1 864 133 CHROMOSOMAL INSTABILITY IN ORAL SQUAMOUS CELL CARCINOMA. ORAL SQUAMOUS CELL CARCINOMA (OSCC) DEMONSTRATES AN INCREASING RATE DUE TO HIGH RISK HUMAN PAPILLOMA VIRUS (HR-HPV) PERSISTENT INFECTION, AND ALSO TO CHRONIC CIGARETTE AND ALCOHOL CONSUMPTION. GROSS CHROMOSOMAL ALTERATIONS (POLYSOMY, ANEUPLOIDY, INTRA-CHROMOSOME REARRANGEMENTS) AND SPECIFIC GENE ABERRATIONS SUCH AS AMPLIFICATIONS, DELETIONS, POINT MUTATIONS COMBINED OR NOT WITH EPIGENETIC ONES (PROMOTER METHYLATIONS AND MIRNA DEREGULATIONS) ARE RESPONSIBLE FOR THE PROGRESSIVE TRANSFORMATION OF NORMAL SQUAMOUS CELL EPITHELIA TO THE CORRESPONDING MALIGNANT. CHROMOSOMAL INSTABILITY (CI) -BASED ON STRUCTURAL OR NUMERICAL ABNORMALITIES- LEADS TO SPECIFIC ABNORMAL KARYOTYPES COMBINED OR NOT WITH FUNCTIONAL SUPPRESSOR GENE INACTIVATION AND ONCOGENE OVERACTIVATION IN SOLID MALIGNANCIES, INCLUDING OSCC. EXTENSIVE CYTOGENETIC ANALYSES HAVE SHOWN THAT GROSS ALTERATIONS (GAINS/LOSSES) IN CHROMOSOMES 3, 4, 7, 8, 9, 11, 14, 17, 18, 19 AND ALSO 20 FORM DIFFERENT CI PATTERNS IN OSCC, WHICH IN CONJUNCTION WITH AN AGGRESSIVE PHENOTYPE (PRESENCE OF LYMPH NODAL METASTASIS) NEGATIVELY AFFECT THE PROGNOSIS IN THE CORRESPONDING PATIENTS. IN THE MAJORITY OF OSCC CASES, LOSS OF CHROMOSOMAL BANDS ARE ALMOST EQUALLY DETECTED COMPARED WITH GAINS REGARDING THE CHROMOSOMES REFERRED ABOVE. IN THE CURRENT SPECIAL MOLECULAR PAPER WE EXPLORED THE ROLE OF CI IN THE PROGRESSION AND BIOLOGICAL BEHAVIOR OF OSCCS. 2018 2 954 18 CHRONIC MYELOID LEUKEMIA: CURRENT PERSPECTIVES. CHRONIC MYELOID LEUKEMIA (CML), CHARACTERIZED BY THE T(9;22) AND BCR/ABL1 FUSION, IS A DISEASE MODEL FOR STUDYING THE MECHANISMS OF GENETIC ABNORMALITIES IN LEUKEMOGENESIS. THE DETECTION OF THE T(9;22), CHARACTERIZATION OF THE BCR/ABL FUSION, AND THE DISCOVERY OF IMATINIB HAVE ELEGANTLY REFLECTED THE SUCCESS OF OUR RESEARCH EFFORTS IN CML. HOWEVER, GENOMIC INSTABILITIES THAT LEAD TO THE FORMATION OF THE BCR/ ABL1 FUSION ARE NOT FULLY UNDERSTOOD. IT IS IMPORTANT TO UNDERSTAND HOW VARIOUS GENES THAT ARE INVOLVED IN REGULATING THE SIGNALING PATHWAY AND EPIGENETIC DEREGULATION COOPERATE WITH THE BCR/ABL1 FUSION IN THE INITIATION AND PROGRESSION OF CML. 2011 3 6780 24 [BLASTIC PLASMACYTOID DENDRITIC CELL NEOPLASM ACCOMPANIED BY CHRONIC MYELOMONOCYTIC LEUKEMIA SUCCESSFULLY TREATED WITH AZACITIDINE]. BLASTIC PLASMACYTOID DENDRITIC CELL NEOPLASM (BPDCN) IS A RARE DISEASE THAT DEVELOPS WITH A SKIN LESION AND IS OFTEN ACCOMPANIED BY LEUKEMIC TRANSFORMATION. THE NORMAL COUNTERPARTS OF BPDCN TUMOR CELLS ARE PROGENITORS OF PLASMACYTOID DENDRITIC CELLS, WHEREAS THE ORIGINS ARE THOUGHT TO BE HEMATOPOIETIC STEM CELLS. APPROXIMATELY 10%-20% OF BPDCN PATIENTS DEVELOP OTHER