINED BY ACQUIRED SOMATIC MUTATIONS IN DRIVER (JAK2, CALR, AND MPL) AND NON-DRIVER GENES, INVOLVING EPIGENETIC (E.G., TET2, DNMT3A) REGULATORS, CHROMATIN REGULATOR GENES (E.G., ASXL1, EZH2), AND SPLICING MACHINERY GENES (E.G., SF3B1). THE GENOMIC ALTERATIONS AND ADDITIONAL THROMBOSIS ACQUIRED RISK FACTORS ARE DETERMINANTS FOR CVE. THERE IS EVIDENCE THAT CLONAL HEMATOPOIESIS CAN ELICIT A CHRONIC AND SYSTEMIC INFLAMMATION STATUS THAT ACTS AS DRIVING FORCE FOR THE DEVELOPMENT OF THROMBOSIS, MPN EVOLUTION, AND SECOND CANCER (SC). THIS NOTION MAY EXPLAIN THE MECHANISM THAT LINKS ARTERIAL THROMBOSIS IN MPN PATIENTS AND SUBSEQUENT SOLID TUMORS. IN THE LAST DECADE, CLONAL HEMATOPOIESIS OF INDETERMINATE POTENTIAL (CHIP) HAS BEEN DETECTED IN THE GENERAL POPULATION PARTICULARLY IN THE ELDERLY AND INITIALLY FOUND IN MYOCARDIAL INFARCTION AND STROKE, RISING THE HYPOTHESIS THAT THE INFLAMMATORY STATUS CHIP-ASSOCIATED COULD CONFER PREDISPOSITION TO BOTH CARDIOVASCULAR DISEASES AND CANCER. IN SUMMARY, CLONAL HEMATOPOIESIS IN MPN AND CHIP CONFER A PREDISPOSITION TO CARDIOVASCULAR EVENTS AND CANCER THROUGH CHRONIC AND SYSTEMIC INFLAMMATION. THIS ACQUISITION COULD OPEN NEW AVENUES FOR ANTITHROMBOTIC THERAPY BOTH IN MPNS AND IN GENERAL POPULATION BY TARGETING BOTH CLONAL HEMATOPOIESIS AND INFLAMMATION. 2023 6 3702 33 INFLAMMATORY SIGNALING PATHWAYS IN PRELEUKEMIC AND LEUKEMIC STEM CELLS. HEMATOPOIETIC STEM CELLS (HSCS) ARE A RARE SUBSET OF BONE MARROW CELLS THAT USUALLY EXIST IN A QUIESCENT STATE, ONLY ENTERING THE CELL CYCLE TO REPLENISH THE BLOOD COMPARTMENT, THEREBY LIMITING THE POTENTIAL FOR ERRORS IN REPLICATION. INFLAMMATORY SIGNALS THAT ARE RELEASED IN RESPONSE TO ENVIRONMENTAL STRESSORS, SUCH AS INFECTION, TRIGGER ACTIVE CYCLING OF HSCS. THESE INFLAMMATORY SIGNALS CAN ALSO DIRECTLY INDUCE HSCS TO RELEASE CYTOKINES INTO THE BONE MARROW ENVIRONMENT, PROMOTING MYELOID DIFFERENTIATION. AFTER STRESS MYELOPOIESIS IS TRIGGERED, HSCS REQUIRE INTRACELLULAR SIGNALING PROGRAMS TO DEACTIVATE THIS RESPONSE AND RETURN TO STEADY STATE. PROLONGED OR EXCESSIVE EXPOSURE TO INFLAMMATORY CYTOKINES, SUCH AS IN PROLONGED INFECTION OR IN CHRONIC RHEUMATOLOGIC CONDITIONS, CAN LEAD TO CONTINUED HSC CYCLING AND EVENTUAL HSC LOSS. THIS PROMOTES BONE MARROW FAILURE, AND CAN PRECIPITATE PRELEUKEMIC STATES OR LEUKEMIA THROUGH THE ACQUISITION OF GENETIC AND EPIGENETIC CHANGES IN HSCS. THIS CAN OCCUR THROUGH THE INITIATION OF CLONAL HEMATOPOIESIS, FOLLOWED BY THE EMERGENCE PRELEUKEMIC STEM CELLS (PRE-LSCS). IN THIS REVIEW, WE DESCRIBE THE ROLES OF MULTIPLE INFLAMMATORY SIGNALING PATHWAYS IN THE GENERATION OF PRE-LSCS AND IN PROGRESSION TO MYELODYSPLASTIC SYNDROME (MDS), MYELOPROLIFERATIVE NEOPLASMS, AND ACUTE MYELOID LEUKEMIA (AML). IN AML, ACTIVATION OF SOME INFLAMMATORY SIGNALING PATHWAYS CAN PROMOTE THE CYCLING AND DIFFERENTIATION OF LSCS, AND THIS CAN BE EXPLOITED THERAPEUTICALLY. WE ALSO DISCUSS THE THERAPEUTIC POTENTIAL OF MODULATING INFLAMMATORY SIGNALING FOR THE TREATMENT OF MYELOID MALIGNANCIES. 