1 4437 118 MOLECULAR EVOLUTION OF METAPLASIA TO ADENOCARCINOMA IN THE ESOPHAGUS. ESOPHAGEAL ADENOCARCINOMA (EAC) DEVELOPS FROM BARRETT'S ESOPHAGUS (BE), A CONDITION WHERE THE NORMAL SQUAMOUS EPITHELIA IS REPLACED BY SPECIALIZED INTESTINAL METAPLASIA IN RESPONSE TO CHRONIC GASTROESOPHAGEAL ACID REFLUX. IN A MINORITY OF INDIVIDUALS, BE CAN PROGRESS TO LOW- AND HIGH-GRADE DYSPLASIA AND EVENTUALLY TO INTRA-MUCOSAL AND THEN INVASIVE CARCINOMA. BE PROVIDES RESEARCHERS WITH A UNIQUE MODEL TO CHARACTERIZE THE PROCESS BY WHICH A CARCINOMA ARISES FROM ITS PRECURSOR LESION. MOLECULAR STUDIES OF BE HAVE DEMONSTRATED THAT IT IS NOT SIMPLY A METAPLASTIC TISSUE, BUT RATHER IT HARBORS FREQUENT ALTERATIONS THAT ARE ALSO PRESENT IN DYSPLASTIC BE AND IN EAC. BOTH BE AND EAC ARE CHARACTERIZED BY LOSS OF HETEROZYGOSITY, ANEUPLOIDY, SPECIFIC GENETIC MUTATIONS, AND CLONAL DIVERSITY. EPIGENETIC ABNORMALITIES, PRIMARY ALTERATIONS IN DNA METHYLATION, ARE ALSO FREQUENTLY SEEN IN BE AND EAC. CANDIDATE GENE AND ARRAY-BASED APPROACHES HAVE DEMONSTRATED THAT NUMEROUS TUMOR SUPPRESSOR GENES EXHIBIT ABERRANT PROMOTER METHYLATION, AND SOME OF THESE ALTERED GENES ARE ASSOCIATED WITH THE NEOPLASTIC PROGRESSION OF BE. IT HAS ALSO BEEN SHOWN THAT THE BE AND EAC EPIGENOMES ARE CHARACTERIZED BY HYPOMETHYLATION OF INTRAGENIC AND NON-CODING REGIONS RECENT STUDIES HAVE ALSO PROVIDED NEW INSIGHT INTO THE EVOLUTIONARY FORCES UNDERLYING THE MOLECULAR ALTERATIONS SEEN IN BE AND EAC AND INTO THE MOLECULAR PATHOGENESIS OF EAC. 2018 2 2301 21 EPIGENETIC REGULATION OF BEIGE ADIPOCYTE FATE BY HISTONE METHYLATION. ADIPOSE TISSUE HARBORS PLASTICITY TO ADAPT TO ENVIRONMENTAL THERMAL CHANGES. WHILE BROWN ADIPOCYTE IS A THERMOGENIC CELL WHICH PRODUCES HEAT ACUTELY IN RESPONSE TO COLD STIMULI, BEIGE (OR BRITE) ADIPOCYTE IS AN INDUCIBLE FORM OF THERMOGENIC ADIPOCYTES WHICH EMERGES IN THE WHITE ADIPOSE DEPOTS IN RESPONSE TO CHRONIC COLD EXPOSURE. SUCH ADAPTABILITY OF ADIPOCYTES IS REGULATED BY EPIGENETIC MECHANISMS. AMONG THEM, HISTONE METHYLATION IS CHEMICALLY STABLE AND THUS IS AN APPROPRIATE EPIGENETIC MARK FOR MEDIATING CELLULAR MEMORY TO INDUCE AND MAINTAIN THE BEIGE ADIPOCYTE CHARACTERISTICS. THE ENZYMES THAT CATALYZE THE METHYLATION OR DEMETHYLATION OF H3K27 AND H3K9 REGULATE BROWN ADIPOCYTE BIOGENESIS THROUGH THEIR CATALYTIC ACTIVITY-DEPENDENT AND -INDEPENDENT MECHANISMS. RESOLVING THE BIVALENCY OF H3K4ME3 AND H3K27ME3 AS WELL AS "OPENING" THE CHROMATIN STRUCTURE BY DEMETHYLATION OF H3K9 BOTH MEDIATE BEIGE ADIPOGENESIS. IN ADDITION, IT IS RECENTLY REPORTED THAT MAINTENANCE OF BEIGE ADIPOCYTE, BEIGE-TO-WHITE TRANSITION, AND CELLULAR MEMORY OF PRIOR COLD EXPOSURE IN BEIGE ADIPOCYTE ARE ALSO REGULATED BY HISTONE METHYLATION. A FURTHER UNDERSTANDING OF THE EPIGENETIC MECHANISM OF BEIGE ADIPOCYTE BIOGENESIS WOULD UNRAVEL THE MECHANISM OF THE CELLULAR MEMORY OF ENVIRONMENTAL STIMULI AND PROVIDE A NOVEL THERAPEUTICS FOR THE METABOLIC DISORDERS SUCH AS OBESITY AND DIABETES THAT ARE INFLUENCED BY ENVIRONMENTAL FACTORS. 2019 3 2938 50 GENETIC AND EPIGENETIC ALTERATIONS IN BARRETT'S ESOPHAGUS AND ESOPHAGEAL ADENOCARCINOMA. ESOPHAGEAL ADENOCARCINOMA (EAC) DEVELOPS FROM BARRETT'S ESOPHAGUS (BE), WHEREIN NORMAL SQUAMOUS EPITHELIA IS REPLACED BY SPECIALIZED INTESTINAL METAPLASIA IN RESPONSE TO CHRONIC GASTROESOPHAGEAL ACID REFLUX. BE CAN PROGRESS TO LOW- AND HIGH-GRADE DYSPLASIA, INTRAMUCOSAL, AND INVASIVE CARCINOMA. BOTH BE AND EAC ARE CHARACTERIZED BY LOSS OF HETEROZYGOSITY, ANEUPLOIDY, SPECIFIC GENETIC MUTATIONS, AND CLONAL DIVERSITY. GIVEN THE LIMITATIONS OF HISTOPATHOLOGY, GENOMIC AND EPIGENOMIC ANALYSES MAY IMPROVE THE PRECISION OF RISK STRATIFICATION. ASSAYS TO DETECT MOLECULAR ALTERATIONS ASSOCIATED WITH NEOPLASTIC PROGRESSION COULD BE USED TO IMPROVE THE PATHOLOGIC ASSESSMENT OF BE/EAC AND TO SELECT HIGH-RISK PATIENTS FOR MORE INTENSIVE SURVEILLANCE. 