HEMATOLOGIC MALIGNANCIES, INCLUDING CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML). MUTATIONS IN EPIGENETIC REGULATORS ARE FREQUENTLY OBSERVED IN BOTH BPDCN AND CMML TUMORS. AZACITIDINE, A DRUG THAT TARGETS EPIGENETIC DYSREGULATION, IS KNOWN TO BE AN EFFECTIVE TREATMENT FOR CMML. HOWEVER, IT HAS BEEN USED IN FEW BPDCN PATIENTS. HERE, WE REPORT A BPDCN PATIENT WITH SKIN LESIONS, BONE MARROW INFILTRATION, AND LYMPHADENOPATHY. CMML ALSO DEVELOPED DURING THE COURSE OF BPDCN. AZACITIDINE HAD POSITIVE EFFECTS ON CMML; HOWEVER, BPDCN AGGRESSIVELY RELAPSED DURING TREATMENT. TWO TET2 MUTATIONS WERE FOUND IN BOTH BPDCN AND CMML TUMORS; ONE OF WHICH WAS COMMONLY IDENTIFIED IN BOTH TUMORS. 2018 4 1031 34 CIRCULATING TUMOR DNA DETECTION AND ITS APPLICATION STATUS IN GASTRIC CANCER: A NARRATIVE REVIEW. CIRCULATING TUMOR DNA (CTDNA) IS THE SMALL GENOMIC FRAGMENT RELEASED BY TUMOR CELLS INTO THE CIRCULATING SYSTEM, WHICH CARRIES THE GENE VARIATION FEATURES, SUCH AS MUTATION, INSERTION, DELETION, REARRANGEMENT, COPY NUMBER VARIATION (CNV) AND METHYLATION, RENDERING IT AN IMPORTANT BIOMARKER. IT CAN BE USED NOT ONLY TO DIAGNOSE CERTAIN TYPES OF SOLID TUMORS, BUT ALSO TO MONITOR THE THERAPEUTIC RESPONSE AND EXPLORE THE MINIMAL RESIDUAL DISEASE (MRD) AND RESISTANT MUTATION OF TARGETED THERAPY. THEREFORE, CTDNA DETECTION MAY BECOME THE PREFERRED NON-INVASIVE TUMOR SCREENING METHOD. FOR PATIENTS WHO CANNOT RECEIVE FURTHER GENE DETECTION DUE TO INSUFFICIENT OR RESTRICTED SAMPLE COLLECTION WITH THE DEFINED PATHOLOGICAL DIAGNOSIS, CTDNA DETECTION CAN BE CARRIED OUT TO DETERMINE THE GENE MUTATION TYPE, WITH NO NEED FOR REPEATED SAMPLING. GASTRIC CANCER (GC) IS A MALIGNANCY WITH EXTREMELY HIGH MORBIDITY AND MORTALITY, AND ITS GENESIS AND DEVELOPMENT ARE THE CONSEQUENCE OF INTERACTIONS OF MULTIPLE FACTORS, INCLUDING ENVIRONMENT, DIET, HEREDITY, HELICOBACTER PYLORI INFECTION, CHRONIC INFLAMMATORY INFILTRATION, AND PRECANCEROUS LESION. AS THE RESEARCH ON GC MOVES FORWARD, THE EXISTING RESEARCH MAINLY FOCUSES ON GENETIC AND EPIGENETIC CHANGES, INCLUDING DNA METHYLATION, HISTONE MODIFICATION, NON-CODING RNA CHANGES, GENE MUTATION, GENE HETEROZYGOSITY LOSS AND MICROSATELLITE INSTABILITY. THIS PAPER AIMED TO SUMMARIZE THE CONTENTS OF CTDNA DETECTION, ITS APPLICATION STATUS IN GC AND CLINICAL SIGNIFICANCE. 