1 66 117 A KEY ROLE FOR EZH2 IN EPIGENETIC SILENCING OF HOX GENES IN MANTLE CELL LYMPHOMA. THE CHROMATIN MODIFIER EZH2 IS OVEREXPRESSED AND ASSOCIATED WITH INFERIOR OUTCOME IN MANTLE CELL LYMPHOMA (MCL). RECENTLY, WE DEMONSTRATED PREFERENTIAL DNA METHYLATION OF HOX GENES IN MCL COMPARED WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), DESPITE THESE GENES NOT BEING EXPRESSED IN EITHER ENTITY. SINCE EZH2 HAS BEEN SHOWN TO REGULATE HOX GENE EXPRESSION, TO GAIN FURTHER INSIGHT INTO ITS POSSIBLE ROLE IN DIFFERENTIAL SILENCING OF HOX GENES IN MCL VS. CLL, WE PERFORMED DETAILED EPIGENETIC CHARACTERIZATION USING REPRESENTATIVE CELL LINES AND PRIMARY SAMPLES. WE OBSERVED SIGNIFICANT OVEREXPRESSION OF EZH2 IN MCL VS. CLL. CHROMATIN IMMUNE PRECIPITATION (CHIP) ASSAYS REVEALED THAT EZH2 CATALYZED REPRESSIVE H3 LYSINE 27 TRIMETHYLATION (H3K27ME3), WHICH WAS SUFFICIENT TO SILENCE HOX GENES IN CLL, WHEREAS IN MCL H3K27ME3 IS ACCOMPANIED BY DNA METHYLATION FOR A MORE STABLE REPRESSION. MORE IMPORTANTLY, HYPERMETHYLATION OF THE HOX GENES IN MCL RESULTED FROM EZH2 OVEREXPRESSION AND SUBSEQUENT RECRUITMENT OF THE DNA METHYLATION MACHINERY ONTO HOX GENE PROMOTERS. THE IMPORTANCE OF EZH2 UPREGULATION IN THIS PROCESS WAS FURTHER UNDERSCORED BY SIRNA TRANSFECTION AND EZH2 INHIBITOR EXPERIMENTS. ALTOGETHER, THESE OBSERVATIONS IMPLICATE EZH2 IN THE LONG-TERM SILENCING OF HOX GENES IN MCL, AND ALLUDE TO ITS POTENTIAL AS A THERAPEUTIC TARGET WITH CLINICAL IMPACT. 2013 2 5462 26 RESEARCH PROGRESS ON EPIGENETICS OF SMALL B-CELL LYMPHOMA. SMALL B-CELL LYMPHOMA IS THE CLASSIFICATION OF B-CELL CHRONIC LYMPHOPROLIFERATIVE DISORDERS THAT INCLUDE CHRONIC LYMPHOCYTIC LEUKAEMIA/SMALL LYMPHOCYTIC LYMPHOMA, FOLLICULAR LYMPHOMA, MANTLE CELL LYMPHOMA, MARGINAL ZONE LYMPHOMA, LYMPHOPLASMACYTIC LYMPHOMA/WALDENSTROM MACROGLOBULINEMIA. THE CLINICAL PRESENTATION IS SOMEWHAT HETEROGENEOUS, AND ITS OCCURRENCE AND DEVELOPMENT MECHANISMS ARE NOT YET PRECISE AND MAY INVOLVE EPIGENETIC CHANGES. EPIGENETIC ALTERATIONS MAINLY INCLUDE DNA METHYLATION, HISTONE MODIFICATION, AND NON-CODING RNA, WHICH ARE ESSENTIAL FOR GENETIC DETECTION, EARLY DIAGNOSIS, AND ASSESSMENT OF TREATMENT RESISTANCE IN SMALL B-CELL LYMPHOMA. AS CHRONIC LYMPHOCYTIC LEUKEMIA/SMALL LYMPHOCYTIC LYMPHOMA HAS ALREADY BEEN REPORTED IN THE LITERATURE, THIS ARTICLE FOCUSES ON SMALL B-CELL LYMPHOMAS SUCH AS FOLLICULAR LYMPHOMA, MANTLE CELL LYMPHOMA, MARGINAL ZONE LYMPHOMA, AND WALDENSTROM MACROGLOBULINEMIA. IT DISCUSSES RECENT DEVELOPMENTS IN EPIGENETIC RESEARCH TO DIAGNOSE AND TREAT THIS GROUP OF LYMPHOMAS. THIS REVIEW PROVIDES NEW IDEAS FOR THE TREATMENT AND PROGNOSIS ASSESSMENT OF SMALL B-CELL LYMPHOMA BY EXPLORING THE CONNECTION BETWEEN SMALL B-CELL LYMPHOMA AND EPIGENETICS. 2022 3 2133 28 EPIGENETIC INACTIVATION OF THE MIR-34A IN HEMATOLOGICAL MALIGNANCIES. MIR-34A IS A TRANSCRIPTIONAL TARGET OF P53 AND IMPLICATED IN CARCINOGENESIS. WE STUDIED THE ROLE OF MIR-34A METHYLATION IN A PANEL OF HEMATOLOGICAL MALIGNANCIES INCLUDING ACUTE LEUKEMIA [ACUTE MYELOID LEUKEMIA (AML) AND ACUTE LYMPHOBLASTIC LEUKEMIA (ALL)], CHRONIC LEUKEMIA [CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND CHRONIC MYELOID LEUKEMIA (CML)], MULTIPLE MYELOMA (MM) AND NON-HODGKIN'S LYMPHOMA (NHL). THE METHYLATION STATUS OF MIR-34A PROMOTER WAS STUDIED IN 12 CELL LINES AND 188 DIAGNOSTIC SAMPLES BY METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION. MIR-34A PROMOTER WAS UNMETHYLATED IN NORMAL CONTROLS BUT METHYLATED IN 75% LYMPHOMA AND 37% MYELOMA CELL LINES. HYPOMETHYLATING TREATMENT LED TO RE-EXPRESSION OF PRI-MIR-34A TRANSCRIPT IN LYMPHOMA CELLS WITH HOMOZYGOUS MIR-34A METHYLATION. IN PRIMARY SAMPLES AT DIAGNOSIS, MIR-34A METHYLATION WAS DETECTED IN 4% CLL, 5.5% MM SAMPLES AND 18.8% OF NHL AT DIAGNOSIS BUT NONE OF ALL, AML AND CML (P = 0.011). IN MM PATIENTS WITH PAIRED SAMPLES, MIR-34A METHYLATION STATUS REMAINED UNCHANGED AT PROGRESSION. AMONGST LYMPHOID MALIGNANCIES, MIR-34A WAS PREFERENTIALLY METHYLATED IN NHL (P = 0.018), IN PARTICULAR NATURAL KILLER (NK)/T-CELL LYMPHOMA. IN CONCLUSION, AMONGST HEMATOLOGICAL MALIGNANCIES, MIR-34A METHYLATION IS PREFERENTIALLY HYPERMETHYLATED IN NHL, IN PARTICULAR NK/T-CELL LYMPHOMA, IN A TUMOR-SPECIFIC MANNER, THEREFORE THE ROLE OF MIR-34A IN LYMPHOMAGENESIS WARRANTS FURTHER STUDY. 