1 325 151 ALLELE-SPECIFIC DNA METHYLATION LEVEL OF FKBP5 IS ASSOCIATED WITH POST-TRAUMATIC STRESS DISORDER. BACKGROUND: FK506-BINDING PROTEIN 5 (FKBP5) BINDS TO GLUCOCORTICOID RECEPTORS AND MODULATES GLUCOCORTICOID SENSITIVITY. THE FKBP5 GENE HAS BEEN IMPLICATED IN THE DYSREGULATION OF HUMAN STRESS RESPONSES, CONTRIBUTING TO THE RISK AND TREATMENT RESPONSE OF STRESS-RELATED DISORDERS. THE PRESENT STUDY EXAMINED WHETHER EPIGENETIC CHANGES IN FKBP5 ARE ASSOCIATED WITH CHRONIC POST-TRAUMATIC STRESS DISORDER (PTSD) STATUS IN THE CONTEXT OF FKBP5 GENETIC VARIATION (RS1360780 POLYMORPHISM) AMONG MALE VETERANS EXPOSED TO COMBAT TRAUMA. METHODS: KOREAN MALE VETERANS WHO SERVED ON ACTIVE DUTY DURING THE VIETNAM WAR WERE CATEGORIZED INTO 2 GROUPS: WITH PTSD (N = 123) AND WITHOUT PTSD (N = 116). THE GENOTYPE OF FKBP5 RS1360780 AND DNA METHYLATION LEVELS OF TWO CPG SITES AT THE FKBP5 INTRON 7 REGION WERE ASSESSED IN PERIPHERAL BLOOD. ANALYSIS OF COVARIANCE WAS PERFORMED TO EXAMINE MAIN AND INTERACTION EFFECTS OF PTSD STATUS AND FKBP5 GENOTYPE ON FKBP5 DNA METHYLATION LEVEL, WITH AGE, TRAUMA LEVELS, AND ALCOHOL USE AS COVARIATES. RESULTS: A SIGNIFICANT MAIN EFFECT OF FKBP5 RS1360780 AND PTSD AND AN INTERACTION EFFECT BETWEEN GENOTYPE AND PTSD STATUS WERE FOUND ON MEAN FKBP5 DNA METHYLATION LEVEL. THE T ALLELE OF RS1360780 WAS ASSOCIATED WITH LOWER FKBP5 METHYLATION LEVEL. IN ADDITION, THE PTSD GROUP SHOWED SIGNIFICANTLY HIGHER METHYLATION THAN DID THE NON-PTSD GROUP AMONG VETERANS CARRYING THE RISK T ALLELE (N = 96), WHILE NO GROUP DIFFERENCE WAS OBSERVED ON METHYLATION LEVELS AMONG VETERANS WITH THE CC GENOTYPE (N = 143). AMONG VETERANS CARRYING THE T ALLELE, FKBP5 METHYLATION LEVELS WERE POSITIVELY CORRELATED WITH THE SEVERITY OF PTSD SYMPTOMS. CONCLUSIONS: THE PRESENT STUDY DEMONSTRATED DIFFERENT FKBP5 METHYLATION LEVELS IN PTSD DEPENDING ON FKBP5 GENETIC VARIATION AMONG VETERANS EXPOSED TO COMBAT TRAUMA. THE PRESENT FINDING SUGGESTS THAT THE GENETIC AND EPIGENETIC MODULATION OF FKBP5 IS INVOLVED IN THE PATHOPHYSIOLOGY OF PTSD. FURTHER LONGITUDINAL RESEARCH INVOLVING PEOPLE EXPOSED TO TRAUMA IS REQUIRED TO UNDERSTAND CAUSAL RELATIONSHIPS OF FKBP5 IN THE DEVELOPMENT AND RECOVERY OF PTSD. 2019 2 3062 38 GENOME-WIDE DNA METHYLATION ANALYSIS REVEALS NOVEL EPIGENETIC CHANGES IN CHRONIC LYMPHOCYTIC LEUKEMIA. WE CONDUCTED A GENOME-WIDE DNA METHYLATION ANALYSIS IN CD19 (+) B-CELLS FROM CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) PATIENTS AND NORMAL CONTROL SAMPLES USING REDUCED REPRESENTATION BISULFITE SEQUENCING (RRBS). THE METHYLATION STATUS OF 1.8-2.3 MILLION CPGS IN THE CLL GENOME WAS DETERMINED; ABOUT 45% OF THESE CPGS WERE LOCATED IN MORE THAN 23,000 CPG ISLANDS (CGIS). WHILE GLOBAL CPG METHYLATION WAS SIMILAR BETWEEN CLL AND NORMAL B-CELLS, 1764 GENE PROMOTERS WERE IDENTIFIED AS BEING DIFFERENTIALLY METHYLATED IN AT LEAST ONE CLL SAMPLE WHEN COMPARED WITH NORMAL B-CELL SAMPLES. NINETEEN PERCENT OF THE DIFFERENTIALLY METHYLATED GENES WERE INVOLVED IN TRANSCRIPTIONAL REGULATION. ABERRANT HYPERMETHYLATION WAS FOUND IN ALL HOX GENE CLUSTERS AND A SIGNIFICANT NUMBER OF WNT SIGNALING PATHWAY GENES. HYPOMETHYLATION OCCURRED MORE FREQUENTLY IN THE GENE BODY INCLUDING INTRONS, EXONS, AND 3'-UTRS IN CLL. THE NFATC1 P2 PROMOTER AND FIRST INTRON WAS FOUND TO BE HYPOMETHYLATED AND CORRELATED WITH UPREGULATION OF BOTH NFATC1 RNA AND PROTEIN EXPRESSION LEVELS IN CLL SUGGESTING THAT AN EPIGENETIC MECHANISM IS INVOLVED IN THE CONSTITUTIVE ACTIVATION OF NFAT ACTIVITY IN CLL CELLS. THIS COMPREHENSIVE DNA METHYLATION ANALYSIS WILL FURTHER OUR UNDERSTANDING OF THE EPIGENETIC CONTRIBUTION TO CELLULAR DYSFUNCTION IN CLL. 2012 3 1219 33 CRISPR/CAS9 GENOME EDITING REVEALS THAT THE INTRON IS NOT ESSENTIAL FOR VAR2CSA GENE ACTIVATION OR SILENCING IN PLASMODIUM FALCIPARUM. PLASMODIUM FALCIPARUM RELIES ON MONOALLELIC EXPRESSION OF 1 OF 60 VAR VIRULENCE GENES FOR ANTIGENIC VARIATION AND HOST IMMUNE EVASION. EACH VAR GENE CONTAINS A CONSERVED INTRON WHICH HAS BEEN IMPLICATED IN PREVIOUS STUDIES IN BOTH ACTIVATION AND REPRESSION OF TRANSCRIPTION VIA SEVERAL EPIGENETIC MECHANISMS, INCLUDING INTERACTION WITH THE VAR PROMOTER, PRODUCTION OF LONG NONCODING RNAS (LNCRNAS), AND LOCALIZATION TO REPRESSIVE PERINUCLEAR SITES. HOWEVER, FUNCTIONAL