2017 7 1674 36 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 8 3575 34 IMPACT OF MOLECULAR PROFILING ON THE MANAGEMENT OF PATIENTS WITH MYELOFIBROSIS. MYELOFIBROSIS (MF) IS A CHRONIC MYELOPROLIFERATIVE NEOPLASM (MPN) CHARACTERIZED BY A HIGHLY HETEROGENEOUS CLINICAL COURSE, WHICH CAN BE COMPLICATED BY SEVERE CONSTITUTIONAL SYMPTOMS, MASSIVE SPLENOMEGALY, PROGRESSIVE BONE MARROW FAILURE, CARDIOVASCULAR EVENTS, AND DEVELOPMENT OF ACUTE LEUKEMIA. CONSTITUTIVE SIGNALING THROUGH THE JAK-STAT PATHWAY PLAYS A FUNDAMENTAL ROLE IN ITS PATHOGENESIS, GENERALLY DUE TO ACTIVATING MUTATIONS OF JAK2, CALR AND MPL GENES (I.E., THE MPN DRIVER MUTATIONS), PRESENT IN MOST MF PATIENTS. NEXT GENERATION SEQUENCING (NGS) PANEL TESTING HAS SHOWN THAT ADDITIONAL SOMATIC MUTATIONS CAN ALREADY BE DETECTED AT THE TIME OF DIAGNOSIS IN MORE THAN HALF OF PATIENTS, AND THAT THEY ACCUMULATE ALONG THE DISEASE COURSE. THESE MUTATIONS, MOSTLY AFFECTING EPIGENETIC MODIFIERS OR SPLICEOSOME COMPONENTS, MAY COOPERATE WITH MPN DRIVERS TO FAVOR CLONAL DOMINANCE OR INFLUENCE THE CLINICAL PHENOTYPE, AND SOME, SUCH AS HIGH MOLECULAR RISK MUTATIONS, CORRELATE WITH A MORE AGGRESSIVE CLINICAL COURSE WITH POOR TREATMENT RESPONSE. THE CURRENT MAIN ROLE OF MOLECULAR PROFILING IN CLINICAL PRACTICE IS PROGNOSTICATION, PRINCIPALLY FOR SELECTING HIGH-RISK PATIENTS WHO MAY BE CANDIDATES FOR TRANSPLANTATION, THE ONLY CURATIVE TREATMENT FOR MF TO DATE. TO THIS END, CONTEMPORARY PROGNOSTIC MODELS INCORPORATING MOLECULAR DATA ARE USEFUL TOOLS TO DISCRIMINATE DIFFERENT RISK CATEGORIES. ASIDE FROM CERTAIN CLINICAL SITUATIONS, DECISIONS REGARDING MEDICAL TREATMENT ARE NOT BASED ON PATIENT MOLECULAR PROFILING, YET THIS APPROACH MAY BECOME MORE RELEVANT IN NOVEL TREATMENT STRATEGIES, SUCH AS THE USE OF VACCINES AGAINST THE MUTANT FORMS OF JAK2 OR CALR, OR DRUGS DIRECTED AGAINST ACTIONABLE MOLECULAR TARGETS. 