2010 4 4432 25 MOLECULAR CHARACTERIZATION OF RICHTER SYNDROME IDENTIFIES DE NOVO DIFFUSE LARGE B-CELL LYMPHOMAS WITH POOR PROGNOSIS. RICHTER SYNDROME (RS) IS THE TRANSFORMATION OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) INTO AGGRESSIVE LYMPHOMA, MOST COMMONLY DIFFUSE LARGE B-CELL LYMPHOMA (DLBCL). WE CHARACTERIZE 58 PRIMARY HUMAN RS SAMPLES BY GENOME-WIDE DNA METHYLATION AND WHOLE-TRANSCRIPTOME PROFILING. OUR COMPREHENSIVE APPROACH DETERMINES RS DNA METHYLATION PROFILE AND UNRAVELS A CLL EPIGENETIC IMPRINT, ALLOWING CLL-RS CLONAL RELATIONSHIP ASSESSMENT WITHOUT THE NEED OF THE INITIAL CLL TUMOR DNA. DNA METHYLATION- AND TRANSCRIPTOMIC-BASED CLASSIFIERS WERE DEVELOPED, AND TESTING ON LANDMARK DLBCL DATASETS IDENTIFIES A POOR-PROGNOSIS, ACTIVATED B-CELL-LIKE DLBCL SUBSET IN 111/1772 SAMPLES. THE CLASSIFICATION ROBUSTLY IDENTIFIES PHENOTYPES VERY SIMILAR TO RS WITH A SPECIFIC GENOMIC PROFILE, ACCOUNTING FOR 4.3-8.3% OF DE NOVO DLBCLS. IN THIS WORK, RS MULTI-OMICS CHARACTERIZATION DETERMINES ONCOGENIC MECHANISMS, ESTABLISHES A SURROGATE MARKER FOR CLL-RS CLONAL RELATIONSHIP, AND PROVIDES A CLINICALLY RELEVANT CLASSIFIER FOR A SUBSET OF PRIMARY "RS-TYPE DLBCL" WITH UNFAVORABLE PROGNOSIS. 2023 5 2431 52 EPIGENETIC SILENCING OF MIR-26A1 IN CHRONIC LYMPHOCYTIC LEUKEMIA AND MANTLE CELL LYMPHOMA: IMPACT ON EZH2 EXPRESSION. DOWNREGULATION OF MIR26A1 HAS BEEN REPORTED IN VARIOUS B-CELL MALIGNANCIES; HOWEVER, THE MECHANISM BEHIND ITS DEREGULATION REMAINS LARGELY UNKNOWN. WE INVESTIGATED MIR26A1 METHYLATION AND EXPRESSION LEVELS IN A WELL-CHARACTERIZED SERIES OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND MANTLE CELL LYMPHOMA (MCL). FROM 450K METHYLATION ARRAYS, WE FIRST OBSERVED MIR26A1 (CG26054057) AS UNIFORMLY HYPERMETHYLATED IN MCL (N = 24) (ALL >75%), WHILE CLL (N = 18) SHOWED DIFFERENTIAL METHYLATION BETWEEN PROGNOSTIC SUBGROUPS. EXTENDED ANALYSIS USING PYROSEQUENCING CONFIRMED OUR FINDINGS AND REAL-TIME QUANTITATIVE PCR VERIFIED LOW MIR26A1 EXPRESSION IN BOTH CLL (N = 70) AND MCL (N = 38) COMPARED TO NORMAL B-CELLS. NOTABLY, THE LEVEL OF MIR26A1 METHYLATION PREDICTED OUTCOME IN CLL, WITH HIGHER LEVELS SEEN IN POOR-PROGNOSTIC, IGHV-UNMUTATED CLL. SINCE EZH2 WAS RECENTLY REPORTED AS A TARGET FOR MIR26A1, WE ANALYZED THE EXPRESSION LEVELS OF BOTH MIR26A1 AND EZH2 IN PRIMARY CLL SAMPLES AND OBSERVED AN INVERSE CORRELATION. BY OVEREXPRESSION OF MIR26A1 IN CLL AND MCL CELL LINES, REDUCED EZH2 PROTEIN LEVELS WERE OBSERVED USING BOTH WESTERN BLOT AND FLOW CYTOMETRY. IN CONTRAST, METHYL-INHIBITOR TREATMENT LED TO UPREGULATED MIR26A1 EXPRESSION WITH A PARALLEL DECREASE OF EZH2 EXPRESSION. FINALLY, INCREASED LEVELS OF APOPTOSIS WERE OBSERVED IN MIR26A1-OVEREXPRESSING CELL LINES, FURTHER UNDERSCORING THE FUNCTIONAL RELEVANCE OF MIR26A1. IN SUMMARY, WE PROPOSE THAT EPIGENETIC SILENCING OF MIR26A1 IS REQUIRED FOR THE MAINTENANCE OF INCREASED LEVELS OF EZH2, WHICH IN TURN TRANSLATE INTO A WORSE OUTCOME, AS SHOWN IN CLL, HIGHLIGHTING MIR26A1 AS A TUMOR SUPPRESSOR MIRNA. 2016 6 2131 31 EPIGENETIC INACTIVATION OF THE HSA-MIR-203 IN HAEMATOLOGICAL MALIGNANCIES. MIR-203 IS A TUMOUR SUPPRESSOR MICRORNA (MIRNA). WE STUDIED THE METHYLATION OF HSA-MIR-203 IN 150 SAMPLES INCLUDING ACUTE MYELOID LEUKAEMIA (AML), ACUTE LYMPHOBLASTIC LEUKAEMIA (ALL), CHRONIC MYELOID LEUKAEMIA (CML), CHRONIC LYMPHOCYTIC LEUKAEMIA (CLL) AND NON-HODGKIN'S LYMPHOMA (NHL) BY METHYLATION-SPECIFIC PCR, AND MIRNA EXPRESSION BY STEM-LOOP RT-QPCR. HSA-MIR-203 PROMOTER WAS UNMETHYLATED IN NORMAL CONTROLS BUT HOMOZYGOUSLY METHYLATED IN TWO AML AND FOUR LYMPHOMA CELL LINES, IN WHICH 5-AZA-2'-DEOXYCYTIDINE TREATMENT LED TO PROMOTER DEMETHYLATION AND MIR-203 