2015 4 6272 30 THE ORIGIN AND PATHOGENESIS OF ENDOMETRIOSIS. RECENT MOLECULAR GENETIC FINDINGS ON ENDOMETRIOSIS AND NORMAL ENDOMETRIUM SUGGEST A MODIFIED MODEL IN WHICH CIRCULATING EPITHELIAL PROGENITOR OR STEM CELLS INTENDED TO REGENERATE UTERINE ENDOMETRIUM AFTER MENSTRUATION MAY BECOME OVERREACTIVE AND TRAPPED OUTSIDE THE UTERUS. THESE TRAPPED EPITHELIUM-COMMITTED PROGENITOR CELLS FORM NASCENT GLANDS THROUGH CLONAL EXPANSION AND RECRUIT POLYCLONAL STROMAL CELLS, LEADING TO THE ESTABLISHMENT OF DEEP INFILTRATING ENDOMETRIOSIS. ONCE FORMED, THE ECTOPIC TISSUE BECOMES SUBJECT TO IMMUNE SURVEILLANCE, RESULTING IN CHRONIC INFLAMMATION. THE INFLAMMATORY RESPONSE ORCHESTRATED BY NUCLEAR FACTOR-KAPPAB SIGNALING IS EXACERBATED BY ABERRATIONS IN THE ESTROGEN RECEPTOR-BETA AND PROGESTERONE RECEPTOR PATHWAYS, WHICH ARE ALSO AFFECTED BY LOCAL INFLAMMATION, FORMING A DYSREGULATED INFLAMMATION-HORMONAL LOOP. GLANDULAR EPITHELIUM WITHIN ENDOMETRIOTIC TISSUE HARBORS CANCER-ASSOCIATED MUTATIONS THAT ARE FREQUENTLY DETECTED IN ENDOMETRIOSIS-RELATED OVARIAN CANCERS. IN THIS REVIEW, WE SUMMARIZE RECENT ADVANCES THAT HAVE ILLUMINATED THE ORIGIN AND PATHOGENESIS OF ENDOMETRIOSIS AND HAVE PROVIDED NEW AVENUES FOR RESEARCH THAT PROMISE TO IMPROVE THE EARLY DIAGNOSIS AND MANAGEMENT OF ENDOMETRIOSIS. 2020 5 2981 25 GENETIC COMPLEXITY OF CHRONIC MYELOMONOCYTIC LEUKEMIA. IN RECENT YEARS CMML HAS RECEIVED INCREASED ATTENTION AS THE MOST COMMONLY OBSERVED MDS/MPN OVERLAP SYNDROME. RENEWED INTEREST HAS OCCURRED IN PART DUE TO WIDESPREAD ADOPTION OF NEXT-GENERATION SEQUENCING PANELS THAT HELP RENDER THE DIAGNOSIS IN THE ABSENCE OF MORPHOLOGIC DYSPLASIA. ALTHOUGH MOST CMML PATIENTS EXHIBIT SOMATIC MUTATIONS IN EPIGENETIC MODIFIERS, SPLICEOSOME COMPONENTS, TRANSCRIPTION FACTORS AND SIGNAL TRANSDUCTION GENES, IT IS INCREASINGLY CLEAR THAT A SMALL SUBSET HARBORS AN INHERITED PREDISPOSITION TO CMML AND OTHER MYELOID NEOPLASMS. MORE INTRIGUING IS THE FACT THAT THE MUTATIONAL SPECTRUM OBSERVED IN CMML IS FOUND IN OTHER TYPES OF MYELOID LEUKEMIAS, BEGGING THE QUESTION OF HOW SIMILAR GENETIC BACKGROUNDS CAN LEAD TO SUCH DIVERGENT CLINICAL PHENOTYPES. IN THIS REVIEW WE PRESENT A CONTEMPORARY SNAPSHOT OF THE GENETIC COMPLEXITY INHERENT TO CMML, EXPLORE THE RELATIONSHIP BETWEEN GENOTYPE-PHENOTYPE AND PRESENT A STEPWISE MODEL OF CMML PATHOGENESIS AND PROGRESSION. 2021 6 1656 29 DOUBLE STRAND BREAKS CAN INITIATE GENE SILENCING AND SIRT1-DEPENDENT ONSET OF DNA METHYLATION IN AN EXOGENOUS PROMOTER CPG ISLAND. CHRONIC EXPOSURE TO INDUCERS OF DNA BASE OXIDATION AND SINGLE AND DOUBLE STRAND BREAKS CONTRIBUTE TO TUMORIGENESIS. IN ADDITION TO THE GENETIC CHANGES CAUSED BY THIS DNA DAMAGE, SUCH TUMORS OFTEN CONTAIN EPIGENETICALLY SILENCED GENES WITH ABERRANT PROMOTER REGION CPG ISLAND DNA HYPERMETHYLATION. WE HEREIN EXPLORE THE RELATIONSHIPS BETWEEN SUCH DNA DAMAGE AND EPIGENETIC GENE SILENCING USING AN EXPERIMENTAL MODEL IN WHICH WE INDUCE A DEFINED DOUBLE STRAND BREAK IN AN EXOGENOUS PROMOTER CONSTRUCT OF THE E-CADHERIN CPG ISLAND, WHICH IS FREQUENTLY ABERRANTLY DNA HYPERMETHYLATED IN EPITHELIAL CANCERS. FOLLOWING THE ONSET OF REPAIR OF THE BREAK, WE OBSERVE RECRUITMENT TO THE SITE OF DAMAGE OF KEY PROTEINS INVOLVED IN ESTABLISHING AND MAINTAINING TRANSCRIPTIONAL REPRESSION, NAMELY SIRT1, EZH2, DNMT1, AND DNMT3B, AND THE APPEARANCE OF THE SILENCING HISTONE MODIFICATIONS, HYPOACETYL H4K16, H3K9ME2 AND ME3, AND H3K27ME3. ALTHOUGH IN MOST CELLS SELECTED AFTER THE BREAK, DNA REPAIR OCCURS FAITHFULLY