2021 5 2277 25 EPIGENETIC REGULATION BY ASXL1 IN MYELOID MALIGNANCIES. MYELOID MALIGNANCIES ARE CLONAL HEMATOPOIETIC DISORDERS THAT ARE COMPRISED OF A SPECTRUM OF GENETICALLY HETEROGENEOUS DISORDERS, INCLUDING MYELODYSPLASTIC SYNDROMES (MDS), MYELOPROLIFERATIVE NEOPLASMS (MPN), CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), AND ACUTE MYELOID LEUKEMIA (AML). MYELOID MALIGNANCIES ARE CHARACTERIZED BY EXCESSIVE PROLIFERATION, ABNORMAL SELF-RENEWAL, AND/OR DIFFERENTIATION DEFECTS OF HEMATOPOIETIC STEM CELLS (HSCS) AND MYELOID PROGENITOR CELLS HEMATOPOIETIC STEM/PROGENITOR CELLS (HSPCS). MYELOID MALIGNANCIES CAN BE CAUSED BY GENETIC AND EPIGENETIC ALTERATIONS THAT PROVOKE KEY CELLULAR FUNCTIONS, SUCH AS SELF-RENEWAL, PROLIFERATION, BIASED LINEAGE COMMITMENT, AND DIFFERENTIATION. ADVANCES IN NEXT-GENERATION SEQUENCING LED TO THE IDENTIFICATION OF MULTIPLE MUTATIONS IN MYELOID NEOPLASMS, AND MANY NEW GENE MUTATIONS WERE IDENTIFIED AS KEY FACTORS IN DRIVING THE PATHOGENESIS OF MYELOID MALIGNANCIES. THE POLYCOMB PROTEIN ASXL1 WAS IDENTIFIED TO BE FREQUENTLY MUTATED IN ALL FORMS OF MYELOID MALIGNANCIES, WITH MUTATIONAL FREQUENCIES OF 20%, 43%, 10%, AND 20% IN MDS, CMML, MPN, AND AML, RESPECTIVELY. SIGNIFICANTLY, ASXL1 MUTATIONS ARE ASSOCIATED WITH A POOR PROGNOSIS IN ALL FORMS OF MYELOID MALIGNANCIES. THE FACT THAT ASXL1 MUTATIONS ARE ASSOCIATED WITH POOR PROGNOSIS IN PATIENTS WITH CMML, MDS, AND AML, POINTS TO THE POSSIBILITY THAT ASXL1 MUTATION IS A KEY FACTOR IN THE DEVELOPMENT OF MYELOID MALIGNANCIES. THIS REVIEW SUMMARIZES THE RECENT ADVANCES IN UNDERSTANDING MYELOID MALIGNANCIES WITH A SPECIFIC FOCUS ON ASXL1 MUTATIONS. 2023 6 708 27 BYSTANDER EFFECTS IN RADIATION-INDUCED GENOMIC INSTABILITY. EXPOSURE OF GM10115 HAMSTER-HUMAN HYBRID CELLS TO X-RAYS CAN RESULT IN THE INDUCTION OF CHROMOSOMAL INSTABILITY IN THE PROGENY OF SURVIVING CELLS. THIS INSTABILITY MANIFESTS AS THE DYNAMIC PRODUCTION OF NOVEL SUB-POPULATIONS OF CELLS WITH UNIQUE CYTOGENETIC REARRANGEMENTS INVOLVING THE "MARKER" HUMAN CHROMOSOME. WE HAVE USED THE COMET ASSAY TO INVESTIGATE WHETHER THERE WAS AN ELEVATED LEVEL OF ENDOGENOUS DNA BREAKS IN CHROMOSOMALLY UNSTABLE CLONES THAT COULD PROVIDE A SOURCE FOR THE CHROMOSOMAL REARRANGEMENTS AND THUS ACCOUNT FOR THE PERSISTENT INSTABILITY OBSERVED. OUR RESULTS INDICATE NO SIGNIFICANT DIFFERENCE IN COMET TAIL MEASUREMENT BETWEEN NON-IRRADIATED AND RADIATION-INDUCED CHROMOSOMALLY UNSTABLE CLONES. USING TWO-COLOR FLUORESCENCE IN SITU HYBRIDIZATION WE ALSO INVESTIGATED WHETHER RECOMBINATIONAL EVENTS INVOLVING THE INTERSTITIAL TELOMERE REPEAT-LIKE SEQUENCES IN GM10115 CELLS WERE INVOLVED AT FREQUENCIES HIGHER THAN RANDOM PROCESSES WOULD OTHERWISE PREDICT. NINE OF 11 CLONES DEMONSTRATED A SIGNIFICANTLY HIGHER THAN EXPECTED INVOLVEMENT OF THESE INTERSTITIAL TELOMERE REPEAT-LIKE SEQUENCES AT THE RECOMBINATION JUNCTION BETWEEN THE HUMAN AND HAMSTER CHROMOSOMES. SINCE ELEVATED LEVELS OF ENDOGENOUS BREAKS WERE NOT DETECTED IN UNSTABLE CLONES WE PROPOSE THAT EPIGENETIC OR BYSTANDER EFFECTS (BSES) LEAD TO THE ACTIVATION OF