RE-EXPRESSION. RESTORATION OF MIR-203 EXPRESSION IN LYMPHOMA CELLS INHIBITED CELLULAR PROLIFERATION AND INCREASED CELL DEATH, SUGGESTING AN INHERENT TUMOUR SUPPRESSOR ACTIVITY. IN PRIMARY SAMPLES, HSA-MIR-203 METHYLATION WAS ABSENT IN CML BUT DETECTED IN 5.0% ALL, 10.0% AML, 42.0% CLL AND 38.8% OF NHL (INCLUDING SIX [60.0%] NATURAL KILLER-CELL, NINE [40.9%] B-CELL AND FOUR [23.5%] T CELL NHL). MOREOVER, HSA-MIR-203 METHYLATION WAS ASSOCIATED WITH HYPERMETHYLATION OF HSA-MIR-34A, -124A AND -196B IN NHL BUT NOT CLL. IN CLL, HSA-MIR-203 METHYLATION WAS ASSOCIATED WITH A HIGHER PRESENTING HB LEVEL (P = 0.033). THE PROJECTED 10 YEAR OVERALL SURVIVAL OF THE CLL PATIENTS WAS 58.2%, WHICH WAS IMPACTED BY RAI STAGE AND HIGH-RISK KARYOTYPES BUT NOT HSA-MIR-203 METHYLATION. HSA-MIR-203 WAS MORE FREQUENTLY METHYLATED IN LYMPHOID THAN MYELOID MALIGNANCIES (P = 0.002). IN CONCLUSION, MIR-203, A TUMOUR SUPPRESSOR GENE, WAS HYPERMETHYLATED IN A TUMOUR-SPECIFIC MANNER WITH GENE SILENCING. HSA-MIR-203 WAS MORE FREQUENTLY HYPERMETHYLATED IN LYMPHOID THAN MYELOID MALIGNANCIES. IN NHL, HSA-MIR-203 METHYLATION WAS ASSOCIATED WITH CONCOMITANT METHYLATION OF OTHER TUMOUR SUPPRESSOR MIRNAS. THE FREQUENT HSA-MIR-203 METHYLATION IN LYMPHOID MALIGNANCIES SUGGESTED A PATHOGENETIC ROLE OF HSA-MIR-203 METHYLATION. 2011 7 2132 32 EPIGENETIC INACTIVATION OF THE MIR-124-1 IN HAEMATOLOGICAL MALIGNANCIES. MIR-124-1 IS A TUMOUR SUPPRESSOR MICRORNA (MIR). EPIGENETIC DEREGULATION OF MIRS IS IMPLICATED IN CARCINOGENESIS. PROMOTER DNA METHYLATION AND HISTONE MODIFICATION OF MIR-124-1 WAS STUDIED IN 5 NORMAL MARROW CONTROLS, 4 LYMPHOMA, 8 MULTIPLE MYELOMA (MM) CELL LINES, 230 DIAGNOSTIC PRIMARY SAMPLES OF ACUTE MYELOID LEUKAEMIA (AML), ACUTE LYMPHOBLASTIC LEUKAEMIA (ALL), CHRONIC MYELOID LEUKAEMIA (CML), CHRONIC LYMPHOCYTIC LEUKAEMIA (CLL), MM, AND NON-HODGKIN'S LYMPHOMA (NHL), AND 53 MM SAMPLES AT STABLE DISEASE OR RELAPSE. PROMOTER OF MIR-124-1 WAS UNMETHYLATED IN NORMAL CONTROLS BUT HOMOZYGOUSLY METHYLATED IN 4 OF 4 LYMPHOMA AND 4 OF 8 MYELOMA CELL LINES. TREATMENT OF 5-AZA-2'-DEOXYCYTIDINE LED TO MIR-124-1 DEMETHYLATION AND RE-EXPRESSION OF MATURE MIR-124, WHICH ALSO ASSOCIATED WITH EMERGENCE OF EUCHROMATIC TRIMETHYL H3K4 AND CONSEQUENT DOWNREGULATION OF CDK6 IN MYELOMA CELLS HARBORING HOMOZYGOUS MIR-124-1 METHYLATION. IN PRIMARY SAMPLES AT DIAGNOSIS, MIR-124-1 METHYLATION WAS ABSENT IN CML BUT DETECTED IN 2% EACH OF MM AT DIAGNOSIS AND RELAPSE/PROGRESSION, 5% ALL, 15% AML, 14% CLL AND 58.1% OF NHL (P<0.001). AMONGST LYMPHOID MALIGNANCIES, MIR-124-1 WAS PREFERENTIALLY METHYLATED IN NHL THAN MM, CLL OR ALL. IN PRIMARY LYMPHOMA SAMPLES, MIR-124-1 WAS PREFERENTIALLY HYPERMETHYLATED IN B- OR NK/T-CELL LYMPHOMAS AND ASSOCIATED WITH REDUCED MIR-124 EXPRESSION. IN CONCLUSION, MIR-124-1 WAS HYPERMETHYLATED IN A TUMOUR-SPECIFIC MANNER, WITH A HETEROCHROMATIC HISTONE CONFIGURATION. HYPOMETHYLATION LED TO PARTIAL RESTORATION OF EUCHROMATIC HISTONE CODE AND MIR RE-EXPRESSION. INFREQUENT MIR-124-1 METHYLATION DETECTED IN DIAGNOSTIC AND RELAPSE MM SAMPLES SHOWED AN UNIMPORTANT ROLE IN MM PATHOGENESIS, DESPITE FREQUENT METHYLATION FOUND IN CELL LINES. AMONGST HAEMATOLOGICAL CANCERS, MIR-124-1 WAS MORE FREQUENTLY HYPERMETHYLATED IN NHL, AND HENCE WARRANTS FURTHER STUDY. 2011 8 1424 35 DIFFERENTIAL DNA METHYLATION OF GENE PROMOTERS IN SMALL B-CELL LYMPHOMAS. IMPROVED CARE OF PATIENTS WITH SMALL B-CELL LYMPHOMAS (SBCLS) IS LIKELY TO RESULT FROM THE ONGOING DISCOVERY OF MOLECULAR MARKERS THAT BETTER DEFINE THESE MALIGNANT NEOPLASMS. WE IDENTIFIED MULTIPLE GENE LOCI WHOSE DNA METHYLATION PATTERNS DIFFERED BETWEEN 3 TYPES OF SBCL: B-CELL CHRONIC LYMPHOCYTIC LEUKEMIA/SMALL LYMPHOCYTIC LYMPHOMA, MANTLE CELL LYMPHOMA, AND GRADES I AND II FOLLICULAR LYMPHOMA. THIS ANALYSIS WAS PERFORMED USING AN OLIGONUCLEOTIDE MICROARRAY THAT ALLOWED DETERMINATION OF THE DNA METHYLATION STATUS OF 156 LOCI IN 38 GENES. COMBINED BISULFITE RESTRICTION ANALYSIS AND METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION WERE USED TO VALIDATE THE DIFFERENTIAL METHYLATION OF 6 OF THESE GENES. BY USING NON-HODGKIN LYMPHOMA CELL LINES AS MODELS, THESE GENES WERE EXAMINED FURTHER FOR METHYLATION AND GENE EXPRESSION RELATIONSHIPS. THIS STUDY ILLUSTRATES NONRANDOM EPIGENETIC ALTERATIONS IN SBCLS THAT SEEM TO PREFERENTIALLY INVOLVE LYMPHOMAS OF GERMINAL CENTER DERIVATION. 