WITH PRESERVATION OF ACTIVITY OF THE PROMOTER, A SMALL PERCENTAGE OF THE PLATED CELLS DEMONSTRATE INDUCTION OF HERITABLE SILENCING. THE CHROMATIN AROUND THE BREAK SITE IN SUCH A SILENT CLONE IS ENRICHED FOR MOST OF THE ABOVE SILENT CHROMATIN PROTEINS AND HISTONE MARKS, AND THE REGION HARBORS THE APPEARANCE OF INCREASING DNA METHYLATION IN THE CPG ISLAND OF THE PROMOTER. DURING THE ACUTE BREAK, SIRT1 APPEARS TO BE REQUIRED FOR THE TRANSIENT RECRUITMENT OF DNMT3B AND SUBSEQUENT METHYLATION OF THE PROMOTER IN THE SILENT CLONES. TAKEN TOGETHER, OUR DATA SUGGEST THAT NORMAL REPAIR OF A DNA BREAK CAN OCCASIONALLY CAUSE HERITABLE SILENCING OF A CPG ISLAND-CONTAINING PROMOTER BY RECRUITMENT OF PROTEINS INVOLVED IN SILENCING. FURTHERMORE, WITH CONTRIBUTION OF THE STRESS-RELATED PROTEIN SIRT1, THE BREAK CAN LEAD TO THE ONSET OF ABERRANT CPG ISLAND DNA METHYLATION, WHICH IS FREQUENTLY ASSOCIATED WITH TIGHT GENE SILENCING IN CANCER. 2008 7 1975 34 EPIGENETIC ALTERATIONS FROM BARRETT'S ESOPHAGUS TO ESOPHAGEAL ADENOCARCINOMA. BARRETT'S ESOPHAGUS (BE) IS A DISEASE ENTITY THAT IS A SEQUELA OF CHRONIC GASTROESOPHAGEAL REFLUX DISEASE THAT MAY RESULT IN ESOPHAGEAL ADENOCARCINOMA (EAC) DUE TO COLUMNAR EPITHELIAL DYSPLASIA. THE HISTOLOGICAL DEGREE OF DYSPLASIA IS THE SOLE BIOMARKER FREQUENTLY UTILIZED BY CLINICIANS. HOWEVER, THE COST OF ENDOSCOPY AND THE FACT THAT THE DEGREE OF DYSPLASIA DOES NOT PROGRESS IN MANY PATIENTS WITH BE DIMINISH THE EFFECTIVENESS OF HISTOLOGICAL GRADING AS A PERFECT BIOMARKER. MULTIPLE OR MORE QUANTITATIVE BIOMARKERS ARE REQUIRED BY CLINICIANS SINCE EARLY DIAGNOSIS IS CRUCIAL IN ESOPHAGEAL ADENOCANCERS, WHICH HAVE A HIGH MORTALITY RATE. THE PRESENCE OF EPIGENETIC FACTORS IN THE EARLY STAGES OF THIS NEOPLASTIC TRANSFORMATION HOLDS PROMISE AS A PREDICTIVE BIOMARKER. IN THIS REVIEW, CURRENT STUDIES ON DNA METHYLATIONS, HISTONE MODIFICATIONS, AND NONCODING RNAS (MIRNAS) THAT HAVE BEEN DISCOVERED DURING THE PROGRESSION FROM BE DYSPLASIA TO EAC WERE COLLATED. 2023 8 2996 19 GENETIC PROFILE AND MICROSATELLITE INSTABILITY IN A CASE OF SECONDARY ESOPHAGEAL SQUAMOUS CELL CARCINOMA 12 YEARS AFTER ALLOGENEIC HEMATOPOIETIC STEM CELL TRANSPLANTATION FOR APLASTIC ANEMIA. WE REPORT ON A 16-YEAR-OLD JAPANESE BOY IN WHOM AN ESOPHAGEAL SQUAMOUS CELL CARCINOMA (ESCC) DEVELOPED 12 YEARS AFTER ALLOGENEIC HEMATOPOIETIC STEM CELL TRANSPLANTATION WAS PERFORMED FOR APLASTIC ANEMIA. A HIGH FREQUENCY OF MICROSATELLITE INSTABILITY WAS DETECTED IN SAMPLES OF ESCC. MOREOVER, THE DETECTION OF PATHOGENIC VARIANTS, INCLUDING SINGLE NUCLEOTIDE SUBSTITUTION OF TP53 (C.346C>T) AND BRCA2 (C.6952C>T) AND SPLICING OF KDM6A (C.1194+2T>G), SUGGEST THAT THE DEVELOPMENT OF ESCC IN THE PATIENT WAS TRIGGERED BY IMPAIRMENT OF CHECKPOINT AND REPAIR FOR DNA DAMAGE AND EPIGENETIC MODIFICATION THROUGH ACCUMULATION OF GENE MUTATIONS INDUCED BY CHRONIC GRAFT-VERSUS-HOST DISEASE AND PROLONGED ADMINISTRATION OF TACROLIMUS. 2020 9 2880 35 FUSOBACTERIUM NUCLEATUM INFECTION IN COLORECTAL CANCER: LINKING INFLAMMATION, DNA MISMATCH REPAIR AND GENETIC AND EPIGENETIC ALTERATIONS. IT HAS BEEN RECENTLY REPORTED THAT THE POPULATION OF FUSOBACTERIUM, PARTICULARLY FUSOBACTERIUM NUCLEATUM (FN), IS OVERREPRESENTED IN COLORECTAL CANCERS AND ADENOMAS. THE PROMOTING EFFECTS OF FN INFECTION ON ADENOMA AND/OR CARCINOMA FORMATION HAVE BEEN SHOWN IN APC(MIN/+)MICE. CHARACTERISTICS OF FN-ASSOCIATED CRC WERE IDENTIFIED THROUGH STUDIES USING HUMAN CRC COHORTS, AND INCLUDE RIGHT-SIDED COLON LOCATION, CPG ISLAND METHYLATION PHENOTYPE-HIGH (CIMP-H), HIGH LEVEL OF MICROSATELLITE INSTABILITY (MSI-H), AND POOR PATIENT PROGNOSIS. A SUBSET OF FN-ASSOCIATED CRC EXHIBITS A LOW LEVEL OF MICROSATELLITE