STUDIES HAVE RELIED PRIMARILY ON ARTIFICIAL EXPRESSION CONSTRUCTS. USING THE RECENTLY DEVELOPED P. FALCIPARUM CLUSTERED REGULARLY INTERSPACED SHORT PALINDROMIC REPEATS (CRISPR)/CAS9 SYSTEM, WE DIRECTLY DELETED THE VAR2CSA P. FALCIPARUM 3D7_1200600 (PF3D7_1200600) ENDOGENOUS INTRON, RESULTING IN AN INTRONLESS VAR GENE IN A NATURAL, MARKER-FREE CHROMOSOMAL CONTEXT. DELETION OF THE VAR2CSA INTRON RESULTED IN AN UPREGULATION OF TRANSCRIPTION OF THE VAR2CSA GENE IN RING-STAGE PARASITES AND SUBSEQUENT EXPRESSION OF THE PFEMP1 PROTEIN IN LATE-STAGE PARASITES. INTRON DELETION DID NOT AFFECT THE NORMAL TEMPORAL REGULATION AND SUBSEQUENT TRANSCRIPTIONAL SILENCING OF THE VAR GENE IN TROPHOZOITES BUT DID RESULT IN INCREASED RATES OF VAR GENE SWITCHING IN SOME MUTANT CLONES. TRANSCRIPTIONAL REPRESSION OF THE INTRONLESS VAR2CSA GENE COULD BE ACHIEVED VIA LONG-TERM CULTURE OR PANNING WITH THE CD36 RECEPTOR, AFTER WHICH REACTIVATION WAS POSSIBLE WITH CHONDROITIN SULFATE A (CSA) PANNING. THESE DATA SUGGEST THAT THE VAR2CSA INTRON IS NOT REQUIRED FOR SILENCING OR ACTIVATION IN RING-STAGE PARASITES BUT POINT TO A SUBTLE ROLE IN REGULATION OF SWITCHING WITHIN THE VAR GENE FAMILY.IMPORTANCEPLASMODIUM FALCIPARUM IS THE MOST VIRULENT SPECIES OF MALARIA PARASITE, CAUSING HIGH RATES OF MORBIDITY AND MORTALITY IN THOSE INFECTED. CHRONIC INFECTION DEPENDS ON AN IMMUNE EVASION MECHANISM TERMED ANTIGENIC VARIATION, WHICH IN TURN RELIES ON MONOALLELIC EXPRESSION OF 1 OF ~60 VAR GENES. UNDERSTANDING ANTIGENIC VARIATION AND THE TRANSCRIPTIONAL REGULATION OF MONOALLELIC EXPRESSION IS IMPORTANT FOR DEVELOPING DRUGS AND/OR VACCINES. THE VAR GENE FAMILY ENCODES THE ANTIGENIC SURFACE PROTEINS THAT DECORATE INFECTED ERYTHROCYTES. UNTIL RECENTLY, STUDYING THE UNDERLYING GENETIC ELEMENTS THAT REGULATE MONOALLELIC EXPRESSION IN P. FALCIPARUM WAS DIFFICULT, AND MOST STUDIES RELIED ON ARTIFICIAL SYSTEMS SUCH AS EPISOMAL REPORTER GENES. OUR STUDY WAS THE FIRST TO USE CRISPR/CAS9 GENOME EDITING FOR THE FUNCTIONAL STUDY OF AN IMPORTANT, CONSERVED GENETIC ELEMENT OF VAR GENES-THE INTRON-IN AN ENDOGENOUS, EPISOME-FREE MANNER. OUR FINDINGS SHED LIGHT ON THE ROLE OF THE VAR GENE INTRON IN TRANSCRIPTIONAL REGULATION OF MONOALLELIC EXPRESSION. 2017 4 3953 28 LOCUS-SPECIFIC REVERSIBLE DNA METHYLATION REGULATES TRANSIENT IL-10 EXPRESSION IN TH1 CELLS. IL-10 IS A PLEIOTROPIC CYTOKINE WITH MULTIFACETED FUNCTIONS IN ESTABLISHING IMMUNE HOMEOSTASIS. ALTHOUGH EXPRESSED BY TH1 AND TH2 CELLS, CONVENTIONAL TH1 CELLS PRODUCE MARGINAL LEVELS OF IL-10 COMPARED WITH THEIR TH2 COUNTERPARTS. IN THIS STUDY, WE INVESTIGATED THE EPIGENETIC MECHANISMS OF IL-10 GENE EXPRESSION IN TH1 CELLS. BIOINFORMATICS EMBOSS CPG PLOT ANALYSIS AND BISULFITE PYROSEQUENCING REVEALED THREE CPG DNA METHYLATION SITES IN THE IL-10 GENE LOCUS. PROGRESSIVE DNA METHYLATION AT ALL OF THE CPG REGIONS OF INTEREST (ROIS) ESTABLISHED A REPRESSIVE PROGRAM OF IL-10 GENE EXPRESSION IN TH1 CELLS. INTERESTINGLY, TH1 CELLS TREATED WITH IL-12 AND IL-27 CYTOKINES, THEREBY MIMICKING A CHRONIC INFLAMMATORY CONDITION IN VIVO, DISPLAYED A SIGNIFICANT INCREASE IN IL-10 PRODUCTION THAT WAS ACCOMPANIED BY SELECTIVE DNA DEMETHYLATION AT ROI 3 LOCATED IN INTRON 3. IL-10-PRODUCING T CELLS ISOLATED FROM LYMPHOCYTIC CHORIOMENINGITIS VIRUS-INFECTED MICE ALSO SHOWED ENHANCED DNA DEMETHYLATION AT ROI 3. BINDING OF STAT1 AND STAT3 TO DEMETHYLATED ROI 3 ENHANCED IL-10 EXPRESSION IN AN IL-12/IL-27-DEPENDENT MANNER. ACCORDINGLY, CD4(+) T CELLS ISOLATED FROM STAT1- OR STAT3-KNOCKOUT MICE WERE SIGNIFICANTLY DEFECTIVE IN IL-10 PRODUCTION. OUR DATA SUGGEST THAT, ALTHOUGH STABLY MAINTAINED DNA METHYLATION AT THE PROMOTER MAY REPRESS IL-10 EXPRESSION IN TH1 CELLS, LOCUS-SPECIFIC REVERSIBLE DNA DEMETHYLATION MAY SERVE AS A THRESHOLD PLATFORM TO CONTROL TRANSIENT IL-10 GENE EXPRESSION. 