2022 9 1947 43 EPIGENETIC ABNORMALITIES IN MYELOPROLIFERATIVE NEOPLASMS: A TARGET FOR NOVEL THERAPEUTIC STRATEGIES. THE MYELOPROLIFERATIVE NEOPLASMS (MPNS) ARE A GROUP OF CLONAL HEMATOLOGICAL MALIGNANCIES CHARACTERIZED BY A HYPERCELLULAR BONE MARROW AND A TENDENCY TO DEVELOP THROMBOTIC COMPLICATIONS AND TO EVOLVE TO MYELOFIBROSIS AND ACUTE LEUKEMIA. UNLIKE CHRONIC MYELOGENOUS LEUKEMIA, WHERE A SINGLE DISEASE-INITIATING GENETIC EVENT HAS BEEN IDENTIFIED, A MORE COMPLICATED SERIES OF GENETIC MUTATIONS APPEAR TO BE RESPONSIBLE FOR THE BCR-ABL1-NEGATIVE MPNS WHICH INCLUDE POLYCYTHEMIA VERA, ESSENTIAL THROMBOCYTHEMIA, AND PRIMARY MYELOFIBROSIS. RECENT STUDIES HAVE REVEALED A NUMBER OF EPIGENETIC ALTERATIONS THAT ALSO LIKELY CONTRIBUTE TO DISEASE PATHOGENESIS AND DETERMINE CLINICAL OUTCOME. INCREASING EVIDENCE INDICATES THAT ALTERATIONS IN DNA METHYLATION, HISTONE MODIFICATION, AND MICRORNA EXPRESSION PATTERNS CAN COLLECTIVELY INFLUENCE GENE EXPRESSION AND POTENTIALLY CONTRIBUTE TO MPN PATHOGENESIS. EXAMPLES INCLUDE MUTATIONS IN GENES ENCODING PROTEINS THAT MODIFY CHROMATIN STRUCTURE (EZH2, ASXL1, IDH1/2, JAK2V617F, AND IKZF1) AS WELL AS EPIGENETIC MODIFICATION OF GENES CRITICAL FOR CELL PROLIFERATION AND SURVIVAL (SUPPRESSORS OF CYTOKINE SIGNALING, POLYCYTHEMIA RUBRA VERA-1, CXC CHEMOKINE RECEPTOR 4, AND HISTONE DEACETYLASE (HDAC)). THESE EPIGENETIC LESIONS SERVE AS NOVEL TARGETS FOR EXPERIMENTAL THERAPEUTIC INTERVENTIONS. CLINICAL TRIALS ARE CURRENTLY UNDERWAY EVALUATING HDAC INHIBITORS AND DNA METHYLTRANSFERASE INHIBITORS FOR THE TREATMENT OF PATIENTS WITH MPNS. 2011 10 4124 29 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 11 384 36 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 12 737 34 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 13 736 29 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 14 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 15 2237 33 EPIGENETIC MODIFIERS IN MYELOID MALIGNANCIES: THE ROLE OF HISTONE DEACETYLASE INHIBITORS. MYELOID HEMATOLOGICAL MALIGNANCIES ARE CLONAL BONE MARROW NEOPLASMS, COMPRISING OF ACUTE MYELOID LEUKEMIA (AML), THE MYELODYSPLASTIC SYNDROMES (MDS), CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), THE MYELOPROLIFERATIVE NEOPLASMS (MPN) AND SYSTEMIC MASTOCYTOSIS (SM). THE FIELD OF EPIGENETIC REGULATION OF NORMAL AND MALIGNANT HEMATOPOIESIS IS RAPIDLY GROWING. IN RECENT YEARS, HETEROZYGOUS SOMATIC MUTATIONS IN GENES ENCODING EPIGENETIC REGULATORS HAVE BEEN FOUND IN ALL SUBTYPES OF MYELOID MALIGNANCIES, SUPPORTING THE RATIONALE FOR TREATMENT WITH EPIGENETIC MODIFIERS. HISTONE DEACETYLASE INHIBITORS (HDACI) ARE EPIGENETIC MODIFIERS THAT, IN VITRO, HAVE BEEN SHOWN TO INDUCE GROWTH ARREST, APOPTOTIC OR AUTOPHAGIC CELL DEATH, AND TERMINAL DIFFERENTIATION OF MYELOID TUMOR CELLS. THESE EFFECTS WERE OBSERVED BOTH AT THE BULK TUMOR LEVEL AND IN THE MOST IMMATURE CD34(+)38(-) CELL COMPARTMENTS CONTAINING THE LEUKEMIC STEM CELLS. THUS, THERE IS A STRONG RATIONALE SUPPORTING HDACI THERAPY IN MYELOID