RECOMBINATIONAL PATHWAYS THAT PERPETUATE THE UNSTABLE PHENOTYPE. SPECIFICALLY, WE EXPAND UPON THE HYPOTHESIS THAT RADIATION INDUCES CONDITIONS AND/OR FACTORS THAT STIMULATE THE PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS). THESE REACTIVE INTERMEDIATES THEN CONTRIBUTE TO A CHRONIC PRO-OXIDANT ENVIRONMENT THAT CYCLES OVER MULTIPLE GENERATIONS, PROMOTING CHROMOSOMAL RECOMBINATION AND OTHER PHENOTYPES ASSOCIATED WITH GENOMIC INSTABILITY. 2002 7 959 29 CHRONIC MYELOMONOCYTIC LEUKEMIA AND ATYPICAL CHRONIC MYELOID LEUKEMIA: NOVEL PATHOGENETIC LESIONS. CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML) AND ATYPICAL CHRONIC MYELOID LEUKEMIA (ACML) ARE DISTINCT, YET RELATED, ENTITIES OF MYELODYSPLASTIC/MYELOPROLIFERATIVE NEOPLASMS (MDS/MPN) CHARACTERIZED BY MORPHOLOGIC DYSPLASIA WITH ACCUMULATION OF MONOCYTES OR NEUTROPHILS, RESPECTIVELY. OUR UNDERSTANDING OF THE MOLECULAR PATHOGENESIS OF CMML AND ACML HAS ADVANCED, MAINLY DUE TO THE APPLICATION OF NOVEL TECHNOLOGIES SUCH AS ARRAY-BASED KARYOTYPING AND NEXT-GENERATION SEQUENCING. IN ADDITION TO PREVIOUSLY KNOWN RECURRENT ABERRATIONS, SOMATIC UNIPARENTAL DISOMY AFFECTING CHROMOSOMES 3, 4, 7, AND 11 FREQUENTLY OCCURS IN CMML. NOVEL SOMATIC MUTATIONS OF GENES, INCLUDING THOSE ASSOCIATED WITH PROLIFERATION SIGNALING (CBL, RAS, RUNX1, JAK2 (V617F)) AND WITH MODIFICATION OF EPIGENETIC STATUS (TET2, ASXL1, UTX, EZH2) HAVE BEEN FOUND. VARIOUS COMBINATIONS OF MUTATIONS SUGGEST A MULTISTEP PATHOGENESIS AND MAY ACCOUNT FOR CLINICAL HETEROGENEITY. MOST RECENTLY, SEVERAL SPLICEOSOME-ASSOCIATED-GENE MUTATIONS WERE REPORTED AND SRSF2 MUTATIONS ARE FREQUENTLY DETECTED IN CMML. THE PROGNOSTIC AND DIAGNOSTIC SIGNIFICANCE OF THESE MOLECULAR LESIONS, IN PARTICULAR THEIR VALUE AS BIOMARKERS OF RESPONSE OR RESISTANCE TO SPECIFIC THERAPIES, WHILE UNCERTAIN NOW IS LIKELY TO BE CLARIFIED AS LARGE SYSTEMATIC STUDIES COME TO COMPLETION. 2012 8 952 25 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 9 1946 32 EPIGENETIC ABNORMALITIES ASSOCIATED WITH A CHROMOSOME 18(Q21-Q22) INVERSION AND A GILLES DE LA TOURETTE SYNDROME PHENOTYPE. GILLES DE LA TOURETTE SYNDROME (GTS) IS A POTENTIALLY DEBILITATING NEUROPSYCHIATRIC DISORDER DEFINED BY THE PRESENCE OF BOTH VOCAL AND MOTOR TICS. DESPITE EVIDENCE THAT THIS AND A RELATED PHENOTYPIC SPECTRUM, INCLUDING CHRONIC TICS (CT) AND OBSESSIVE COMPULSIVE DISORDER (OCD), ARE GENETICALLY MEDIATED, NO GENE INVOLVED IN DISEASE ETIOLOGY HAS BEEN IDENTIFIED. CHROMOSOMAL ABNORMALITIES HAVE LONG BEEN PROPOSED TO PLAY A CAUSATIVE ROLE IN ISOLATED CASES OF GTS SPECTRUM PHENOMENA, BUT CONFIRMATION OF THIS HYPOTHESIS HAS YET TO BE FORTHCOMING. WE DESCRIBE AN I(18Q21.1-Q22.2) INVERSION IN A PATIENT