2018 5 150 37 ABERRANT HYPOMETHYLATION OF THE CANCER-TESTIS ANTIGEN PRAME CORRELATES WITH PRAME EXPRESSION IN ACUTE MYELOID LEUKEMIA. PRAME IS A TUMOR-ASSOCIATED ANTIGEN, WHICH BELONGS TO THE FAMILY OF CANCER-TESTIS ANTIGENS (CTA). THE EXPRESSION OF CTA IS MAINLY RESTRICTED TO THE TESTIS AND VARIOUS TUMORS. IN CONTRAST TO OTHER CTA, PRAME EXPRESSION IS ALSO FREQUENTLY DETECTED IN ACUTE AND CHRONIC LEUKEMIAS. DUE TO THIS EXPRESSION PATTERN, PRAME HAS ATTRACTED GREAT INTEREST AS A PROGNOSTIC TUMOR MARKER THAT CAN BE USED FOR THE DETECTION OF MINIMAL RESIDUAL DISEASE AND AS A POTENTIAL TARGET FOR IMMUNOTHERAPY. IN ACUTE MYELOID LEUKEMIA (AML), PRAME EXPRESSION HAS BEEN OBSERVED IN 30-64% OF CASES. TO EVALUATE WHETHER EPIGENETIC MECHANISMS CONTRIBUTE TO PRAME ACTIVATION IN AML, WE STUDIED DNA METHYLATION OF 15 CPG DINUCLEOTIDES WITHIN A CPG-RICH REGION LOCATED IN THE INTRON 1 OF THE PRAME GENE. DNA METHYLATION WAS DETERMINED BY SEQUENCE ANALYSIS OF CLONED PCR PRODUCTS GENERATED FROM BISULFITE-TREATED GENOMIC DNA. METHYLATION PATTERNS WERE CORRELATED WITH PRAME MRNA LEVELS AS DETERMINED BY MICROARRAY ANALYSIS AND REAL-TIME PCR. WE FOUND ALMOST COMPLETE METHYLATION IN MONONUCLEAR BLOOD CELLS FROM TWO HEALTHY DONORS AND IN BONE MARROW CELLS OF FOUR PRAME-NEGATIVE AML PATIENTS. IN CONTRAST, THE DEGREE OF PRAME METHYLATION WAS CLEARLY REDUCED IN FOUR PRAME-POSITIVE AML BONE MARROW SAMPLES. IN PARTICULAR, THESE SAMPLES WERE CHARACTERIZED BY THE PRESENCE OF CLONES, WHICH WERE COMPLETELY DEVOID OF METHYLATION. THE SIGNIFICANT INVERSE CORRELATION BETWEEN THE DEGREE OF METHYLATION AND PRAME EXPRESSION SUGGESTS A CAUSAL ROLE OF DNA METHYLATION IN PRAME REGULATION. SUCH A ROLE IS FURTHER SUPPORTED BY THE OBSERVATION THAT TREATMENT OF PRAME-NEGATIVE CELL LINES U-937 AND THP-1 WITH THE DEMETHYLATING AGENT 5'-AZA-2'DC RESULTED IN A DOSE-RELATED UPREGULATION OF PRAME EXPRESSION. 2008 6 1198 37 CORTICOSTERONE-MEDIATED REGULATION AND FUNCTIONS OF MIR-218-5P IN RAT BRAIN. CHRONIC STRESS IS ONE OF THE KEY PRECIPITATING FACTORS IN MAJOR DEPRESSIVE DISORDER (MDD). STRESS ASSOCIATED STUDIES HAVE UNDERSCORED THE MECHANISTIC ROLE OF EPIGENETIC MASTER PLAYERS LIKE MICRORNAS (MIRNAS) IN DEPRESSION PATHOPHYSIOLOGY AT BOTH PRECLINICAL AND CLINICAL LEVELS. PREVIOUSLY, WE HAD REPORTED CHANGES IN MIR-218-5P EXPRESSION IN RESPONSE TO CORTICOSTERONE (CORT) INDUCED CHRONIC STRESS. MIR-218-5P WAS ONE OF THE MOST SIGNIFICANTLY INDUCED MIRNAS IN THE PREFRONTAL CORTEX (PFC) OF RATS UNDER CHRONIC STRESS. IN THE PRESENT REPORT, WE HAVE INVESTIGATED HOW CHRONIC CORT EXPOSURE MECHANISTICALLY AFFECTED MIR-218-5P EXPRESSION IN THE RAT BRAIN AND HOW MIR-218 COULD TRIGGER MOLECULAR CHANGES ON ITS DOWNSTREAM REGULATORY PATHWAYS. ELEVATED EXPRESSION OF MIR-218-5P WAS FOUND IN THE PFC OF CORT-TREATED RATS. A GLUCOCORTICOID RECEPTOR (GR) TARGETED CHROMATIN-IMMUNOPRECIPITATION (CHIP) ASSAY REVEALED HIGH GR OCCUPANCY ON THE PROMOTER REGION OF SLIT3 GENE HOSTING MIR-218-2 IN ITS 3RD INTRON. RNA-SEQUENCING DATA BASED ON RNA INDUCED SILENCING COMPLEX IMMUNOPRECIPITATION (RISC-IP) WITH AGO2 IN SH-SY5Y CELLS DETECTED SIX CONSISTENT TARGET GENES OF MIR-218-5P (APOL4, DTWD1, BNIP1, METTL22, SNAPC1, AND HDAC6). THE EXPRESSION OF ALL FIVE GENES, EXCEPT APOL4, WAS SUCCESSFULLY VALIDATED WITH QPCR IN CORT-TREATED RAT PFC. FURTHER, HDAC6-BASED CHIP-SEQ EXPERIMENT HELPED IN MAPPING MAJOR GENOMIC LOCI ENRICHED FOR INTERGENIC REGIONS IN THE PFC OF CORT-TREATED RAT. A PROXIMITY-BASED GENE ONTOLOGY (GO) ANALYSIS REVEALED A MAJORITY OF THE INTERGENIC SITES TO BE PART OF KEY GENES IMPLICATED IN CENTRAL NERVOUS SYSTEM FUNCTIONS, NOTABLY SYNAPSE ORGANIZATION, NEURON PROJECTION MORPHOGENESIS, AND AXONOGENESIS. OUR RESULTS SUGGEST THAT THE UPREGULATION OF MIR-218-5P IN PFC OF CORT-TREATED RATS POSSIBLY RESULTED FROM GR BIDING IN THE PROMOTER REGION OF SLIT3 GENE. INTERESTINGLY, HDAC6 WAS ONE OF THE CONSISTENT TARGET GENES POTENTIALLY FOUND TO REGULATE CNS RELATED GENES BY CHROMATIN MODIFICATION. COLLECTIVELY, THESE FINDINGS ESTABLISH THE ROLE OF MIR-218-5P IN CHRONIC STRESS AND THE EPIGENETIC FUNCTION IT PLAYS TO INDUCE CHROMATIN-BASED TRANSCRIPTIONAL CHANGES OF SEVERAL CNS GENES IN TRIGGERING STRESS-INDUCED DISORDERS, INCLUDING DEPRESSION. THIS ALSO OPENS UP THE SCOPE TO UNDERSTAND THE ROLE OF MIR-218-5P AS A POTENTIAL TARGET FOR NONCODING RNA THERAPEUTICS IN CLINICAL DEPRESSION. 