2005 9 940 29 CHRONIC LYMPHOCYTIC LEUKEMIA AND MANTLE CELL LYMPHOMA: CROSSROADS OF GENETIC AND MICROENVIRONMENT INTERACTIONS. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND MANTLE CELL LYMPHOMA (MCL) ARE 2 WELL-DEFINED ENTITIES THAT DIVERGE IN THEIR BASIC PATHOGENIC MECHANISMS AND CLINICAL EVOLUTION BUT THEY SHARE EPIDEMIOLOGICAL CHARACTERISTICS, CELLS OF ORIGIN, MOLECULAR ALTERATIONS, AND CLINICAL FEATURES THAT DIFFER FROM OTHER LYMPHOID NEOPLASMS. CLL AND MCL ARE CLASSICALLY CONSIDERED INDOLENT AND AGGRESSIVE NEOPLASMS, RESPECTIVELY. HOWEVER, THE CLINICAL EVOLUTION OF BOTH TUMORS IS VERY HETEROGENEOUS, WITH SUBSETS OF PATIENTS HAVING STABLE DISEASE FOR A LONG TIME WHEREAS OTHERS REQUIRE IMMEDIATE INTERVENTION. BOTH CLL AND MCL INCLUDE 2 MAJOR MOLECULAR SUBTYPES THAT SEEM TO DERIVE FROM ANTIGEN-EXPERIENCED CD5(+) B CELLS THAT RETAIN A NAIVE OR MEMORY-LIKE EPIGENETIC SIGNATURE AND CARRY A VARIABLE LOAD OF IMMUNOGLOBULIN HEAVY-CHAIN VARIABLE REGION SOMATIC MUTATIONS FROM TRULY UNMUTATED TO HIGHLY MUTATED, RESPECTIVELY. THESE 2 SUBTYPES OF TUMORS DIFFER IN THEIR MOLECULAR PATHWAYS, GENOMIC ALTERATIONS, AND CLINICAL BEHAVIOR, BEING MORE AGGRESSIVE IN NAIVE-LIKE THAN MEMORY-LIKE-DERIVED TUMORS IN BOTH CLL AND MCL. THE PATHOGENESIS OF THE 2 ENTITIES INTEGRATES THE RELEVANT INFLUENCE OF B-CELL RECEPTOR SIGNALING, TUMOR CELL MICROENVIRONMENT INTERACTIONS, GENOMIC ALTERATIONS, AND EPIGENOME MODIFICATIONS THAT CONFIGURE THE EVOLUTION OF THE TUMORS AND OFFER NEW POSSIBILITIES FOR THERAPEUTIC INTERVENTION. THIS REVIEW WILL FOCUS ON THE SIMILARITIES AND DIFFERENCES OF THESE 2 TUMORS BASED ON RECENT STUDIES THAT ARE ENHANCING THE UNDERSTANDING OF THEIR PATHOGENESIS AND CREATING SOLID BASES FOR NEW MANAGEMENT STRATEGIES. 2018 10 1471 29 DISTINCT GLOBAL DNA METHYLATION STATUS IN B-CELL LYMPHOMAS: IMMUNOHISTOCHEMICAL STUDY OF 5-METHYLCYTOSINE AND 5-HYDROXYMETHYLCYTOSINE. LYMPHOMAS ARE MALIGNANT NEOPLASMS COMPOSED OF LYMPHOID CELLS AT VARIOUS DEVELOPMENTAL STAGES AND LINEAGES. RECENT ADVANCES IN COMPREHENSIVE GENOMIC ANALYSES IN ACUTE MYELOID LEUKEMIA HAVE REVEALED PREVALENT MUTATIONS IN REGULATORS OF EPIGENETIC PHENOMENA INCLUDING GLOBAL DNA METHYLATION STATUS. THE EXAMPLES INCLUDE MUTATIONS IN ISOCITRATE DEHYDROGENASE 1 (IDH1), IDH2, AND TEN-ELEVEN TRANSLOCATION 2. THESE MUTATIONS ARE PROPOSED TO INHIBIT CONVERSION OF 5-METHYLCYTOSINE (5 MC) TO 5-HYDROXYMETHYLCYTOSINE (5 HMC), LEADING TO GLOBAL ACCUMULATION OF 5 MC. THESE CHANGES IN GLOBAL DNA METHYLATION STATUS CAN BE VISUALIZED IMMUNOHISTOCHEMICALLY USING SPECIFIC ANTIBODIES AGAINST 5 MC AND 5 HMC. WE EXAMINED THE GLOBAL DNA METHYLATION STATUS OF B-CELL LYMPHOMAS AND THAT OF THEIR NORMAL COUNTERPARTS BY IMMUNOHISTOCHEMISTRY FOR 5 MC AND 5 HMC. NON-TUMOR LYMPHOID CELLS INSIDE GERMINAL CENTERS (GC) IN REACTIVE LYMPHOID HYPERPLASIA (RLH) WERE STAINED POSITIVE FOR 5 MC, BUT THEY WERE NEGATIVE FOR 5 HMC. SIMILARLY, FOLLICULAR LYMPHOMAS, WHOSE POSTULATED NORMAL COUNTERPARTS ARE CENTROCYTES IN GCS, WERE 5 MC-POSITIVE BUT 5 HMC-NEGATIVE BY IMMUNOHISTOCHEMISTRY. THIS IMMUNOSTAINING PATTERN WAS ALSO OBSERVED IN BURKITT LYMPHOMA. IN CONTRAST, NON-TUMOR LYMPHOID CELLS IN MANTLE ZONES WERE STAINED POSITIVE FOR 5 MC AS WELL AS FOR 5 HMC. LIKEWISE, MOST MANTLE CELL LYMPHOMAS, WHOSE POSTULATED NORMAL COUNTERPARTS ARE MANTLE ZONE B CELLS IN RLH, WERE STAINED POSITIVE FOR 5 MC AS WELL AS FOR 5 HMC. THIS IMMUNOSTAINING PATTERN WAS ALSO OBSERVED IN CHRONIC LYMPHOCYTIC LEUKEMIA/SMALL LYMPHOCYTIC LYMPHOMA. THESE RESULTS SUGGEST THAT, IN TERMS OF 5 MC/5 HMC IMMUNOHISTOCHEMISTRY, B-CELL LYMPHOMAS WITH DIFFERENT HISTOLOGICAL SUBTYPES ARE ASSOCIATED WITH DISTINCT GLOBAL DNA METHYLATION STATUSES THAT RESEMBLE THOSE OF THEIR POSTULATED NORMAL COUNTERPARTS. 