MALIGNANCIES. HOWEVER, DESPITE INITIAL PROMISING RESULTS IN PHASE I TRIALS, HDACI IN MONOTHERAPY AS WELL AS IN COMBINATION WITH OTHER DRUGS, HAVE FAILED TO IMPROVE RESPONSES OR SURVIVAL. THIS REVIEW PROVIDES AN OVERVIEW OF THE RATIONALE FOR HDACI IN MYELOID MALIGNANCIES, CLINICAL RESULTS AND SPECULATIONS ON WHY CLINICAL TRIALS HAVE THUS FAR NOT MET THE EXPECTATIONS, AND HOW THIS MAY BE IMPROVED IN THE FUTURE. 2018 16 6151 25 THE FIRE WITHIN: CELL-AUTONOMOUS MECHANISMS IN INFLAMMATION-DRIVEN CANCER. INFLAMMATORY CELLS ARE IMPORTANT FOR TUMOR INITIATION AND PROMOTION, PROVIDING CANCER CELLS WITH CYTOKINES THAT ENHANCE CELL PROLIFERATION AND SURVIVAL. ALTHOUGH MALIGNANT EPITHELIAL CELLS WERE TRADITIONALLY CONSIDERED TO BE ON THE RECEIVING END OF THESE MICROENVIRONMENTAL INTERACTIONS, RECENT STUDIES SHOW THAT EPITHELIAL CELLS CAN UNDERGO INFLAMMATORY REPROGRAMMING ON THEIR OWN. SUCH EPIGENETIC SWITCHES ARE OFTEN TRIGGERED BY CHRONIC TISSUE INJURY AND PLAY IMPORTANT ROLES IN TISSUE REPAIR. BY CONVERTING TERMINALLY DIFFERENTIATED CELLS THAT HARBOR EVEN A SINGLE ONCOGENIC MUTATION TO A LESS DIFFERENTIATED STATE WITH A HIGHER PROLIFERATIVE POTENTIAL, CELL-AUTONOMOUS INFLAMMATION IS AN IMPORTANT CONTRIBUTOR TO TUMOR INITIATION. 2019 17 4660 40 NEW APPROACHES TO THE TREATMENT OF MYELODYSPLASIA. THE THERAPEUTIC DILEMMA THAT CONFRONTS THE MANAGEMENT OF PATIENTS WITH MYELODYSPLASTIC SYNDROMES (MDS) IS ILLUSTRATED BY THE ABSENCE OF A FOOD AND DRUG ADMINISTRATION-APPROVED AGENT WITH AN INDICATION FOR THIS DISEASE. CLINICAL HETEROGENEITY AND INADEQUATE UNDERSTANDING OF THE DISEASE PATHOBIOLOGY HAVE LIMITED PROGRESS IN THE DEVELOPMENT OF NOVEL THERAPEUTICS. PRECLINICAL INVESTIGATIONS INDICATE THAT RECIPROCAL INTERACTION BETWEEN THE MALIGNANT CLONE AND THE MICROENVIRONMENT SERVE TO CREATE A HOSTILE MILIEU THAT REINFORCES INEFFECTIVE BLOOD CELL PRODUCTION. INEFFECTIVE HEMATOPOIESIS, THE HALLMARK OF MDS, ARISES FROM IMPAIRED PROGENITOR RESPONSIVENESS TO NORMAL TROPHIC SIGNALS AND EXCESS LOCAL GENERATION OF INHIBITORY CYTOKINES, WHICH PROMOTE ACCELERATED APOPTOTIC LOSS OF PROGENITORS AND THEIR PROGENY. EVIDENCE TO SUPPORT THIS MODEL DERIVES FROM CYTOKINE NEUTRALIZATION STUDIES AND THE DIRECT RELATIONSHIP BETWEEN PLASMA TUMOR NECROSIS FACTOR-ALPHA CONCENTRATION AND DNA OXIDATION AND GLUTATHIONE DEPLETION IN MALIGNANT CD34+ PROGENITORS. RECENT INVESTIGATIONS INDICATE THAT ANGIOGENIC MOLECULES GENERATED BY MALIGNANT MYELOMONOCYTIC PRECURSORS REPRESENT INTEGRAL DIFFUSABLE SIGNALS THAT REINFORCE LEUKEMIA PROGENITOR SELF-RENEWAL WHILE PROMOTING THE GENERATION OF PROAPOPTOTIC CYTOKINES AND MEDULLARY ANGIOGENIC RESPONSE. THE