2022 7 3460 38 HYPOMETHYLATION OF THE IL8 PROMOTER IN NASAL EPITHELIAL CELLS OF PATIENTS WITH CHRONIC RHINOSINUSITIS WITH NASAL POLYPS. BACKGROUND: IL-8 IS AN IMPORTANT CHEMOKINE IMPLICATED IN THE PATHOGENESIS OF CHRONIC RHINOSINUSITIS (CRS), BUT LITTLE IS KNOWN ABOUT EPIGENETIC REGULATION OF IL8 IN THE PATHOGENESIS OF CRS. OBJECTIVE: WE SOUGHT TO INVESTIGATE THE RELATIONSHIP BETWEEN THE DNA METHYLATION LEVEL IN THE IL8 PROXIMAL PROMOTER AND CRS IN HAN CHINESE SUBJECTS. METHODS: PATIENTS WITH CHRONIC RHINOSINUSITIS WITH NASAL POLYPS (CRSWNP; N = 187), PATIENTS WITH CHRONIC RHINOSINUSITIS WITHOUT NASAL POLYPS (CRSSNP; N = 89), AND CONTROL SUBJECTS (N = 57) WERE ENROLLED IN 2 INDEPENDENT COHORTS. PURIFIED HUMAN NASAL EPITHELIAL CELLS FROM EACH PARTICIPANT WERE ASSESSED FOR PERCENTAGE DNA METHYLATION OF CPG SITES IN THE IL8 PROXIMAL PROMOTER BY USING BISULFITE PYROSEQUENCING AND FOR FUNCTIONAL ASPECTS OF METHYLATION STATUS BY USING IN VITRO ASSAYS. RESULTS: DNA METHYLATION OF CPG SITES 1, 2, AND 3, RESPECTIVELY, IN THE IL8 PROXIMAL PROMOTER WAS SIGNIFICANTLY DECREASED IN HUMAN NASAL EPITHELIAL CELLS OF PATIENTS WITH CRSWNP COMPARED WITH THAT IN PATIENTS WITH CRSSNP (P < .001) AND CONTROL SUBJECTS (P < .001). PERCENTAGE OF DNA METHYLATION OF THE CPG3 SITE WAS CORRELATED NEGATIVELY WITH BOTH TISSUE EOSINOPHILIC CATIONIC PROTEIN (P < .01) AND MYELOPEROXIDASE (P < .05) LEVELS. IL-1BETA (P < .001) AND TNF-ALPHA (P < .01) SIGNIFICANTLY INCREASED IL8 EXPRESSION ACCOMPANIED BY A REDUCTION IN METHYLATION AT THE CPG3 SITE (P < .001). ELECTROPHORETIC MOBILITY SHIFT ASSAYS DEMONSTRATED THAT METHYLATION STATUS OF CPG3 CHANGED THE BINDING OF OCTAMER-BINDING TRANSCRIPTION FACTOR 1 AND NUCLEAR FACTOR KAPPAB. CONCLUSION: DECREASED DNA METHYLATION OF PARTICULARLY CPG SITES IN THE IL8 PROXIMAL PROMOTER MIGHT PLAY A ROLE IN THE PATHOGENESIS OF CRSWNP. 2019 8 1620 28 DNA METHYLTRANSFERASE-MEDIATED TRANSCRIPTIONAL SILENCING IN MALIGNANT GLIOMA: A COMBINED WHOLE-GENOME MICROARRAY AND PROMOTER ARRAY ANALYSIS. EPIGENETIC INACTIVATION OF TUMOR SUPPRESSOR GENES IS A COMMON FEATURE IN HUMAN CANCER. PROMOTER HYPERMETHYLATION AND HISTONE DEACETYLATION ARE REVERSIBLE EPIGENETIC MECHANISMS ASSOCIATED WITH TRANSCRIPTIONAL REGULATION. DNA METHYLTRANSFERASES (DNMT1 AND DNMT3B) REGULATE AND MAINTAIN PROMOTER METHYLATION AND ARE OVEREXPRESSED IN HUMAN CANCER. WE PERFORMED WHOLE-GENOME MICROARRAY ANALYSIS TO IDENTIFY GENES WITH ALTERED EXPRESSION AFTER RNAI-INDUCED SUPPRESSION OF DNMT IN A GLIOBLASTOMA MULTIFORME (GBM) CELL LINE. WE THEN IDENTIFIED GENES WITH BOTH DECREASED EXPRESSION AND EVIDENCE OF PROMOTER CPG ISLAND HYPERMETHYLATION IN GBM TISSUE SAMPLES USING A COMBINED WHOLE-GENOME MICROARRAY TRANSCRIPTOME ANALYSIS IN CONJUNCTION WITH A PROMOTER ARRAY ANALYSIS AFTER DNA IMMUNOPRECIPITATION WITH ANTI-5-METHYLCYTIDINE. DNMT1 AND 3B KNOCKDOWN RESULTED IN THE RESTORED EXPRESSION OF 308 GENES THAT ALSO CONTAINED PROMOTER REGION HYPERMETHYLATION. OF THESE, 43 WERE ALSO FOUND TO BE DOWNREGULATED IN GBM TISSUE SAMPLES. THREE DOWNREGULATED GENES WITH HYPERMETHYLATED PROMOTERS AND RESTORED EXPRESSION IN RESPONSE TO ACUTE DNMT SUPPRESSION WERE ASSAYED FOR METHYLATION CHANGES USING BISULFITE SEQUENCE ANALYSIS OF THE PROMOTER REGION AFTER CHRONIC DNMT SUPPRESSION. RESTORATION OF GENE EXPRESSION WAS NOT ASSOCIATED WITH CHANGES IN PROMOTER REGION METHYLATION, BUT RATHER WITH CHANGES IN HISTONE METHYLATION AND CHROMATIN CONFORMATION. TWO OF THE IDENTIFIED GENES EXHIBITED GROWTH SUPPRESSIVE ACTIVITY IN IN VITRO ASSAYS. COMBINING TARGETED GENETIC MANIPULATIONS WITH COMPREHENSIVE GENOMIC AND EXPRESSION ANALYSES PROVIDES A POTENTIALLY POWERFUL NEW APPROACH FOR IDENTIFYING EPIGENETICALLY REGULATED GENES IN GBM. 2009 9 4581 30 N-METHYL-D-ASPARTATE 2B RECEPTOR SUBTYPE (NR2B) PROMOTER METHYLATION IN PATIENTS DURING ALCOHOL WITHDRAWAL. NMDA RECEPTORS AND ESPECIALLY THE NR2B RECEPTOR SUBTYPE PLAY A CRUCIAL ROLE DURING CHRONIC ETHANOL CONSUMPTION AND ALCOHOL WITHDRAWAL. THEREFORE, THE NR2B RECEPTOR SUBTYPE EXPRESSION IN PERIPHERAL BLOOD CELLS OF 32 MALE PATIENTS SUFFERING FROM ALCOHOL DEPENDENCY WERE ASSESSED THROUGH QUANTITATIVE RT-PCR AND TO EXPLORE REGULATING EPIGENETIC MECHANISMS, A METHYLATION ANALYSIS WAS CONDUCTED USING BISULFITE SEQUENCING OF A FRAGMENT OF THE NR2B PROMOTER REGION. THE EXPRESSION OF THE NR2B RECEPTOR INCREASED SIGNIFICANTLY DURING THE FIRST 24 H OF WITHDRAWAL TREATMENT (DAY 1; T = 4.1, P = 0.001), AND ALSO ON AND DAY 3 (T = 2.4; P = 0.029). THE SEVERITY OF ALCOHOL DRINKING PATTERN, MEASURED BY LIFETIME DRINKING AND DAILY ETHANOL INTAKE, WAS NEGATIVELY CORRELATED WITH THE METHYLATION OF A DEFINED CLUSTER OF FIVE CPG-SITES WITHIN THE NR2B PROMOTER (LIFETIME DRINKING: SPEARMAN'S RHO = -0.55; P = 0.013; DAILY ETHANOL INTAKE: RHO = -0.46; P = 0.043). THESE FINDINGS MIGHT EXPLAIN THE OBSERVATION OF AN IMPACT OF ALCOHOL CONSUMPTION PATTERNS ON THE GRAVITY OF WITHDRAWAL SYMPTOMS. 