INSTABILITY (MSI-L) AND ELEVATED MICROSATELLITE ALTERATIONS IN SELECTED TETRA-NUCLEOTIDE REPEATS (EMAST) INDUCED BY TRANSLOCATION OF MSH3 FROM THE NUCLEUS TO THE CYTOPLASM IN RESPONSE TO OXIDATIVE DNA DAMAGE OR INFLAMMATORY SIGNALS. THE ASSOCIATION BETWEEN CIMP/MSI-H AND FN-INFECTION CAN BE EXPLAINED BY THE ROLE OF THE MISMATCH REPAIR (MMR) PROTEIN COMPLEX FORMED BETWEEN MSH2 AND MSH6 (MUTSALPHA) TO REPAIR ABERRANT BASES GENERATED BY ROS TO FORM 7,8-DIHYDRO-8-OXO-GUANINE (8-OXOG). CLUSTERED 8-OXOGS FORMED AT CPG-RICH REGIONS INCLUDING PROMOTERS BY ROS IS REFRACTORY TO BASE EXCISION REPAIR (BER). UNDER THESE CONDITIONS, MUTSALPHA INITIATES REPAIR IN COOPERATION WITH DNA METHYLTRANSFERASES (DNMTS) AND THE POLYCOMB REPRESSIVE COMPLEX 4 (PRC4). DNMTS AT DAMAGED SITES METHYLATE CPG ISLANDS TO REPRESS TRANSCRIPTION OF TARGET GENES AND PROMOTE REPAIR REACTIONS. THUS, CONTINUOUS GENERATION OF ROS THROUGH CHRONIC FN INFECTION MAY INITIATE 1) CIMP-POSITIVE ADENOMA AND CARCINOMA IN AN MSH2/MSH6-DEPENDENT MANNER, AND/OR 2) MSI-L/EMAST CRC IN AN MSH3-DEPENDENT MANNER. THE POOR PROGNOSIS OF FN-ASSOCIATED CRC CAN BE EXPLAINED BY FN-INDUCED IMMUNE-EVASION AND/OR CHEMO-RESISTANCE. 2018 10 5789 24 SRSF2(P95H/+) CO-OPERATES WITH LOSS OF TET2 TO PROMOTE MYELOID BIAS AND INITIATE A CHRONIC MYELOMONOCYTIC LEUKEMIA-LIKE DISEASE IN MICE. RECURRENT MUTATIONS IN RNA SPLICING PROTEINS AND EPIGENETIC REGULATORS CONTRIBUTE TO THE DEVELOPMENT OF MYELODYSPLASTIC SYNDROME (MDS) AND RELATED MYELOID NEOPLASMS. IN CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), SRSF2 MUTATIONS OCCUR IN ~50% OF PATIENTS AND TET2 MUTATIONS IN ~60%. CLONAL ANALYSIS INDICATES THAT EITHER MUTATION CAN ARISE AS THE FOUNDER LESION. BASED ON HUMAN CANCER GENETICS WE CROSSED AN INDUCIBLE SRSF2(P95H/+) MUTANT MODEL WITH TET2(FL/FL) MICE TO MUTATE BOTH CONCOMITANTLY IN HEMATOPOIETIC STEM CELLS. AT 20-24 WEEKS POST MUTATION INDUCTION, WE OBSERVED SUBTLE DIFFERENCES IN THE SRSF2/TET2 MUTANTS COMPARED TO EITHER SINGLE MUTANT. UNDER CONDITIONS OF NATIVE HEMATOPOIESIS WITH AGING, WE SEE A DISTINCT MYELOID BIAS AND MONOCYTOSIS IN THE SRSF2/TET2 MUTANTS. A SUBSET OF THE COMPOUND SRSF2/TET2 MUTANTS DISPLAY AN INCREASED GRANULOCYTIC AND DISTINCTIVE MONOCYTIC PROLIFERATION (MYELOMONOCYTIC HYPERPLASIA), WITH INCREASED IMMATURE PROMONOCYTES AND MONOBLASTS AND BINUCLEATE PROMONOCYTES. EXOME ANALYSIS OF PROGRESSED DISEASE DEMONSTRATED MUTATIONS IN GENES AND PATHWAYS SIMILAR TO THOSE REPORTED IN HUMAN CMML. UPON TRANSPLANTATION, RECIPIENTS DEVELOPED LEUKOCYTOSIS, MONOCYTOSIS, AND SPLENOMEGALY. WE REPRODUCE SRSF2/TET2 CO-OPERATIVITY IN VIVO, YIELDING A DISEASE WITH CORE CHARACTERISTICS OF CMML, UNLIKE SINGLE SRSF2 OR TET2 MUTATION. THIS MODEL REPRESENTS A SIGNIFICANT STEP TOWARD BUILDING HIGH FIDELITY AND GENETICALLY TRACTABLE MODELS OF CMML. 2022 11 1043 35 CLINICAL CHARACTERISTICS AND WHOLE EXOME/TRANSCRIPTOME SEQUENCING OF COEXISTING CHRONIC MYELOID LEUKEMIA AND MYELOFIBROSIS. MYELOPROLIFERATIVE NEOPLASMS (MPNS) ARE CLONAL HEMATOPOIETIC STEM CELL (HSC) DISORDERS THAT CAN BE CLASSIFIED ON THE BASIS OF GENETIC, CLINICAL, PHENOTYPIC FEATURES. GENETIC LESIONS SUCH AS JAK2 MUTATIONS AND BCR-ABL TRANSLOCATION ARE OFTEN MUTUALLY EXCLUSIVE IN MPN PATIENTS AND LEAD TO ESSENTIAL THROMBOCYTHEMIA, POLYCYTHEMIA VERA, OR MYELOFIBROSIS OR CHRONIC MYELOID LEUKEMIA, RESPECTIVELY. NEVERTHELESS, COEXISTENCE OF THESE GENETIC ABERRATIONS IN THE SAME PATIENT HAS BEEN REPORTED. WHETHER THESE ABERRATIONS OCCUR IN THE SAME STEM CELL OR A DIFFERENT CELL IS UNCLEAR, BUT AN UNSTABLE GENOME IN THE HSCS SEEMS TO BE THE COMMON ANTECEDENT. IN AN EFFORT TO CHARACTERIZE THE UNDERLYING GENETIC EVENTS THAT MIGHT CONTRIBUTE TO