WITH CT AND OCD. WE HAVE FINE MAPPED THE TELOMERIC ASPECT OF THE REARRANGEMENT TO WITHIN 1 MB OF A PREVIOUSLY REPORTED 18Q22 BREAKPOINT THAT COSEGREGATED IN A FAMILY WITH GTS AND RELATED PHENOTYPES. A COMPREHENSIVE CHARACTERIZATION OF THIS GENOMIC INTERVAL LED TO THE IDENTIFICATION OF TWO TRANSCRIPTS, NEITHER OF WHICH WAS FOUND TO BE STRUCTURALLY DISRUPTED. ANALYSIS OF THE EPIGENETIC CHARACTERISTICS OF THE REGION DEMONSTRATED A SIGNIFICANT INCREASE IN REPLICATION ASYNCHRONY IN THE PATIENT COMPARED TO CONTROLS, WITH THE INVERTED CHROMOSOME SHOWING DELAYED REPLICATION TIMING ACROSS AT LEAST A 500-KB INTERVAL. THESE FINDINGS ARE CONSISTENT WITH LONG-RANGE FUNCTIONAL DYSREGULATION OF ONE OR MORE GENES IN THE REGION. OUR DATA SUPPORT A LINK BETWEEN CHROMOSOMAL ABERRATIONS AND EPIGENETIC MECHANISMS IN GTS AND SUGGEST THAT THE STUDY OF THE FUNCTIONAL CONSEQUENCES OF BALANCED CHROMOSOMAL REARRANGEMENTS IS WARRANTED IN PATIENTS WITH PHENOTYPES OF INTEREST, IRRESPECTIVE OF THE FINDINGS REGARDING STRUCTURALLY DISRUPTED TRANSCRIPTS. 2003 10 5405 28 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 11 1039 30 CLINICAL AND BIOLOGICAL IMPLICATIONS OF DRIVER MUTATIONS IN MYELODYSPLASTIC SYNDROMES. MYELODYSPLASTIC SYNDROMES (MDS) ARE A HETEROGENEOUS GROUP OF CHRONIC HEMATOLOGICAL MALIGNANCIES CHARACTERIZED BY DYSPLASIA, INEFFECTIVE HEMATOPOIESIS AND A VARIABLE RISK OF PROGRESSION TO ACUTE MYELOID LEUKEMIA. SEQUENCING OF MDS GENOMES HAS IDENTIFIED MUTATIONS IN GENES IMPLICATED IN RNA SPLICING, DNA MODIFICATION, CHROMATIN REGULATION, AND CELL SIGNALING. WE SEQUENCED 111 GENES ACROSS 738 PATIENTS WITH MDS OR CLOSELY RELATED NEOPLASMS (INCLUDING CHRONIC MYELOMONOCYTIC LEUKEMIA AND MDS-MYELOPROLIFERATIVE NEOPLASMS) TO EXPLORE THE ROLE OF ACQUIRED MUTATIONS IN MDS BIOLOGY AND CLINICAL PHENOTYPE. SEVENTY-EIGHT PERCENT OF PATIENTS HAD 1 OR MORE ONCOGENIC MUTATIONS. WE IDENTIFY COMPLEX PATTERNS OF PAIRWISE ASSOCIATION BETWEEN GENES, INDICATIVE OF EPISTATIC INTERACTIONS INVOLVING COMPONENTS OF THE SPLICEOSOME MACHINERY AND EPIGENETIC MODIFIERS. COUPLED WITH INFERENCES ON SUBCLONAL MUTATIONS, THESE DATA SUGGEST A HYPOTHESIS OF GENETIC "PREDESTINATION," IN WHICH EARLY DRIVER MUTATIONS, TYPICALLY AFFECTING GENES INVOLVED IN RNA SPLICING, DICTATE FUTURE TRAJECTORIES OF DISEASE EVOLUTION WITH DISTINCT CLINICAL PHENOTYPES. DRIVER MUTATIONS HAD EQUIVALENT PROGNOSTIC SIGNIFICANCE, WHETHER CLONAL OR SUBCLONAL, AND LEUKEMIA-FREE SURVIVAL DETERIORATED STEADILY AS NUMBERS OF DRIVER MUTATIONS INCREASED. THUS, ANALYSIS OF ONCOGENIC MUTATIONS IN LARGE, WELL-CHARACTERIZED COHORTS OF PATIENTS ILLUSTRATES THE INTERCONNECTIONS BETWEEN THE CANCER GENOME AND DISEASE BIOLOGY, WITH CONSIDERABLE POTENTIAL FOR CLINICAL APPLICATION. 