2009 10 2035 49 EPIGENETIC CHANGES OF FKBP5 AS A LINK CONNECTING GENETIC AND ENVIRONMENTAL RISK FACTORS WITH STRUCTURAL AND FUNCTIONAL BRAIN CHANGES IN MAJOR DEPRESSION. THE GENE FOR THE GLUCOCORTICOID RECEPTOR REGULATOR FK506 BINDING PROTEIN 5 (FKBP5) PLAYS A ROLE FOR RISK, RESPONSE TO TREATMENT, AND CHANGES IN BRAIN AREAS IN MAJOR DEPRESSIVE DISORDER (MDD). CHRONIC STRESS IS ASSOCIATED WITH LOWER METHYLATION OF FKBP5. OUR AIM WAS TO INVESTIGATE WHETHER METHYLATION OF FKBP5 REFLECTED EXPOSURE TO CHILDHOOD ADVERSITY IN MDD AND CONTROLS AND WHETHER IT WAS ASSOCIATED WITH STRUCTURE AND FUNCTION OF EMOTIONAL PROCESSING REGIONS. FKBP5 INTRON 7 GR RESPONSE ELEMENT REGION METHYLATION AND RS1360780 ALLELIC STATUS WERE ASSESSED FROM WHOLE BLOOD IN 56 MDD ADULTS AND 50 CONTROLS. USING MAGNETIC RESONANCE IMAGING, WE ASSESSED GRAY MATTER CONCENTRATION OF SELECTED AREAS AND THEIR FUNCTION DURING VALENCE RECOGNITION OF EMOTIONAL IMAGES. CHILDHOOD ADVERSITY WAS INVESTIGATED USING THE CHILDHOOD TRAUMA QUESTIONNAIRE. IN MDD PATIENTS CARRYING THE HIGH-RISK T ALLELE OF RS1360780, LOWER METHYLATION OF FKBP5 WAS PREDICTED BY CHILDHOOD ADVERSITY (F=4.95, P=0.04). IN ALL PARTICIPANTS, LOWER FKBP5 INTRON METHYLATION LEVELS WERE ASSOCIATED WITH REDUCED GRAY MATTER CONCENTRATION IN THE INFERIOR FRONTAL ORBITAL GYRUS BILATERALLY (WALD CHI-SQUARE=11.93, P(FDR)<0.01) AND, IN MDD, WITH ITS BILATERALLY HIGHER ACTIVATION DURING VALENCE RECOGNITION (WALD CHI-SQUARE=5.58, P=0.02). ACTIVATION OF THIS REGION, REGARDLESS OF SIDE, WAS FOUND TO BE LOWER IN MDD COMPARED TO CONTROLS (WALD CHI-SQUARE=3.88, P=0.049) AND TO BE INVERSELY CORRELATED WITH DEPRESSION SEVERITY (WALD CHI-SQUARE=4.65, P=0.03). OUR FINDINGS SUPPORT THE HYPOTHESIS THAT, IN GENETICALLY PREDISPOSED INDIVIDUALS CARRYING A HIGH-RISK VARIANT OF THE GENE, CHILDHOOD MALTREATMENT MIGHT INDUCE DEMETHYLATION OF FKBP5. THIS IS IN TURN ASSOCIATED WITH STRUCTURAL AND FUNCTIONAL CHANGES IN THE INFERIOR FRONTAL ORBITAL GYRUS, A RELEVANT AREA FOR THE CLINICAL SYMPTOMS OF MDD. 2018 11 6589 39 TUMOR NECROSIS FACTOR-ALPHA GENE PROMOTER METHYLATION IN JAPANESE ADULTS WITH CHRONIC PERIODONTITIS AND RHEUMATOID ARTHRITIS. BACKGROUND AND OBJECTIVE: OVER-EXPRESSION OF TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA) PLAYS A PATHOLOGICAL ROLE IN CHRONIC PERIODONTITIS (CP) AND RHEUMATOID ARTHRITIS (RA), WHICH MIGHT BE REGULATED BY THE EPIGENETIC MECHANISM. THE AIM OF THE PRESENT STUDY WAS TO EVALUATE WHETHER THERE IS A UNIQUE METHYLATION PROFILE OF THE TNF-ALPHA GENE PROMOTER IN BLOOD CELLS OF INDIVIDUALS WITH CP AND RA. MATERIAL AND METHODS: THE STUDY PARTICIPANTS CONSISTED OF 30 JAPANESE ADULTS WITH RA (RA GROUP), 30 RACE-MATCHED ADULTS WITH CP ONLY (CP GROUP) AND 30 RACE-MATCHED HEALTHY CONTROLS (H GROUP). GENOMIC DNA ISOLATED FROM PERIPHERAL BLOOD WAS MODIFIED BY SODIUM BISULFITE AND ANALYZED, BY DIRECT SEQUENCING, TO INVESTIGATE DNA METHYLATION OF THE TNF-ALPHA GENE PROMOTER REGION. THE LEVEL OF TNF-ALPHA PRODUCED IN MONONUCLEAR CELLS STIMULATED WITH PORPHYROMONAS GINGIVALIS LIPOPOLYSACCHARIDE WAS DETERMINED USING ELISA. RESULTS: TWELVE CYTOSINE-GUANINE DINUCLEOTIDE (CPG) MOTIFS WERE IDENTIFIED IN THE TNF-ALPHA PROMOTER FRAGMENT FROM -343 TO +57 BP. THE CP GROUP SHOWED A SIGNIFICANTLY HIGHER METHYLATION RATE AND FREQUENCY AT -72 BP THAN THE H GROUP (P < 0.01). THE RA GROUP EXHIBITED SIGNIFICANTLY HIGHER METHYLATION RATES AT SEVEN CPG MOTIFS (-302, -163, -119, -72, -49, -38 AND +10 BP), AND SIGNIFICANTLY HIGHER METHYLATION FREQUENCIES AT SIX CPG MOTIFS (-163, -119, -72, -49, -38 AND +10 BP), THAN THE H GROUP (P < 0.01 FOR ALL COMPARISONS). THE LEVELS OF TNF-ALPHA PRODUCED WERE SIGNIFICANTLY DIFFERENT BETWEEN INDIVIDUALS WITH AND WITHOUT METHYLATION AT -163 BP (P = 0.03). CONCLUSION: THESE RESULTS SUGGEST THAT THE HYPERMETHYLATED STATUS OF CPG MOTIFS IN THE TNF-ALPHA GENE PROMOTER IN BLOOD CELLS MAY BE UNIQUE TO JAPANESE ADULTS WITH CP AND RA. 2016 12 1211 30 CPG ISLAND METHYLATION AND EXPRESSION OF THE SECRETED