2014 11 1659 33 DOWN-REGULATION OF CANDIDATE TUMOR SUPPRESSOR GENES WITHIN CHROMOSOME BAND 13Q14.3 IS INDEPENDENT OF THE DNA METHYLATION PATTERN IN B-CELL CHRONIC LYMPHOCYTIC LEUKEMIA. LOSS OF GENOMIC MATERIAL FROM CHROMOSOMAL BAND 13Q14.3 IS THE MOST COMMON GENETIC IMBALANCE IN B-CELL CHRONIC LYMPHOCYTIC LEUKEMIA (B-CLL) AND MANTLE CELL LYMPHOMA, POINTING TO THE INVOLVEMENT OF THIS REGION IN A TUMOR SUPPRESSOR MECHANISM. FROM THE MINIMALLY DELETED REGION, 3 CANDIDATE GENES HAVE BEEN ISOLATED, RFP2, BCMS, AND BCMSUN. DNA SEQUENCE ANALYSES HAVE FAILED TO DETECT SMALL MUTATIONS IN ANY OF THESE GENES, SUGGESTING A DIFFERENT PATHOMECHANISM, MOST LIKELY HAPLOINSUFFICIENCY. WE, THEREFORE, TESTED B-CLL PATIENTS FOR EPIGENETIC ABERRATIONS BY MEASURING EXPRESSION OF GENES FROM 13Q14.3 AND METHYLATION OF THEIR PROMOTOR REGION. RB1, CLLD7, KPNA3, CLLD6, AND RFP2 WERE DOWN-REGULATED IN B-CLL PATIENTS AS COMPARED WITH B CELLS OF HEALTHY DONORS, WITH RFP2 SHOWING THE MOST PRONOUNCED LOSS OF EXPRESSION. TO TEST WHETHER THIS LOSS OF GENE EXPRESSION IS ASSOCIATED WITH METHYLATION OF CPG ISLANDS IN THE RESPECTIVE PROMOTOR REGIONS, WE PERFORMED METHYLATION-SENSITIVE QUANTITATIVE POLYMERASE CHAIN REACTION ANALYSES AND BISULFITE SEQUENCING ON DNA FROM B-CLL PATIENTS. NO DIFFERENCE IN THE METHYLATION PATTERNS COULD BE DETECTED IN ANY CPG ISLAND OF THE MINIMALLY DELETED REGION. DOWN-REGULATION OF GENES WITHIN CHROMOSOMAL BAND 13Q14.3 IN B-CLL IS IN LINE WITH THE CONCEPT OF HAPLOINSUFFICIENCY, BUT THIS TUMOR-SPECIFIC PHENOMENON IS NOT ASSOCIATED WITH DNA METHYLATION. 2002 12 6613 35 ULTRADEEP BISULFITE SEQUENCING ANALYSIS OF DNA METHYLATION PATTERNS IN MULTIPLE GENE PROMOTERS BY 454 SEQUENCING. WE DEVELOPED A NOVEL APPROACH FOR CONDUCTING MULTISAMPLE, MULTIGENE, ULTRADEEP BISULFITE SEQUENCING ANALYSIS OF DNA METHYLATION PATTERNS IN CLINICAL SAMPLES. A MASSIVELY PARALLEL SEQUENCING-BY-SYNTHESIS METHOD (454 SEQUENCING) WAS USED TO DIRECTLY SEQUENCE >100 BISULFITE PCR PRODUCTS IN A SINGLE SEQUENCING RUN WITHOUT SUBCLONING. WE SHOWED THE UTILITY, ROBUSTNESS, AND SUPERIORITY OF THIS APPROACH BY ANALYZING METHYLATION IN 25 GENE-RELATED CPG RICH REGIONS FROM >40 CASES OF PRIMARY CELLS, INCLUDING NORMAL PERIPHERAL BLOOD LYMPHOCYTES, ACUTE LYMPHOBLASTIC LEUKEMIA (ALL), CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), FOLLICULAR LYMPHOMA (FL), AND MANTLE CELL LYMPHOMA (MCL). A TOTAL OF 294,631 SEQUENCES WAS GENERATED WITH AN AVERAGE READ LENGTH OF 131 BP. ON AVERAGE, >1,600 INDIVIDUAL SEQUENCES WERE GENERATED FOR EACH PCR AMPLICON FAR BEYOND THE FEW CLONES (<20) TYPICALLY ANALYZED BY TRADITIONAL BISULFITE SEQUENCING. COMPREHENSIVE ANALYSIS OF CPG METHYLATION PATTERNS AT A SINGLE DNA MOLECULE LEVEL USING CLUSTERING ALGORITHMS REVEALED DIFFERENTIAL METHYLATION PATTERNS BETWEEN DISEASES. A SIGNIFICANT INCREASE IN METHYLATION WAS DETECTED IN ALL AND FL SAMPLES COMPARED WITH CLL AND MCL. FURTHERMORE, A PROGRESSIVE SPREADING OF METHYLATION WAS DETECTED FROM THE PERIPHERY TOWARD THE CENTER OF SELECT CPG ISLANDS IN THE ALL AND FL SAMPLES. THE ULTRADEEP SEQUENCING ALSO ALLOWED SIMULTANEOUS ANALYSIS OF GENETIC AND EPIGENETIC DATA AND REVEALED AN ASSOCIATION BETWEEN A SINGLE NUCLEOTIDE POLYMORPHISM AND THE METHYLATION PRESENT IN THE LRP1B PROMOTER. THIS NEW GENERATION OF METHYLOME SEQUENCING WILL PROVIDE DIGITAL PROFILES OF ABERRANT DNA METHYLATION FOR INDIVIDUAL HUMAN CANCERS AND OFFERS A ROBUST METHOD FOR THE EPIGENETIC CLASSIFICATION OF TUMOR SUBTYPES. 