THE APPEARANCE OF MORE THAN ONE MPN IN A PATIENT, WE STUDIED NEOPLASTIC CELLS FROM PATIENTS WITH DUAL MPNS BY NEXT-GENERATION SEQUENCING. WE OBSERVED THAT MOST PATIENTS WITH TWO MPNS HARBORED MUTATIONS IN GENES KNOWN TO CONTRIBUTE TO CLONAL HEMATOPOIESIS THROUGH ALTERED EPIGENETIC REGULATION SUCH AS TET2, ASXL1/2, SRSF2, AND IDH2 AT VARYING FREQUENCIES (1%-47%). IN ADDITION, WE FOUND THAT SOME PATIENTS ALSO HARBORED ONCOGENIC MUTATIONS IN N/KRAS, TP53, BRAF, EZH2, AND GNAS AT LOW FREQUENCIES, WHICH PROBABLY REPRESENT CLONAL EVOLUTION. THESE FINDINGS SUPPORT THE HYPOTHESIS THAT HEMATOPOIETIC CELLS FROM MPN PATIENTS HARBOR MULTIPLE GENETIC ABERRATIONS, SOME OF WHICH CAN CONTRIBUTE TO CLONAL DOMINANCE. ACQUIRING MUTATIONS IN JAK2/CALR/MPL OR THE BCR-ABL TRANSLOCATION PROBABLY DRIVE THE ONCOGENIC PHENOTYPE TOWARDS A SPECIFIC MPN. FURTHER, WE PROPOSE THAT THE ACQUISITION OF BCR-ABL IN THESE PATIENTS IS FREQUENTLY A SECONDARY EVENT RESULTING FROM AN UNSTABLE GENOME. 2017 12 1070 26 CLONAL ARCHITECTURE OF CHRONIC MYELOMONOCYTIC LEUKEMIAS. GENOMIC STUDIES IN CHRONIC MYELOID MALIGNANCIES, INCLUDING MYELOPROLIFERATIVE NEOPLASMS (MPN), MYELODYSPLASTIC SYNDROMES (MDS), AND MPN/MDS, HAVE IDENTIFIED COMMON MUTATIONS IN GENES ENCODING SIGNALING, EPIGENETIC, TRANSCRIPTION, AND SPLICING FACTORS. IN THE PRESENT STUDY, WE INTERROGATED THE CLONAL ARCHITECTURE BY MUTATION-SPECIFIC DISCRIMINATION ANALYSIS OF SINGLE-CELL-DERIVED COLONIES IN 28 PATIENTS WITH CHRONIC MYELOMONOCYTIC LEUKEMIAS (CMML), THE MOST FREQUENT MPN/MDS. THIS ANALYSIS REVEALS A LINEAR ACQUISITION OF THE STUDIED MUTATIONS WITH LIMITED BRANCHING THROUGH LOSS OF HETEROZYGOSITY. SERIAL ANALYSIS OF UNTREATED AND TREATED SAMPLES DEMONSTRATES A DYNAMIC ARCHITECTURE ON WHICH MOST CURRENT THERAPEUTIC APPROACHES HAVE LIMITED EFFECTS. THE MAIN DISEASE CHARACTERISTICS ARE EARLY CLONAL DOMINANCE, ARISING AT THE CD34(+)/CD38(-) STAGE OF HEMATOPOIESIS, AND GRANULOMONOCYTIC DIFFERENTIATION SKEWING OF MULTIPOTENT AND COMMON MYELOID PROGENITORS. COMPARISON OF CLONAL EXPANSIONS OF TET2 MUTATIONS IN MDS, MPN, AND CMML, TOGETHER WITH FUNCTIONAL INVALIDATION OF TET2 IN SORTED PROGENITORS, SUGGESTS A CAUSATIVE LINK BETWEEN EARLY CLONAL DOMINANCE AND SKEWED GRANULOMONOCYTIC DIFFERENTIATION. ALTOGETHER, EARLY CLONAL DOMINANCE MAY DISTINGUISH CMML FROM OTHER CHRONIC MYELOID NEOPLASMS WITH SIMILAR GENE MUTATIONS. 2013 13 2867 21 FUNCTIONAL AND CANCER GENOMICS OF ASXL FAMILY MEMBERS. ADDITIONAL SEX COMBS-LIKE (ASXL)1, ASXL2 AND ASXL3 ARE HUMAN HOMOLOGUES OF THE DROSOPHILA ASX GENE THAT ARE INVOLVED IN THE REGULATION OR RECRUITMENT OF THE POLYCOMB-GROUP REPRESSOR COMPLEX (PRC) AND TRITHORAX-GROUP (TRXG) ACTIVATOR COMPLEX. ASXL PROTEINS CONSIST OF ASXN, ASXH, ASXM1, ASXM2 AND PHD DOMAINS. ASXL1 DIRECTLY INTERACTS WITH BAP1, KDM1A (LSD1), NCOA1 AND NUCLEAR HORMONE RECEPTORS (NHRS), SUCH AS RETINOIC ACID RECEPTORS, OESTROGEN RECEPTOR AND ANDROGEN RECEPTOR. ASXL FAMILY MEMBERS ARE EPIGENETIC SCAFFOLDING PROTEINS THAT ASSEMBLE EPIGENETIC REGULATORS AND TRANSCRIPTION FACTORS TO SPECIFIC GENOMIC LOCI WITH HISTONE MODIFICATIONS. ASXL1 IS INVOLVED IN TRANSCRIPTIONAL REPRESSION THROUGH AN INTERACTION WITH PRC2 AND ALSO CONTRIBUTES TO TRANSCRIPTIONAL REGULATION THROUGH INTERACTIONS WITH BAP1 AND/OR NHR COMPLEXES. GERM-LINE MUTATIONS OF HUMAN ASXL1 AND ASXL3 OCCUR IN BOHRING-OPITZ AND RELATED SYNDROMES. AMPLIFICATION AND OVEREXPRESSION OF ASXL1 OCCUR IN CERVICAL CANCER. TRUNCATION MUTATIONS OF ASXL1 OCCUR IN COLORECTAL CANCERS WITH MICROSATELLITE INSTABILITY (MSI), MALIGNANT MYELOID DISEASES, CHRONIC LYMPHOCYTIC LEUKAEMIA, HEAD AND NECK SQUAMOUS CELL CARCINOMA, AND LIVER, PROSTATE AND BREAST CANCERS; THOSE OF ASXL2 OCCUR IN PROSTATE CANCER, PANCREATIC CANCER AND BREAST CANCER AND THOSE OF ASXL3 ARE OBSERVED IN MELANOMA. EPC1-ASXL2 GENE FUSION OCCURS IN ADULT T-CELL LEUKAEMIA/LYMPHOMA. THE PROGNOSIS OF MYELOID MALIGNANCIES WITH MISREGULATING TRUNCATION MUTATIONS OF ASXL1 IS POOR. ASXL FAMILY MEMBERS ARE ASSUMED TO BE TUMOUR SUPPRESSIVE OR ONCOGENIC IN A CONTEXT-DEPENDENT MANNER. 