FRIZZLED-RELATED PROTEIN GENE FAMILY IN CHRONIC LYMPHOCYTIC LEUKEMIA. B-CELL CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) IS CHARACTERIZED BY A CLONAL ACCUMULATION OF MATURE NEOPLASTIC B CELLS INDICATING DISRUPTION OF APOPTOSIS. RESTRICTION LANDMARK GENOME SCANNING WAS DONE TO IDENTIFY NOVEL TARGET GENES SILENCED BY CPG ISLAND METHYLATION IN CLL. SECRETED FRIZZLED-RELATED PROTEIN 4 (SFRP4), A NEGATIVE REGULATOR OF THE WNT SIGNALING PATHWAY, WAS FOUND TO BE FREQUENTLY METHYLATED IN CLL SAMPLES. WNT SIGNALING HAS BEEN SHOWN TO CONTROL NORMAL APOPTOTIC BEHAVIOR AND IS REQUIRED FOR NORMAL B-CELL DEVELOPMENT WHEREAS ABERRANT ACTIVATION OF THIS PATHWAY HAS BEEN OBSERVED IN CLL. WE SHOW ABERRANT DNA METHYLATION AND SILENCING OF SFRP4, AS WELL AS OF ADDITIONAL SFRP FAMILY MEMBERS, IN PRIMARY CLL SAMPLES. INDUCTION OF THEIR EXPRESSION IN A DOSE-DEPENDENT MANNER FOLLOWING TREATMENT WITH A DEMETHYLATING AGENT, 5-AZA-2'-DEOXYCYTIDINE, WAS SHOWN. OF THE FIVE SFRP FAMILY MEMBERS STUDIED IN DETAIL, SFRP1 WAS HYPERMETHYLATED AND DOWN-REGULATED IN ALL CLL PATIENT SAMPLES STUDIED, SUGGESTING THAT THIS EPIGENETIC EVENT IS A CRITICAL STEP DURING LEUKEMOGENESIS. OUR RESULTS SUGGEST THAT SILENCING OF SFRPS BY CPG ISLAND METHYLATION IS ONE POSSIBLE MECHANISM CONTRIBUTING TO ABERRANT ACTIVATION OF WNT SIGNALING PATHWAY IN CLL. 2006 13 3058 34 GENOME-WIDE DNA METHYLATION ANALYSIS IN RENAL ISCHEMIA REPERFUSION INJURY. RENAL ISCHEMIA REPERFUSION INJURY (IRI) IS FREQUENTLY ENCOUNTERED AFTER KIDNEY TRANSPLANTATION AND IS A LEADING CAUSE OF ACUTE RENAL FAILURE. ABERRANT GENE EXPRESSION AND EPIGENETIC REGULATION OCCUR DURING THE PATHOPHYSIOLOGY OF IRI. IN THIS STUDY, WE USED REDUCED REPRESENTATION BISULFITE SEQUENCING TO IDENTIFY THE DNA METHYLOME OF RENAL TISSUES DURING IRI AND THE SHAM-OPERATED TISSUES IN C57BL/6. THE METHYLATION STATUS OF APPROXIMATELY 1.29 MILLION CPGS LOCATED IN AN AVERAGE OF 11554 CPG ISLANDS AND 17113 PROMOTERS IN GENOME WAS DETERMINED. COMPARED WITH SHAM-OPERATED KIDNEY, BOTH ACUTE AND CHRONIC IRI SIGNIFICANTLY DECREASED THE GENOME-WIDE METHYLATION LEVEL (1.1-1.8%) AND THE CPG METHYLATION LEVEL IN THE PROMOTER (0.4-0.5%), CPG ISLAND (0.5-1.3%), EXON (1.3-1.9%), AND INTRON (0.8-1.1%; ALL P<10(-153)). THE PROMOTERS OF 200, 191, AND 79 GENES WERE DIFFERENTIALLY METHYLATED IN THE RENAL TISSUES AT 24H, 7DAYS, AND AT BOTH THE TIME POINTS AFTER IRI, RESPECTIVELY. AMONG THE 79 GENES, WHICH WERE CONSISTENTLY EPIGENETICALLY REGULATED AT TWO TIME POINTS, 18 GENES (22.8%) SHOWED DIFFERENTIAL EXPRESSION AFTER IRI IN A PREVIOUS STUDY OF RENAL EXPRESSION. WE VALIDATED THE PROMOTER METHYLATION STATUS AND EXPRESSION OF FIVE OUT OF THE 18 GENES, INCLUDING 2700049A03RIK, CCR9, FGD2, PFKFB3, AND SDC4 IN AN INDEPENDENT RENAL TISSUE COHORT. WE FOUND THAT ALL THE FIVE GENES EXHIBITED ALTERED METHYLATION OF PROMOTER (P=0.009-0.0001) FOLLOWING RENAL INJURY. THE PROMOTER METHYLATION OF 2700049A03RIK AND CCR9 WAS NEGATIVELY CORRELATED WITH THEIR MRNA EXPRESSION IN RENAL TISSUES (P<0.001 AND P<0.0001, RESPECTIVELY). OUR STUDY NOT ONLY DEMONSTRATED A GENOME-WIDE DNA METHYLATION PATTERN IN THE IR-INJURED RENAL TISSUE FOR THE FIRST TIME, BUT ALSO INDICATED THAT THE REGULATION OF PROMOTER METHYLATION IS AN IMPORTANT MECHANISM UNDERLYING PERSISTENT ALTERATION OF GENE EXPRESSION. 2017 14 3444 27 HYPERMETHYLATION OF E-CADHERIN IN LEUKEMIA. E-CADHERIN GENE IS OFTEN TERMED A "METASTASIS SUPPRESSOR" GENE BECAUSE THE E-CADHERIN PROTEIN CAN SUPPRESS TUMOR CELL INVASION AND METASTASIS. INACTIVATION OF THE E-CADHERIN GENE OCCURS IN UNDIFFERENTIATED SOLID TUMORS BY BOTH GENETIC AND EPIGENETIC MECHANISMS; HOWEVER, THE ROLE OF E-CADHERIN IN HEMATOLOGIC MALIGNANCIES IS ONLY NOW BEING RECOGNIZED. E-CADHERIN EXPRESSION IS ESSENTIAL FOR ERYTHROBLAST AND NORMOBLAST MATURATION, YET EXPRESSION IS REDUCED OR ABSENT IN LEUKEMIC BLAST CELLS. THIS STUDY EXAMINED THE MESSENGER RNA (MRNA) AND PROTEIN EXPRESSION OF THE E-CADHERIN GENE IN BONE MARROW AND BLOOD SAMPLES FROM NORMAL DONORS AND PATIENTS WITH LEUKEMIA. WE FOUND THAT ALL NORMAL DONOR SAMPLES EXPRESSED E-CADHERIN MRNA, WHEREAS BOTH SAMPLES OF ACUTE MYELOGENOUS LEUKEMIA AND CHRONIC LYMPHOCYTIC LEUKEMIA HAD A SIGNIFICANT REDUCTION OR ABSENCE OF EXPRESSION. HOWEVER, NORMAL BLAST COUNTERPARTS EXPRESSED ONLY A LOW LEVEL OF E-CADHERIN SURFACE PROTEIN. SODIUM BISULPHITE GENOMIC SEQUENCING WAS USED TO FULLY CHARACTERIZE THE METHYLATION PATTERNS OF THE CPG ISLAND ASSOCIATED WITH THE E-CADHERIN GENE PROMOTER IN THOSE SAMPLES WITH MATCHED DNA. ALL OF THE NORMAL CONTROL SAMPLES WERE ESSENTIALLY UNMETHYLATED; HOWEVER, 14 OF 18 (78%) OF THE LEUKEMIA SAMPLES HAD ABNORMAL HYPERMETHYLATION OF THE E-CADHERIN CPG ISLAND. IN FACT BOTH ALLELES OF THE E-CADHERIN GENE WERE OFTEN HYPERMETHYLATED. WE CONCLUDE THE E-CADHERIN GENE IS A COMMON TARGET FOR HYPERMETHYLATION IN HEMATOLOGIC MALIGNANCIES. 