2007 13 5512 26 RICHTER SYNDROME IN CHRONIC LYMPHOCYTIC LEUKEMIA: UPDATES ON BIOLOGY, CLINICAL FEATURES AND THERAPY. RICHTER SYNDROME (RS) OR RICHTER TRANSFORMATION IS THE DEVELOPMENT OF SECONDARY AGGRESSIVE LYMPHOMA IN THE SETTING OF UNDERLYING CHRONIC LYMPHOCYTIC LEUKEMIA/SMALL LYMPHOCYTIC LYMPHOMA (CLL/SLL). MOST FREQUENTLY CLL TRANSFORMS INTO DIFFUSE LARGE B-CELL LYMPHOMA (DLBCL) (90%) AND RARELY (10%) INTO HODGKIN LYMPHOMA, TERMED HODGKIN VARIANT OF RICHTER SYNDROME (HVRS). RS IS GENERALLY CHARACTERIZED BY AN AGGRESSIVE CLINICAL COURSE AND POOR PROGNOSIS. IN RECENT YEARS, MAJOR ADVANCES HAVE BEEN MADE IN UNDERSTANDING GENETIC EVENTS WHICH RELATE TO THE PROGRESSION OF CLL OR TRANSFORMATION INTO RS. BETTER UNDERSTANDING OF THE MOLECULAR PATHWAYS HAS REVEALED THAT RS IS NOT A SINGLE HOMOGENEOUS ENTITY. THE MAJORITY OF CASES ARE CLONALLY RELATED TO THE ORIGINAL CLL CLONE, WHILE A MINORITY DEVELOP FROM AN UNRELATED CLONE. THIS REVIEW SUMMARIZES NEW DATA RELATING TO THE MOLECULAR BIOLOGY AND THE GENETIC/EPIGENETIC CHANGES OCCURRING DURING RICHTER TRANSFORMATION, AND ALSO CONSIDERS THE CLINICAL FEATURES AND THERAPY FOR BOTH DLBCL-RS AND HODGKIN VARIANT-RS. 2015 14 5243 29 PROGNOSTIC IMPACT OF EPIGENETIC CLASSIFICATION IN CHRONIC LYMPHOCYTIC LEUKEMIA: THE CASE OF SUBSET #2. BASED ON THE METHYLATION STATUS OF 5 SINGLE CPG SITES, A NOVEL EPIGENETIC CLASSIFICATION OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) WAS RECENTLY PROPOSED, CLASSIFYING CLL PATIENTS INTO 3 CLINICO-BIOLOGICAL SUBGROUPS WITH DIFFERENT OUTCOME, TERMED MEMORY LIKE CLL (M-CLL), NAIVE LIKE CLL (N-CLL), AND A THIRD INTERMEDIATE CLL SUBGROUP (I-CLL). WHILE M-CLL AND N-CLL PATIENTS AT LARGE CORRESPONDED TO PATIENTS CARRYING MUTATED AND UNMUTATED IGHV GENES, RESPECTIVELY, LIMITED INFORMATION EXISTS REGARDING THE LESS DEFINED I-CLL GROUP. USING PYROSEQUENCING, WE INVESTIGATED THE PROGNOSTIC IMPACT OF THE PROPOSED 5 CPG SIGNATURE IN A WELL-CHARACTERIZED CLL COHORT (135 CASES), INCLUDING IGHV-MUTATED AND UNMUTATED PATIENTS AS WELL AS CLINICALLY AGGRESSIVE STEREOTYPED SUBSET #2 PATIENTS. OVERALL, WE CONFIRMED THE SIGNATURE'S ASSOCIATION WITH ESTABLISHED PROGNOSTIC MARKERS. MOREOVER, IN THE PRESENCE OF THE IGHV MUTATIONAL STATUS, THE EPIGENETIC SIGNATURE REMAINED INDEPENDENTLY ASSOCIATED WITH BOTH TIME-TO-FIRST-TREATMENT AND OVERALL SURVIVAL IN MULTIVARIATE ANALYSES. AS A PRIME FINDING, WE OBSERVED THAT SUBSET #2 PATIENTS WERE PREDOMINANTLY CLASSIFIED AS I-CLL, PROBABLY REFLECTING THEIR BORDERLINE IGHV MUTATIONAL STATUS (97-99% GERMLINE IDENTITY), THOUGH HAVING A SIMILARLY POOR PROGNOSIS AS N-CLL PATIENTS. IN SUMMARY, WE VALIDATED THE EPIGENETIC CLASSIFIER AS AN INDEPENDENT FACTOR IN CLL PROGNOSTICATION AND PROVIDE FURTHER EVIDENCE THAT SUBSET #2 IS A MEMBER OF THE I-CLL GROUP, HENCE SUPPORTING THE EXISTENCE OF A THIRD, INTERMEDIATE EPIGENETIC SUBGROUP. 2016 15 1433 32 DIFFERENTIAL GENOME-WIDE ARRAY-BASED METHYLATION PROFILES IN PROGNOSTIC SUBSETS OF CHRONIC LYMPHOCYTIC LEUKEMIA. GLOBAL HYPOMETHYLATION AND REGIONAL HYPERMETHYLATION ARE WELL-KNOWN EPIGENETIC FEATURES OF CANCER; HOWEVER, IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), STUDIES ON GENOME-WIDE EPIGENETIC MODIFICATIONS ARE LIMITED. HERE, WE ANALYZED THE GLOBAL METHYLATION PROFILES IN CLL, BY APPLYING HIGH-RESOLUTION METHYLATION MICROARRAYS (27,578 CPG SITES) TO 23 CLL SAMPLES, BELONGING TO THE IMMUNOGLOBULIN HEAVY-CHAIN VARIABLE (IGHV) MUTATED (FAVORABLE) AND IGHV UNMUTATED/IGHV3-21 (POOR-PROGNOSTIC) SUBSETS. OVERALL, RESULTS DEMONSTRATED SIGNIFICANT DIFFERENCES IN METHYLATION PATTERNS BETWEEN THESE SUBGROUPS. SPECIFICALLY, IN IGHV UNMUTATED CLL, WE IDENTIFIED METHYLATION OF 7 KNOWN OR CANDIDATE TUMOR SUPPRESSOR GENES (EG, VHL, ABI3, AND IGSF4) AS WELL AS 8 UNMETHYLATED GENES INVOLVED IN CELL PROLIFERATION AND TUMOR PROGRESSION (EG, ADORA3 AND PRF1 ENHANCING THE NUCLEAR FACTOR-KAPPAB AND MITOGEN-ACTIVATED PROTEIN KINASE PATHWAYS, RESPECTIVELY). IN CONTRAST, THESE LATTER GENES WERE SILENCED BY METHYLATION IN IGHV MUTATED PATIENTS. THE ARRAY DATA WERE VALIDATED FOR SELECTED GENES USING METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION, QUANTITATIVE REVERSE TRANSCRIPTASE-POLYMERASE CHAIN REACTION, AND BISULFITE SEQUENCING. FINALLY, THE SIGNIFICANCE OF DNA METHYLATION IN REGULATING GENE PROMOTERS WAS SHOWN BY REINDUCING 4 METHYLATED TUMOR SUPPRESSOR GENES (EG, VHL AND ABI3) IN IGHV UNMUTATED SAMPLES USING THE METHYL-INHIBITOR 5-AZA-2'-DEOXYCYTIDINE. TAKEN TOGETHER, OUR DATA FOR THE FIRST TIME REVEAL DIFFERENCES IN GLOBAL METHYLATION PROFILES BETWEEN PROGNOSTIC SUBSETS OF CLL, WHICH MAY UNFOLD EPIGENETIC SILENCING MECHANISMS INVOLVED IN CLL PATHOGENESIS. 