2013 14 4837 26 ONCOGENIC GENE EXPRESSION AND EPIGENETIC REMODELING OF CIS-REGULATORY ELEMENTS IN ASXL1-MUTANT CHRONIC MYELOMONOCYTIC LEUKEMIA. MYELOID NEOPLASMS ARE CLONAL HEMATOPOIETIC STEM CELL DISORDERS DRIVEN BY THE SEQUENTIAL ACQUISITION OF RECURRENT GENETIC LESIONS. TRUNCATING MUTATIONS IN THE CHROMATIN REMODELER ASXL1 (ASXL1(MT)) ARE ASSOCIATED WITH A HIGH-RISK DISEASE PHENOTYPE WITH INCREASED PROLIFERATION, EPIGENETIC THERAPEUTIC RESISTANCE, AND POOR SURVIVAL OUTCOMES. WE PERFORMED A MULTI-OMICS INTERROGATION TO DEFINE GENE EXPRESSION AND CHROMATIN REMODELING ASSOCIATED WITH ASXL1(MT) IN CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML). ASXL1(MT) ARE ASSOCIATED WITH A LOSS OF REPRESSIVE HISTONE METHYLATION AND INCREASE IN PERMISSIVE HISTONE METHYLATION AND ACETYLATION IN PROMOTER REGIONS. ASXL1(MT) ARE FURTHER ASSOCIATED WITH DE NOVO ACCESSIBILITY OF DISTAL ENHANCERS BINDING ETS TRANSCRIPTION FACTORS, TARGETING IMPORTANT LEUKEMOGENIC DRIVER GENES. CHROMATIN REMODELING OF PROMOTERS AND ENHANCERS IS STRONGLY ASSOCIATED WITH GENE EXPRESSION AND HETEROGENOUS AMONG OVEREXPRESSED GENES. THESE RESULTS PROVIDE A COMPREHENSIVE MAP OF THE TRANSCRIPTOME AND CHROMATIN LANDSCAPE OF ASXL1(MT) CMML, FORMING AN IMPORTANT FRAMEWORK FOR THE DEVELOPMENT OF NOVEL THERAPEUTIC STRATEGIES TARGETING ONCOGENIC CIS INTERACTIONS. 2022 15 2943 29 GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES IN GASTRIC CANCER. BOTH GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES INVOLVED IN THE PATHOGENESIS OF GASTRIC CANCER ARE REVIEWED HERE, AND MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS ARE PROPOSED. GASTRIC CARCINOMAS ARE BELIEVED TO EVOLVE FROM NATIVE GASTRIC MUCOSA OR INTESTINAL METAPLASTIC MUCOSA THAT UNDERGOES GENETIC AND EPIGENETIC ALTERATIONS INVOLVING EITHER THE SUPPRESSOR PATHWAY (DEFECTS IN TUMOR SUPPRESSOR GENES) OR MUTATOR PATHWAY (DEFECTS IN DNA MISMATCH REPAIR GENES). METHYLATION OF E-CADHERIN IN NATIVE GASTRIC MUCOSA RESULTS IN UNDIFFERENTIATED CARCINOMAS (SUPPRESSOR PATHWAY), WHILE METHYLATION OF HMLHI RESULTS IN DIFFERENTIATED FOVEOLAR-TYPE CARCINOMAS (MUTATOR PATHWAY). THE MAJORITY OF DIFFERENTIATED GASTRIC CARCINOMAS HOWEVER, ARISE FROM INTESTINAL METAPLASTIC MUCOSA AND EXHIBIT STRUCTURAL ALTERATIONS OF TUMOR SUPPRESSOR GENES, ESPECIALLY P53. THEY APPEAR TO BE RELATED TO CHRONIC INJURY, PERHAPS DUE TO HELICOBACTER PYLORI INFECTION. APPROXIMATELY 20% OF DIFFERENTIATED CARCINOMAS (ORDINARY-TYPE) HAVE EVIDENCE OF MUTATOR PATHWAY TUMORIGENESIS. MUTATIONS OF E-CADHERIN ARE MAINLY INVOLVED IN THE PROGRESSION OF DIFFERENTIATED CARCINOMAS TO UNDIFFERENTIATED TUMORS. THE MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS DEPEND ON THE HISTOLOGICAL BACKGROUND, AND GASTRIC CARCINOMAS SHOW DISTINCT BIOLOGICAL BEHAVIORS AS A RESULT OF DISCERNIBLE CELLULAR GENETIC AND EPIGENETIC ALTERATIONS. 