2013 12 5790 27 SRSF2-P95 HOTSPOT MUTATION IS HIGHLY ASSOCIATED WITH ADVANCED FORMS OF MASTOCYTOSIS AND MUTATIONS IN EPIGENETIC REGULATOR GENES. MASTOCYTOSIS IS A RARE AND CHRONIC DISEASE WITH PHENOTYPES RANGING FROM INDOLENT TO SEVERE. PROGNOSIS FOR THIS DISEASE IS VARIABLE AND VERY FEW BIOMARKERS TO PREDICT DISEASE EVOLUTION OR OUTCOME ARE CURRENTLY KNOWN. WE HAVE PERFORMED COMPREHENSIVE SCREENING IN OUR LARGE COHORT OF MASTOCYTOSIS PATIENTS FOR MUTATIONS PREVIOUSLY FOUND IN OTHER MYELOID DISEASES AND THAT COULD SERVE AS PROGNOSTIC INDICATORS. KIT, SRSF2-P95 AND TET2 MUTATIONS WERE BY FAR THE MOST FREQUENT, DETECTED IN 81%, 24% AND 21% OF PATIENTS, RESPECTIVELY. WHERE TET2 AND SRSF2-P95 MUTATION BOTH CORRELATED WITH ADVANCED DISEASE PHENOTYPES, SRSF2-P95 HOTSPOT MUTATION WAS FOUND ALMOST EXCLUSIVELY IN PATIENTS DIAGNOSED WITH ASSOCIATED CLONAL HEMATOLOGIC NON-MAST CELL DISEASE. STATISTICALLY, TET2 AND SRSF2-P95 MUTATIONS WERE HIGHLY ASSOCIATED, SUGGESTING A MECHANISTIC LINK BETWEEN THESE TWO FACTORS. FINALLY, ANALYSIS OF BOTH CLONAL AND SORTED CELL POPULATIONS FROM PATIENTS CONFIRMS THE PRESENCE OF THESE MUTATIONS IN THE MAST CELL COMPONENT OF THE DISEASE, SUGGESTS AN ONTOLOGICAL MUTATION HIERARCHY AND PROVIDES EVIDENCE FOR THE EXPANSION OF MULTIPLE CLONES. THIS HIGHLIGHTS THE PROGNOSTIC POTENTIAL OF SUCH APPROACHES, IF APPLIED SYSTEMATICALLY, FOR DELINEATING THE ROLES OF SPECIFIC MUTATIONS IN PREDISPOSING AND/OR DRIVING DISTINCT DISEASE PHENOTYPES. 2014 13 3565 31 IMPACT OF GENETIC POLYMORPHISMS AND BIOMARKERS ON THE EFFECTIVENESS AND TOXICITY OF TREATMENT OF CHRONIC MYELOID LEUKEMIA AND ACUTE MYELOID LEUKEMIA. MOST MALIGNANT HEMATOLOGICAL DISEASES ARE GENERALLY A CONSEQUENCE OF ACQUIRED MUTATIONS OR REARRANGEMENTS IN CELL REPLICATION PROCESSES. ACUTE MYELOID LEUKEMIA (AML) IS A CLINICALLY AND MOLECULARLY HETEROGENEOUS DISEASE THAT RESULTS FROM ACQUIRED GENETIC AND EPIGENETIC ALTERATIONS IN HEMATOPOIETIC PROGENITOR CELLS. DESPITE THE ADVANCES MADE IN UNDERSTANDING THE PATHOGENESIS OF THIS DISEASE, THE OVERALL SURVIVAL OF PATIENTS REMAINS VERY LOW DUE TO THE HIGH RELAPSE RATE. PHARMACOGENETICS AND MASSIVE SEQUENCING STUDIES HAVE ALLOWED THE IDENTIFICATION OF NEW RECURRENT MUTATIONS WITH SIGNIFICANT PROGNOSTIC IMPACT IN AML; FURTHERMORE, IT SEEMS LIKELY THAT WHOLE GENOME SEQUENCING WILL SOON BECOME A STANDARD DIAGNOSTIC TEST, WHICH WILL ALLOW THE MOLECULAR DIAGNOSIS OF PATIENTS. THEREFORE, IT IS NECESSARY TO DEVELOP MOLECULAR TARGETS THAT OPEN NEW THERAPEUTIC PERSPECTIVES AND ALLOW INDIVIDUALIZED TREATMENT OF PATIENTS WITH THIS AGGRESSIVE DISEASE. CHRONIC MYELOID LEUKEMIA (CML) IS THE FIRST NEOPLASTIC DISEASE FOR