POTENTIAL FOR LEUKEMIA EVOLUTION IS COMPOUNDED BY EPIGENETIC EVENTS INCLUDING METHYLATION SILENCING OF THE P15 PROTO-ONCOGENE OR ACTIVATING RAS POINT MUTATIONS. DELINEATION OF SUCH BIOLOGIC FEATURES THAT ARE CENTRAL TO THE PATHOBIOLOGY OF MDS PROVIDES A RELIABLE FRAMEWORK FOR THE DEVELOPMENT OF NOVEL THERAPEUTICS. ANTIANGIOGENIC AGENTS IN CLINICAL TESTING INCLUDE VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF) RECEPTOR TYROSINE KINASE INHIBITORS, THALIDOMIDE AND RELATED ANALOGUES, AND THE RECOMBINANT VEGF NEUTRALIZING ANTIBODY, BEVACIZUMAB. AGENTS WHOSE ACTIONS MAY RESTORE DIFFERENTIATION PROGRAMS, SUCH AS THE DNA METHYLTRANSFERASE INHIBITORS OR HISTONE DEACETYLASE INHIBITORS, OFFER THE PROSPECT TO PROMOTE EFFECTIVE HEMATOPOIESIS WHILE IMPACTING THE POTENTIAL FOR LEUKEMIA EVOLUTION. RAS FARNESYL TRANSFERASE INHIBITORS HAVE SHOWN ENCOURAGING PRELIMINARY RESULTS IN ACUTE MYELOID LEUKEMIA AND ARE CURRENTLY UNDER INVESTIGATION IN ADVANCED MDS AND CHRONIC MYELOMONOCYTIC LEUKEMIA. ARSENIC TRIOXIDE (ATO) INTERACTS WITH A SPECTRUM OF BIOLOGIC TARGETS THAT MAY BE UNIQUELY SUITED TO MDS. ATO IS A POTENT INDUCER OF APOPTOSIS IN THIOL-DEPLETED MALIGNANT PROGENITORS AND NEOVASCULAR ENDOTHELIUM, WHILE PROMOTING DIFFERENTIATION THROUGH HISTONE ACETYLATION AND INACTIVATION OF TRANSCRIPTIONAL COREPRESSORS. THE IDENTIFICATION OF RELEVANT BIOLOGIC TARGETS IN MDS HAS RAISED EXPECTATIONS FOR THE DEVELOPMENT OF DISEASE-SPECIFIC THERAPIES FOR MDS IN THE YEARS THAT FOLLOW. 2002 18 928 26 CHRONIC INFLAMMATION, THE TUMOR MICROENVIRONMENT AND CARCINOGENESIS. CHRONIC INFLAMMATION OFTEN PRECEDES OR ACCOMPANIES A SUBSTANTIAL NUMBER OF CANCERS. INDEED, ANTI-INFLAMMATORY THERAPIES HAVE SHOWN EFFICACY IN CANCER PREVENTION AND TREATMENT. THE EXACT MECHANISMS THAT TURN A WOUND HEALING PROCESS INTO A CANCER PRECURSOR ARE TOPICS OF INTENSE RESEARCH. A PATHOGENIC LINK HAS BEEN IDENTIFIED BETWEEN INFLAMMATORY MEDIATORS, INFLAMMATION RELATED GENE POLYMORPHISMS AND CARCINOGENESIS. ANIMAL MODELS OF CANCER HAVE BEEN INSTRUMENTAL IN DEMONSTRATING THE DIVERSITY OF MECHANISMS THROUGH WHICH EVERY TUMOR COMPARTMENT AND TUMOR STAGE MAY BE AFFECTED BY THE UNDERLYING INFLAMMATORY PROCESS. IN THIS REVIEW, WE FOCUS ON THE INTERACTION BETWEEN CHRONIC INFLAMMATION, TUMOR STEM CELLS AND THE TUMOR MICROENVIRONMENT. WE SUMMARIZE THE PROPOSED MECHANISMS THAT LEAD TO THE RECRUITMENT OF BONE MARROW DERIVED CELLS AND EXPLORE THE GENETIC AND EPIGENETIC ALTERATIONS THAT MAY OCCUR IN INFLAMMATION ASSOCIATED CANCERS. 2009 19 2752 23 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 20 2652 30 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