2002 16 3353 24 HISTONE DEMETHYLASES REGULATE ADIPOCYTE THERMOGENESIS. ADIPOCYTES PLAY A PIVOTAL ROLE IN THE REGULATION OF ENERGY METABOLISM. WHILE WHITE ADIPOCYTE STORES ENERGY, BROWN ADIPOCYTE DISSIPATES ENERGY BY PRODUCING HEAT. IN ADDITION, ANOTHER TYPE OF HEAT-PRODUCING ADIPOCYTE, BEIGE ADIPOCYTE, EMERGES IN WHITE ADIPOSE TISSUE IN RESPONSE TO CHRONIC COLDNESS. THIS PHENOTYPIC ADAPTATION TO THE COLD ENVIRONMENT IS CONSIDERED TO BE ATTRIBUTED TO THE EPIGENETIC MODIFICATIONS. HISTONE METHYLATION IS A CHEMICALLY STABLE EPIGENETIC MODIFICATION AND THUS A PROPER MECHANISM FOR LONG-LASTING CELLULAR MEMORY. SEVERAL HISTONE METHYL-MODIFYING ENZYMES SUCH AS EHMT1, JMJD1A, JMJD3, AND LSD1 ARE REPORTED TO BE INVOLVED IN THE BEIGE ADIPOSE CELL FATE DETERMINATION. AMONG THESE, A HISTONE DEMETHYLASE JMJD1A SENSES COLD ENVIRONMENT BY BEING PHOSPHORYLATED AT S265 IN RESPONSE TO BETA-ADRENERGIC RECEPTOR STIMULATION. PHOSPHORYLATED JMJD1A REGULATES BOTH ACUTE AND COLD THERMOGENESIS. UNDER ACUTE COLDNESS, PHOSPHORYLATED JMJD1A FORMS A COMPLEX WITH CHROMATIN REMODELER SWI/SNF AND DNA-BOUND PPARGAMMA, WHICH RECRUITS JMJD1A TO THE TARGET GENOMIC REGIONS IN BROWN ADIPOCYTE. THIS COMPLEX FORMATION, IN TURN, INDUCES THE EXPRESSION OF TARGET GENES BY BRINGING THE ENHANCER AND THE PROMOTER INTO CLOSE PROXIMITY. DURING CHRONIC COLDNESS, PHOSPHORYLATED JMJD1A REGULATES BEIGE ADIPOGENESIS THROUGH A TWO-STEP MECHANISM. IN THE FIRST STEP, PHOSPHORYLATED JMJD1A IS RECRUITED TO THE REGULATORY REGIONS OF TARGET GENES BY FORMING A COMPLEX WITH PRDM16, PGC1ALPHA, AND DNA-BOUND PPARGAMMA. IN THE SECOND STEP, JMJD1A DEMETHYLATES HISTONE H3K9ME2 AND INDUCES STABLE EXPRESSION OF BEIGE-SELECTIVE GENES. THE PHENOTYPIC ANALYSES OF JMJD1A-NULL MICE AND NON-PHOSPHORYLATED MUTANT S265A JMJD1A KNOCK-IN MICE INDICATE THAT JMJD1A IS A POTENTIAL THERAPEUTIC TARGET FOR THE TREATMENT OF OBESITY-RELATED DISEASES INCLUDING METABOLIC SYNDROME AND TYPE 2 DIABETES. 2018 17 4549 25 MUTATION ANALYSIS OF THERAPY-RELATED MYELOID NEOPLASMS. WE ANALYZED THE GENETIC MUTATION STATUS OF 13 PATIENTS WITH THERAPY-RELATED MYELOID NEOPLASMS (T-MN). CONSISTENT WITH PREVIOUS REPORTS, T-MN CELLS PREFERENTIALLY ACQUIRED MUTATIONS IN TP53 AND EPIGENETIC MODIFYING GENES, INSTEAD OF MUTATIONS IN TYROSINE KINASE AND SPLICEOSOME GENES. FURTHERMORE, WE COMPARED THE MUTATION STATUS OF THREE T-MN CELLS WITH EACH OF THE INITIAL LYMPHOID MALIGNANT CELLS, AND IDENTIFIED COMMON MUTATIONS AMONG T-MN AND THE INITIAL MALIGNANT CELLS IN TWO PATIENTS. IN A PATIENT WHO DEVELOPED CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML) AFTER FOLLICULAR LYMPHOMA (FL), TET2 MUTATION WAS IDENTIFIED IN BOTH CMML AND FL CELLS. NOTABLY, THE TET2 MUTATION WAS ALSO IDENTIFIED IN PERIPHERAL BLOOD CELLS IN THE DISEASE-FREE PERIOD WITH THE SAME ALLELIC FREQUENCY AS CMML AND FL CELLS, BUT NOT IN A GERM-LINE CONTROL, INDICATING THAT THE TET2 MUTATION OCCURRED SOMATICALLY IN THE INITIATING CLONE FOR BOTH MALIGNANT CELLS. ON THE OTHER HAND, A GERM-LINE MYB MUTATION WAS IDENTIFIED IN A PATIENT WHO DEVELOPED MYELODYSPLASTIC SYNDROMES (MDS) AFTER FL. THESE RESULTS SUGGEST THAT GERM-LINE DEPOSITION AND CLONAL HEMATOPOIESIS ARE CLOSELY ASSOCIATED WITH T-MN SUSCEPTIBILITY; HOWEVER, FURTHER ANALYSIS IS NECESSARY TO CLARIFY THE MECHANISM REQUIRED TO PROVIDE THE INITIATING CLONE WITH LINEAGE COMMITMENT AND CLONAL EXPANSION. 2018 18 3439 36 HYPERMETHYLATION AND LOSS OF EXPRESSION OF GLUTATHIONE PEROXIDASE-3 IN BARRETT'S TUMORIGENESIS. CHRONIC GASTROESOPHAGEAL REFLUX DISEASE IS A KNOWN RISK FACTOR FOR BARRETT'S ESOPHAGUS (BE), WHICH INDUCES OXIDATIVE MUCOSAL DAMAGE. GLUTATHIONE PEROXIDASE-3 (GPX3) IS A SECRETORY PROTEIN WITH POTENT EXTRACELLULAR ANTIOXIDANT ACTIVITY. IN THIS STUDY, WE HAVE INVESTIGATED THE MRNA AND PROTEIN EXPRESSION OF GPX3, AND EXPLORED PROMOTER HYPERMETHYLATION AS AN EPIGENETIC MECHANISM FOR GPX3 GENE INACTIVATION DURING BARRETT'S CARCINOGENESIS. QUANTITATIVE REAL-TIME REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION ON 42 BARRETT'S ADENOCARCINOMAS (BAS) REVEALED CONSISTENTLY REDUCED LEVELS OF GPX3 MRNA IN 91% OF TUMOR SAMPLES. GPX3 PROMOTER HYPERMETHYLATION