WHICH A CHARACTERISTIC GENETIC ALTERATION WAS DESCRIBED. IT HAS, BY DEFINITION, A GENETIC MARKER, THE BCR::ABL1 REARRANGEMENT, AS A CONSEQUENCE OF THE T9;22(Q34;Q11) TRANSLOCATION. ITS STUDY IS ESSENTIAL FOR THE DIAGNOSIS OF THIS ENTITY AND ALSO FOR MONITORING THE RESPONSE TO TREATMENT. DRUGS KNOWN AS TYROSINE KINASE INHIBITORS (TKIS) THAT TARGET THE BCR::ABL1 PROTEIN (ORAL TARGETED THERAPY) ARE THE CONVENTIONAL TREATMENT OF CML, REPRESENTING A CHANGE OF PARADIGM IN THE MANAGEMENT OF ONCOHEMATOLOGICAL PATIENTS. 2022 14 1465 21 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 15 4557 14 MUTATIONS IN ASXL1 ARE ASSOCIATED WITH POOR PROGNOSIS ACROSS THE SPECTRUM OF MALIGNANT MYELOID DISEASES. THE ASXL1 GENE IS ONE OF THE MOST FREQUENTLY MUTATED GENES IN MALIGNANT MYELOID DISEASES. THE ASXL1 PROTEIN BELONGS TO PROTEIN COMPLEXES INVOLVED IN THE EPIGENETIC REGULATION OF GENE EXPRESSION. ASXL1 MUTATIONS ARE FOUND IN MYELOPROLIFERATIVE NEOPLASMS (MPN), MYELODYSPLASTIC SYNDROMES (MDS), CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML) AND ACUTE MYELOID LEUKEMIA (AML). THEY ARE GENERALLY ASSOCIATED WITH SIGNS OF AGGRESSIVENESS AND POOR CLINICAL OUTCOME. BECAUSE OF THIS, A SYSTEMATIC DETERMINATION OF ASXL1 MUTATIONAL STATUS IN MYELOID MALIGNANCIES SHOULD HELP IN PROGNOSIS ASSESSMENT. 2012 16 953 26 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 17 4442 18 MOLECULAR GENETICS OF MDS/MPN OVERLAP SYNDROMES. THE MYELODYSPLASTIC/MYELOPROLIFERATIVE NEOPLASMS (MDS/MPN) ARE A HETEROGENOUS GROUP OF MYELOID MALIGNANCIES HALLMARKED BY CLINICOPATHOLOGIC FEATURES THAT OVERLAP WITH MYELODYSPLASTIC SYNDROMES AND MYELOPROLIFERATIVE NEOPLASMS. FORMALLY RECOGNIZED BY THE WORLD HEALTH ORGANIZATION, THIS GROUP INCLUDES THE ENTITIES CHRONIC MYELOMONOCYTIC LEUKEMIA, JUVENILE MYELOMONOCYTIC LEUKEMIA, ATYPICAL CHRONIC MYELOID LEUKEMIA, MDS/MPN WITH RING SIDEROBLASTS AND THROMBOCYTOSIS AND MDS/MPN, UNCLASSIFIABLE. ADVANCEMENTS IN NEXT GENERATION SEQUENCING HAVE BEGUN TO UNRAVEL THE MOLECULAR UNDERPINNINGS OF THESE DISEASES, IDENTIFYING AN ARRAY OF RECURRENTLY MUTATED GENES INVOLVED IN EPIGENETIC REGULATION, RNA SPLICING, TRANSCRIPTION, AND CELL SIGNALING. DESPITE MOLECULAR OVERLAP WITH OTHER MYELOID MALIGNANCIES, EACH ENTITY DISPLAYS A UNIQUE SPECTRUM OF SOMATIC MUTATIONS SUPPORTING THEIR UNIQUE PATHOBIOLOGY AND CLINICAL FEATURES. IMPORTANTLY, MOLECULAR PROFILING IS BECOMING AN INTEGRAL TOOL UTILIZED IN ROUTINE CLINICAL PRACTICE. THIS REVIEW SUMMARIZES OUR CURRENT UNDERSTANDING OF THE MOLECULAR PATHOGENESIS OF OVERLAP SYNDROMES AND DETAILS THE IMPACT OF SOMATIC MUTATIONS IN DIAGNOSTIC, PROGNOSTIC, AND THERAPEUTIC DECISION-MAKING. 