2010 16 4922 29 PARENTAL AGE AND RISK OF LYMPHOID NEOPLASMS. HIGH PARENTAL AGE AT CHILDBIRTH HAS REPEATEDLY BEEN LINKED TO CHILDHOOD MALIGNANCIES, WHILE FEW STUDIES HAVE FOCUSED ON THE OFFSPRING'S RISK OF ADULT CANCER. IN THIS POPULATION-BASED CASE-CONTROL STUDY, WE IDENTIFIED 32,000 PATIENTS WITH LYMPHOID NEOPLASMS, DIAGNOSED AT AGES 0-79 YEARS DURING THE PERIOD 1987-2011, AND 160,000 MATCHED CONTROLS IN SWEDEN. USING PROSPECTIVELY REGISTERED DATA ON THEIR FIRST-DEGREE RELATIVES, WE EVALUATED THE IMPACT OF PARENTAL AGE ON THE RISK OF LYMPHOID NEOPLASMS BY SUBTYPE. OVERALL, EACH 5-YEAR INCREMENT IN MATERNAL AGE WAS ASSOCIATED WITH A 3% INCREASE IN INCIDENCE OF OFFSPRING LYMPHOID NEOPLASMS (HAZARD RATIO = 1.03, 95% CONFIDENCE INTERVAL: 1.02, 1.04). THE ASSOCIATION WAS SIMILAR FOR PATERNAL AGE AND PRESENT EVEN AMONG INDIVIDUALS OLDER THAN 70 YEARS OF AGE AT DIAGNOSIS. STRATIFIED ANALYSES FURTHER REVEALED THAT THE ASSOCIATION WAS LIMITED TO CERTAIN SUBTYPES, MOSTLY OF INDOLENT NATURE. RISKS OF CHRONIC LYMPHOCYTIC LEUKEMIA, FOLLICULAR LYMPHOMA, AND MANTLE CELL LYMPHOMA WERE 5%-10% HIGHER PER 5-YEAR INCREMENT IN MATERNAL AGE, BUT NO ASSOCIATIONS WERE OBSERVED FOR ACUTE LYMPHOBLASTIC LEUKEMIA, PLASMA CELL NEOPLASMS, OR DIFFUSE LARGE B-CELL LYMPHOMA. THESE FINDINGS INDICATED THAT PRENATAL GENETIC OR EPIGENETIC CHANGES INFLUENCE RISK OF ADULT LYMPHOID NEOPLASMS AND SUGGEST A DIFFERENCE IN THIS ASSOCIATION BETWEEN AGGRESSIVE AND INDOLENT LYMPHOMA SUBTYPES. 2017 17 5666 31 SF3B1-MUTATED CHRONIC LYMPHOCYTIC LEUKEMIA SHOWS EVIDENCE OF NOTCH1 PATHWAY ACTIVATION INCLUDING CD20 DOWNREGULATION. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS CHARACTERIZED BY A LOW CD20 EXPRESSION, IN PART EXPLAINED BY AN EPIGENETIC-DRIVEN DOWNREGULATION TRIGGERED BY MUTATIONS OF THE NOTCH1 GENE. IN THE PRESENT STUDY, BY TAKING ADVANTAGE OF A WIDE AND WELL-CHARACTERIZED CLL COHORT (N=537), WE DEMONSTRATE THAT CD20 EXPRESSION IS DOWNREGULATED IN SF3B1-MUTATED CLL IN AN EXTENT SIMILAR TO NOTCH1-MUTATED CLL. IN FACT, SF3B1-MUTATED CLL CELLS SHOW COMMON FEATURES WITH NOTCH1-MUTATED CLL CELLS, INCLUDING A GENE EXPRESSION PROFILE ENRICHED OF NOTCH1-RELATED GENE SETS AND ELEVATED EXPRESSION OF THE ACTIVE INTRACYTOPLASMIC NOTCH1. ACTIVATION OF THE NOTCH1 SIGNALING AND DOWN-REGULATION OF SURFACE CD20 IN SF3B1-MUTATED CLL CELLS CORRELATE WITH OVER-EXPRESSION OF AN ALTERNATIVELY SPLICED FORM OF DVL2, A COMPONENT OF THE WNT PATHWAY AND NEGATIVE REGULATOR OF THE NOTCH1 PATHWAY. THESE FINDINGS ARE CONFIRMED BY SEPARATELY ANALYZING THE CD20-DIM AND CD20-BRIGHT CELL FRACTIONS FROM SF3B1-MUTATED CASES AS WELL AS BY DVL2 KNOCK-OUT EXPERIMENTS IN CLL-LIKE CELL MODELS. ALTOGETHER, THE CLINICAL AND BIOLOGICAL FEATURES THAT CHARACTERIZE NOTCH1-MUTATED CLL MAY ALSO BE RECAPITULATED IN SF3B1-MUTATED CLL, CONTRIBUTING TO EXPLAIN THE POOR PROGNOSIS OF THIS CLL SUBSET AND PROVIDING THE RATIONALE FOR EXPANDING NOVEL AGENTS-BASED THERAPIES TO SF3B1-MUTATED CLL. 2021 18 2440 34 EPIGENETIC SILENCING OF TUMOR SUPPRESSOR LONG NON-CODING RNA BM742401 IN CHRONIC LYMPHOCYTIC LEUKEMIA. BM742401 IS A TUMOR SUPPRESSOR LNCRNA DOWNREGULATED IN GASTRIC CANCER. AS THE PROMOTER REGION AND THE ENTIRE TRANSCRIPT ARE EMBEDDED IN A CPG ISLAND, WE POSTULATED THAT BM742401 IS A TUMOR SUPPRESSOR LNCRNA INACTIVATED BY DNA METHYLATION IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). THE PROMOTER OF BM742401 WAS UNMETHYLATED IN NORMAL CONTROLS INCLUDING THREE EACH OF NORMAL BONE MARROW, PERIPHERAL BLOOD BUFFY COATS, AND CD19-SORTED PERIPHERAL B-CELLS, BUT METHYLATED IN FOUR (57.1%) CLL CELL LINES. METHYLATION OF BM742401 CORRELATED INVERSELY WITH EXPRESSION. IN THE COMPLETELY METHYLATED WAC3CD5+ CLL CELLS, 5-AZA-2'-DEOXYCYTIDINE TREATMENT LED TO PROMOTER DEMETHYLATION AND RE-EXPRESSION OF BM742401 TRANSCRIPT. FUNCTIONALLY, STABLE OVEREXPRESSION OF BM742401 RESULTED IN INHIBITION OF CELLULAR PROLIFERATION AND ENHANCED APOPTOSIS THROUGH CASPASE-9-DEPENDENT INTRINSIC BUT NOT CASPASE-8-DEPENDENT EXTRINSIC APOPTOSIS PATHWAY, SUGGESTING A TUMOR SUPPRESSOR ROLE OF BM742401 IN CLL. IN PRIMARY CLL SAMPLES, METHYLATION OF BM742401 WAS DETECTED IN 43/98 (43.9%) OF PATIENTS. MOREOVER, AMONG CLL PATIENTS WITH STANDARD-RISK CYTOGENETIC ABERRATIONS, METHYLATION OF BM742401 CORRELATED WITH ADVANCED RAI STAGE (>/= STAGE 2)(P = 0.002). FURTHERMORE, BM742401 METHYLATION WAS ASSOCIATED WITH MIR-129-2 METHYLATION (P = 0.05). BM742401 IS A TUMOR SUPPRESSOR LNCRNA FREQUENTLY METHYLATED IN CLL. THE MECHANISM OF BM742401 AS A TUMOR SUPPRESSOR WARRANTS FURTHER STUDIES. 2016 19 5848 36 SUBCLONES IN B-LYMPHOMA CELL LINES: ISOGENIC MODELS FOR THE STUDY OF GENE REGULATION. GENETIC HETEROGENEITY THOUGH COMMON IN TUMORS HAS BEEN RARELY DOCUMENTED IN CELL LINES. TO EXAMINE HOW OFTEN B-LYMPHOMA CELL LINES ARE COMPRISED OF SUBCLONES, WE PERFORMED IMMUNOGLOBULIN (IG) HEAVY CHAIN HYPERMUTATION ANALYSIS. REVEALING THAT SUBCLONES ARE NOT RARE IN B-CELL LYMPHOMA CELL LINES, 6/49 IG HYPERMUTATED CELL LINES (12%) CONSISTED OF SUBCLONES WITH INDIVIDUAL IG MUTATIONS. SUBCLONES WERE ALSO IDENTIFIED IN 2/284 LEUKEMIA/LYMPHOMA CELL LINES EXHIBITING BIMODAL CD MARKER EXPRESSION. WE SUCCESSFULLY ISOLATED 10 SUBCLONES FROM FOUR CELL LINES (HG3, SU-DHL-5, TMD-8, U-2932). WHOLE EXOME SEQUENCING WAS PERFORMED TO MOLECULARLY CHARACTERIZE THESE SUBCLONES. WE DESCRIBE IN DETAIL THE CLONAL STRUCTURE OF CELL LINE HG3, DERIVED FROM CHRONIC LYMPHOCYTIC LEUKEMIA. HG3 CONSISTS OF THREE SUBCLONES EACH BEARING CLONE-SPECIFIC ABERRATIONS, GENE EXPRESSION AND DNA METHYLATION PATTERNS. WHILE DONOR PATIENT LEUKEMIC CELLS WERE CD5+, TWO OF THREE HG3 SUBCLONES HAD INDEPENDENTLY LOST THIS MARKER. CD5 ON HG3 CELLS WAS REGULATED BY EPIGENETIC/TRANSCRIPTIONAL MECHANISMS RATHER THAN BY ALTERNATIVE SPLICING AS REPORTED HITHERTO. IN CONCLUSION, WE SHOW THAT THE PRESENCE OF SUBCLONES IN CELL LINES CARRYING INDIVIDUAL MUTATIONS AND CHARACTERIZED BY SETS OF DIFFERENTIALLY EXPRESSED GENES IS NOT UNCOMMON. WE SHOW ALSO THAT THESE SUBCLONES CAN BE USEFUL ISOGENIC MODELS FOR REGULATORY AND FUNCTIONAL STUDIES. 2016 20 27 29 A B-CELL EPIGENETIC SIGNATURE DEFINES THREE BIOLOGIC SUBGROUPS OF CHRONIC LYMPHOCYTIC LEUKEMIA WITH CLINICAL IMPACT. PROSPECTIVE IDENTIFICATION OF PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) DESTINED TO PROGRESS WOULD GREATLY FACILITATE THEIR CLINICAL MANAGEMENT. RECENTLY, WHOLE-GENOME DNA METHYLATION ANALYSES IDENTIFIED THREE CLINICOBIOLOGIC CLL SUBGROUPS WITH AN EPIGENETIC SIGNATURE RELATED TO DIFFERENT NORMAL B-CELL COUNTERPARTS. HERE, WE DEVELOPED A CLINICALLY APPLICABLE METHOD TO IDENTIFY THESE SUBGROUPS AND TO STUDY THEIR CLINICAL RELEVANCE. USING A SUPPORT VECTOR MACHINE APPROACH, WE BUILT A PREDICTION MODEL USING FIVE EPIGENETIC BIOMARKERS THAT WAS ABLE TO CLASSIFY CLL PATIENTS ACCURATELY INTO THE THREE SUBGROUPS, NAMELY NAIVE B-CELL-LIKE, INTERMEDIATE AND MEMORY B-CELL-LIKE CLL. DNA METHYLATION WAS QUANTIFIED BY HIGHLY REPRODUCIBLE BISULFITE PYROSEQUENCING ASSAYS IN TWO INDEPENDENT CLL SERIES. IN THE INITIAL SERIES (N=211), THE THREE SUBGROUPS SHOWED DIFFERENTIAL LEVELS OF IGHV (IMMUNOGLOBULIN HEAVY-CHAIN LOCUS) MUTATION (P<0.001) AND VH USAGE (P<0.03), AS WELL AS DIFFERENT CLINICAL FEATURES AND OUTCOME IN TERMS OF TIME TO FIRST TREATMENT (TTT) AND OVERALL SURVIVAL (P<0.001). A MULTIVARIATE COX MODEL SHOWED THAT EPIGENETIC CLASSIFICATION WAS THE STRONGEST PREDICTOR OF TTT (P<0.001) ALONG WITH BINET STAGE (P<0.001). THESE FINDINGS WERE CORROBORATED IN A VALIDATION SERIES (N=97). IN THIS STUDY, WE DEVELOPED A SIMPLE AND ROBUST METHOD USING EPIGENETIC BIOMARKERS TO CATEGORIZE CLLS INTO THREE SUBGROUPS WITH DIFFERENT CLINICOBIOLOGIC FEATURES AND OUTCOME. 2015