WAS DETECTED IN 62% OF BARRETT'S METAPLASIA, 82% OF DYSPLASIA, AND 88% OF BA SAMPLES. HYPERMETHYLATION OF BOTH ALLELES OF GPX3 WAS MOST FREQUENTLY SEEN IN BAS (P = .001). IMMUNOHISTOCHEMICAL STAINING OF GPX3 IN MATCHING TISSUE SECTIONS (NORMAL, BE, BARRETT'S DYSPLASIA, AND BA) REVEALED STRONG IMMUNOSTAINING FOR GPX3 IN NORMAL ESOPHAGEAL AND GASTRIC TISSUES. HOWEVER, WEAK TO ABSENT GPX3 STAINING WAS OBSERVED IN BARRETT'S DYSPLASIA AND ADENOCARCINOMA SAMPLES WHERE THE PROMOTER WAS HYPERMETHYLATED. THE DEGREE OF LOSS OF IMMUNOHISTOCHEMISTRY CORRELATED WITH THE HYPERMETHYLATION PATTERN (MONOALLELIC VERSUS BIALLELIC). THE OBSERVED HIGH FREQUENCY OF PROMOTER HYPERMETHYLATION AND PROGRESSIVE LOSS OF GPX3 EXPRESSION IN BA AND ITS ASSOCIATED LESIONS, TOGETHER WITH ITS KNOWN FUNCTION AS A POTENT ANTIOXIDANT, SUGGEST THAT EPIGENETIC INACTIVATION AND REGULATION OF GLUTATHIONE PATHWAY MAY BE CRITICAL IN THE DEVELOPMENT AND PROGRESSION OF BE. 2005 19 4438 32 MOLECULAR FINDINGS IN BARRETT'S EPITHELIUM. BARRETT'S METAPLASIA IS A PREMALIGNANT CONDITION AND REMAINS THE NUMBER ONE RISK FACTOR FOR DEVELOPING ADENOCARCINOMA. THE HISTOLOGIC CHANGES LEADING TO ADENOCARCINOMA ARE ACCOMPANIED BY GENETIC DISTURBANCES OF THE EPITHELIAL CELLS ITSELF AS WELL AS THE SURROUNDING STROMA. GENETIC AND EPIGENETIC EVENTS AFFECT THE CELL CYCLE, LEADING TO GROWTH SELF-SUFFICIENCY AND IGNORATION OF ANTIGROWTH SIGNALS. THE BALANCE OF CELL TURNOVER IS INSTABLE BY AVOIDANCE OF APOPTOSIS AND A GENERAL LIMITLESS OF THE REPLICATIVE POTENTIAL OF THE (MUTATED) STEM CELLS. SUSTAINED ANGIOGENESIS, NOT ONLY A CONSEQUENCE OF CHRONIC INFLAMMATION, MAY PRECEDE INVASION OF GENETICALLY INSTABLE (ANEUPLOID) CELLS. THE PRINCIPAL GENETIC CHANGES IN BARRETT'S CARCINOGENESIS ARE COMPARABLE TO THOSE KNOWN FROM OTHER EPITHELIAL MALIGNANCIES. LOSS OF P16 GENE EXPRESSION (BY DELETION OR HYPERMETHYLATION), THE LOSS OF P53 EXPRESSION (BY MUTATION AND DELETION), THE INCREASE IN CYCLIN EXPRESSION, AND THE LOSSES OF RB, APC AS WELL AS VARIOUS CHROMOSOMAL LOCI HAVE BEEN REPORTED. SINCE THESE GENETIC OR EPIGENETIC ALTERATIONS ARE NEITHER TUMOR NOR STAGE SPECIFIC, THEY COULD NOT GAIN DIAGNOSTIC SIGNIFICANCE AS BIOMARKERS UNTIL NOW. 2004 20 6885 24 [RNA SPLICING DYSREGULATION IN HEMATOLOGICAL MALIGNANCIES]. RECURRENT MUTATIONS IN GENES ENCODING KEY SPLICING FACTORS, SF3B1, SRSF2, U2AF1, AND ZRSR2 HAVE BEEN FOUND IN A VARIETY OF CANCERS, PARTICULARLY IN HEMATOLOGIC MALIGNANCIES, INCLUDING MYELODYSPLASTIC SYNDROMES, CHRONIC MYELOMONOCYTIC LEUKEMIA, ACUTE MYELOID LEUKEMIA, AND CHRONIC LYMPHOCYTIC LEUKEMIA. GLOBAL MIS-SPLICING OF MRNAS TARGETED BY ABERRANT SPLICING FACTORS PARTLY CONTRIBUTES TO LEUKEMOGENESIS THROUGH DECREASE PROTEIN EXPRESSION OF TUMOR SUPPRESSORS AND EPIGENETIC MODIFIERS, CAUSED BY MRNAS DEGRADATION OF ABERRANTLY SPLICED. SOME OF THE MIS-SPLICED MRNAS INFLUENCE INTRACELLULAR ONCOGENIC PATHWAYS AND CELLULAR PROCESSES THROUGH A DYSREGULATED EXPRESSION OF ASSOCIATED PROTEINS, WHEREAS OTHERS INFLUENCE THE FUNCTION OF CO-MUTATED GENES SUCH AS ABERRANT TRANSCRIPTIONAL REGULATORS. SPLICEOSOMAL DISRUPTION IS COMMON IN MANY CANCERS, MAKING SPLICEOSOME AN APPEALING THERAPEUTIC TARGET. THE FINDINGS THAT SPLICEOSOMAL MUTANT CELLS RELY ON WILD-TYPE SPLICING MACHINERY FOR SURVIVAL AND THAT SPLICING FACTOR MUTATIONS OCCUR IN A MUTUALLY EXCLUSIVE MANNER STRONGLY SUGGEST THAT INHIBITING WILD-TYPE SPLICING MACHINERY CAUSES SYNTHETIC LETHALITY IN CANCER CELLS WITH THESE MUTATIONS. WE DISCUSS THE CHARACTERISTICS AND ONCOGENIC MECHANISMS OF SPLICING FACTOR MUTATIONS, AS WELL AS THE DEVELOPMENT OF NOVEL TREATMENT STRATEGIES TARGETING ABERRANT SPLICING FACTORS IN HEMATOLOGIC MALIGNANCIES. 2023