2020 18 1674 27 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 19 4565 18 MYELOID MALIGNANCIES: MUTATIONS, MODELS AND MANAGEMENT. MYELOID MALIGNANT DISEASES COMPRISE CHRONIC (INCLUDING MYELODYSPLASTIC SYNDROMES, MYELOPROLIFERATIVE NEOPLASMS AND CHRONIC MYELOMONOCYTIC LEUKEMIA) AND ACUTE (ACUTE MYELOID LEUKEMIA) STAGES. THEY ARE CLONAL DISEASES ARISING IN HEMATOPOIETIC STEM OR PROGENITOR CELLS. MUTATIONS RESPONSIBLE FOR THESE DISEASES OCCUR IN SEVERAL GENES WHOSE ENCODED PROTEINS BELONG PRINCIPALLY TO FIVE CLASSES: SIGNALING PATHWAYS PROTEINS (E.G. CBL, FLT3, JAK2, RAS), TRANSCRIPTION FACTORS (E.G. CEBPA, ETV6, RUNX1), EPIGENETIC REGULATORS (E.G. ASXL1, DNMT3A, EZH2, IDH1, IDH2, SUZ12, TET2, UTX), TUMOR SUPPRESSORS (E.G. TP53), AND COMPONENTS OF THE SPLICEOSOME (E.G. SF3B1, SRSF2). LARGE-SCALE SEQUENCING EFFORTS WILL SOON LEAD TO THE ESTABLISHMENT OF A COMPREHENSIVE REPERTOIRE OF THESE MUTATIONS, ALLOWING FOR A BETTER DEFINITION AND CLASSIFICATION OF MYELOID MALIGNANCIES, THE IDENTIFICATION OF NEW PROGNOSTIC MARKERS AND THERAPEUTIC TARGETS, AND THE DEVELOPMENT OF NOVEL THERAPIES. GIVEN THE IMPORTANCE OF EPIGENETIC DEREGULATION IN MYELOID DISEASES, THE USE OF DRUGS TARGETING EPIGENETIC REGULATORS APPEARS AS A MOST PROMISING THERAPEUTIC APPROACH. 2012 20 5965 22 TEN-ELEVEN-TRANSLOCATION 2 (TET2) NEGATIVELY REGULATES HOMEOSTASIS AND DIFFERENTIATION OF HEMATOPOIETIC STEM CELLS IN MICE. THE TEN-ELEVEN-TRANSLOCATION 2 (TET2) GENE ENCODES A MEMBER OF TET FAMILY ENZYMES THAT ALTERS THE EPIGENETIC STATUS OF DNA BY OXIDIZING 5-METHYLCYTOSINE TO 5-HYDROXYMETHYLCYTOSINE (5HMC). SOMATIC LOSS-OF-FUNCTION MUTATIONS OF TET2 ARE FREQUENTLY OBSERVED IN PATIENTS WITH DIVERSE MYELOID MALIGNANCIES, INCLUDING MYELODYSPLASTIC SYNDROMES, MYELOPROLIFERATIVE NEOPLASMS, AND CHRONIC MYELOMONOCYTIC LEUKEMIA. BY ANALYZING MICE WITH TARGETED DISRUPTION OF THE TET2 CATALYTIC DOMAIN, WE SHOW HERE THAT TET2 IS A CRITICAL REGULATOR OF SELF-RENEWAL AND DIFFERENTIATION OF HEMATOPOIETIC STEM CELLS (HSCS). TET2 DEFICIENCY LED TO DECREASED GENOMIC LEVELS OF 5HMC AND AUGMENTED THE SIZE OF THE HEMATOPOIETIC STEM/PROGENITOR CELL POOL IN A CELL-AUTONOMOUS MANNER. IN COMPETITIVE TRANSPLANTATION ASSAYS, TET2-DEFICIENT HSCS WERE CAPABLE OF MULTILINEAGE RECONSTITUTION AND POSSESSED A COMPETITIVE ADVANTAGE OVER WILD-TYPE HSCS, RESULTING IN ENHANCED HEMATOPOIESIS INTO BOTH LYMPHOID AND MYELOID LINEAGES. IN VITRO, TET2 DEFICIENCY DELAYED HSC DIFFERENTIATION AND SKEWED DEVELOPMENT TOWARD THE MONOCYTE/MACROPHAGE LINEAGE. OUR DATA INDICATE THAT TET2 HAS A CRITICAL ROLE IN REGULATING THE EXPANSION AND FUNCTION OF HSCS, PRESUMABLY BY CONTROLLING 5HMC LEVELS AT GENES IMPORTANT FOR THE SELF-RENEWAL, PROLIFERATION, AND DIFFERENTIATION OF HSCS. 2011