2000 15 3783 37 INTERFERON-GAMMA PROMOTER HYPOMETHYLATION AND INCREASED EXPRESSION IN CHRONIC PERIODONTITIS. AIM: THE GOAL OF THIS INVESTIGATION WAS TO DETERMINE WHETHER EPIGENETIC MODIFICATIONS IN THE IFNG PROMOTER ARE ASSOCIATED WITH AN INCREASE OF IFNG TRANSCRIPTION IN DIFFERENT STAGES OF PERIODONTAL DISEASES. MATERIALS AND METHODS: DNA WAS EXTRACTED FROM GINGIVAL BIOPSY SAMPLES COLLECTED FROM 47 TOTAL SITES FROM 47 DIFFERENT SUBJECTS: 23 PERIODONTALLY HEALTHY SITES, 12 EXPERIMENTALLY INDUCED GINGIVITIS SITES AND 12 CHRONIC PERIODONTITIS SITES. LEVELS OF DNA METHYLATION WITHIN THE IFNG PROMOTER CONTAINING SIX CPG DINUCLEOTIDES WERE DETERMINED USING PYROSEQUENCING TECHNOLOGY. INTERFERON GAMMA MRNA EXPRESSION WAS ANALYSED BY QUANTITATIVE POLYMERASE CHAIN REACTIONS USING ISOLATED RNA FROM PART OF THE BIOLOGICAL SAMPLES MENTIONED ABOVE. RESULTS: THE METHYLATION LEVEL OF ALL SIX ANALYSED CPG SITES WITHIN THE IFNG PROMOTER REGION IN THE PERIODONTITIS BIOPSIES 52% [INTERQUARTILE RANGE, IQR (43.8%, 63%)] WAS SIGNIFICANTLY LOWER THAN PERIODONTALLY HEALTHY SAMPLES 62% [IQR (51.3%, 74%)], P=0.007 AND GINGIVITIS BIOPSIES 63% [IQR (55%, 74%)], P=0.02. THE TRANSCRIPTIONAL LEVEL OF IFNG IN PERIODONTITIS BIOPSIES WAS 1.96-FOLD AND SIGNIFICANTLY HIGHER THAN TISSUES WITH PERIODONTAL HEALTH (P=0.04). ALTHOUGH THE MRNA LEVEL FROM EXPERIMENTAL GINGIVITIS SAMPLES EXHIBITED AN 8.5-FOLD INCREASE AS COMPARED WITH PERIODONTALLY HEALTHY SAMPLES, NO SIGNIFICANT METHYLATION DIFFERENCE WAS OBSERVED IN EXPERIMENTAL GINGIVITIS SAMPLE. CONCLUSIONS: A HYPOMETHYLATION PROFILE WITHIN IFNG PROMOTER REGION IS RELATED TO AN INCREASE OF IFNG TRANSCRIPTION PRESENT IN THE CHRONIC PERIODONTITIS BIOPSIES, WHILE SUCH AN INCREASE OF IFNG IN EXPERIMENTALLY INDUCED GINGIVITIS SEEMS INDEPENDENT OF PROMOTER METHYLATION ALTERATION. 2010 16 1495 26 DNA HYPERMETHYLATION OF CELL CYCLE (P15 AND P16) AND APOPTOTIC (P14, P53, DAPK AND TMS1) GENES IN PERIPHERAL BLOOD OF LEUKEMIA PATIENTS. ABERRANT DNA METHYLATION OF TUMOR SUPPRESSOR GENES HAS BEEN REPORTED IN ALL MAJOR TYPES OF LEUKEMIA WITH POTENTIAL INVOLVEMENT IN THE INACTIVATION OF REGULATORY CELL CYCLE AND APOPTOSIS GENES. HOWEVER, MOST OF THE PREVIOUS REPORTS DID NOT SHOW THE EXTENT OF CONCURRENT METHYLATION OF MULTIPLE GENES IN THE FOUR LEUKEMIA TYPES. HERE, WE ANALYZED SIX KEY GENES (P14, P15, P16, P53, DAPK AND TMS1) FOR DNA METHYLATION USING METHYLATION SPECIFIC PCR TO ANALYZE PERIPHERAL BLOOD OF 78 LEUKEMIA PATIENTS (24 CML, 25 CLL, 12 AML, AND 17 ALL) AND 24 HEALTHY VOLUNTEERS. IN CML, METHYLATION WAS DETECTED FOR P15 (11%), P16 (9%), P53 (23%) AND DAPK (23%), IN CLL, P14 (25%), P15 (19%), P16 (12%), P53 (17%) AND DAPK (36%), IN AML, P14 (8%), P15 (45%), P53 (9%) AND DAPK (17%) AND IN ALL, P15 (14%), P16 (8%), AND P53 (8%). THIS STUDY HIGHLIGHTED AN ESSENTIAL ROLE OF DAPK METHYLATION IN CHRONIC LEUKEMIA IN CONTRAST TO P15 METHYLATION IN THE ACUTE CASES, WHEREAS TMS1 HYPERMETHYLATION WAS ABSENT IN ALL CASES. FURTHERMORE, HYPERMETHYLATION OF MULTIPLE GENES PER PATIENT WAS OBSERVED, WITH OBVIOUS SELECTIVENESS IN THE 9P21 CHROMOSOMAL REGION GENES (P14, P15 AND P16). INTERESTINGLY, METHYLATION OF P15 INCREASED THE RISK OF METHYLATION IN P53, AND VICE VERSA, BY FIVE FOLDS (P=0.03) INDICATING POSSIBLE SYNERGISTIC EPIGENETIC DISRUPTION OF DIFFERENT PHASES OF THE CELL CYCLE OR BETWEEN THE CELL CYCLE AND APOPTOSIS. THE INVESTIGATION OF MULTIPLE RELATIONSHIPS BETWEEN METHYLATED GENES MIGHT SHED LIGHT ON TUMOR SPECIFIC INACTIVATION OF THE CELL CYCLE AND APOPTOTIC PATHWAYS. 2014 17 1132 30 COMPREHENSIVE DNA METHYLATION ANALYSIS USING A METHYL-CPG-BINDING DOMAIN CAPTURE-BASED METHOD IN CHRONIC LYMPHOCYTIC LEUKEMIA PATIENTS. THE ROLE OF LONG NONCODING RNAS (LNCRNAS) IN CANCER IS COMING TO THE FOREFRONT DUE TO GROWING INTEREST IN UNDERSTANDING THEIR MECHANISTIC FUNCTIONS DURING CANCER DEVELOPMENT AND PROGRESSION. DESPITE THIS, THE GLOBAL EPIGENETIC REGULATION OF LNCRNAS AND REPETITIVE SEQUENCES IN CANCER HAS NOT BEEN WELL INVESTIGATED, PARTICULARLY IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). THIS STUDY FOCUSES ON A UNIQUE APPROACH: THE IMMUNOPRECIPITATION-BASED CAPTURE OF DOUBLE-STRANDED, METHYLATED DNA FRAGMENTS USING METHYL-BINDING DOMAIN (MBD) PROTEINS, FOLLOWED BY NEXT-GENERATION SEQUENCING (MBD-SEQ). CLL PATIENT SAMPLES BELONGING TO TWO PROGNOSTIC SUBGROUPS (5 IGVH MUTATED SAMPLES + 5 IGVH UNMUTATED SAMPLES) WERE USED IN THIS STUDY. ANALYSIS REVEALED 5,800 HYPERMETHYLATED AND 12,570 HYPOMETHYLATED CLL-SPECIFIC DIFFERENTIALLY METHYLATED GENES (CLLDMGS) COMPARED TO NORMAL HEALTHY CONTROLS. IMPORTANTLY, THESE RESULTS IDENTIFIED SEVERAL CLL-SPECIFIC, DIFFERENTIALLY METHYLATED LNCRNAS, REPETITIVE ELEMENTS, AND PROTEIN-CODING GENES WITH POTENTIAL PROGNOSTIC VALUE. THIS WORK OUTLINES A DETAILED PROTOCOL FOR AN MBD-SEQ AND BIOINFORMATICS PIPELINE DEVELOPED FOR THE COMPREHENSIVE ANALYSIS OF GLOBAL METHYLATION PROFILES IN HIGHLY CPG-RICH REGIONS USING CLL PATIENT SAMPLES. FINALLY, A PROTEIN-CODING GENE AND AN LNCRNA WERE VALIDATED USING PYROSEQUENCING, WHICH IS A HIGHLY QUANTITATIVE METHOD TO ANALYZE CPG METHYLATION LEVELS TO FURTHER CORROBORATE THE FINDINGS FROM THE MBD-SEQ PROTOCOL. 2017 18 2355 33 EPIGENETIC REGULATION OF PRAME GENE IN CHRONIC MYELOID LEUKEMIA. TUMOR ASSOCIATED ANTIGENS (TAA) PROVIDE ATTRACTIVE TARGETS FOR CANCER-SPECIFIC IMMUNOTHERAPY. PRAME IS A TAA GENE UP-REGULATED IN ADVANCED PHASES OF CHRONIC MYELOID LEUKEMIA (CML). TO DATE, MOLECULAR MECHANISMS FOR THE EXPRESSION OF PRAME HAVE NEVER BEEN STUDIED. WE FOUND THAT SOME PH'-POSITIVE CELL LINES DID NOT EXPRESS PRAME. THE EXPRESSION OF PRAME WAS RESTORED IN THESE CELL LINES BY TREATMENT WITH 5'-AZA-2'-DEOXYCYTIDINE, SUGGESTING THAT THE EXPRESSION OF PRAME IS MAINLY SUPPRESSED BY HYPERMETHYLATION. BISULFITE SEQUENCING ANALYSIS OF THE CPG SITES OF THE PRAME EXON 2 IN THESE CANCER CELL LINES REVEALED A CLOSE RELATIONSHIP BETWEEN THE METHYLATION STATUS OF THE PRAME GENE AND ITS EXPRESSION. A METHYLATION-SPECIFIC PCR ANALYSIS DEMONSTRATED THAT HYPOMETHYLATION OF PRAME WAS SIGNIFICANTLY MORE FREQUENT IN CML BLAST CRISIS (70%) THAN IN CHRONIC PHASE (36%) (P=0.01) AND WAS CORRELATED WITH HIGH EXPRESSION LEVELS OF PRAME TRANSCRIPTS (P<0.0001). THESE RESULTS SUGGEST THAT HYPOMETHYLATION OF PRAME UP-REGULATES ITS EXPRESSION IN CML AND MIGHT PLAY A SIGNIFICANT ROLE IN THE PROGRESSION OF THE DISEASE. 2007 19 3138 38 GLOBAL DNA METHYLATION PROFILING REVEALS NEW INSIGHTS INTO EPIGENETICALLY DEREGULATED PROTEIN CODING AND LONG NONCODING RNAS IN CLL. BACKGROUND: METHYL-CPG-BINDING DOMAIN PROTEIN ENRICHED GENOME-WIDE SEQUENCING (MBD-SEQ) IS A ROBUST AND POWERFUL METHOD FOR ANALYZING METHYLATED CPG-RICH REGIONS WITH COMPLETE GENOME-WIDE COVERAGE. IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), THE ROLE OF CPG METHYLATED REGIONS ASSOCIATED WITH TRANSCRIBED LONG NONCODING RNAS (LNCRNA) AND REPETITIVE GENOMIC ELEMENTS ARE POORLY UNDERSTOOD. BASED ON MBD-SEQ, WE CHARACTERIZED THE GLOBAL METHYLATION PROFILE OF HIGH CPG-RICH REGIONS IN DIFFERENT CLL PROGNOSTIC SUBGROUPS BASED ON IGHV MUTATIONAL STATUS. RESULTS: OUR STUDY IDENTIFIED 5800 HYPERMETHYLATED AND 12,570 HYPOMETHYLATED CLL-SPECIFIC DIFFERENTIALLY METHYLATED GENES (CLLDMGS) COMPARED TO NORMAL CONTROLS. FROM CLLDMGS, 40 % OF HYPERMETHYLATED AND 60 % OF HYPOMETHYLATED GENES WERE MAPPED TO NONCODING RNAS. IN ADDITION, WE FOUND THAT THE MAJOR REPETITIVE ELEMENTS SUCH AS SHORT INTERSPERSED ELEMENTS (SINE) AND LONG INTERSPERSED ELEMENTS (LINE) HAVE A HIGH PERCENTAGE OF CLLDMRS (DIFFERENTIALLY METHYLATED REGIONS) IN IGHV SUBGROUPS COMPARED TO NORMAL CONTROLS. FINALLY, TWO NOVEL LNCRNAS (HYPERMETHYLATED CRNDE AND HYPOMETHYLATED AC012065.7) WERE VALIDATED IN AN INDEPENDENT CLL SAMPLE COHORT (48 SAMPLES) COMPARED WITH 6 NORMAL SORTED B CELL SAMPLES USING QUANTITATIVE PYROSEQUENCING ANALYSIS. THE METHYLATION LEVELS SHOWED AN INVERSE CORRELATION TO GENE EXPRESSION LEVELS ANALYZED BY REAL-TIME QUANTITATIVE PCR. NOTABLY, SURVIVAL ANALYSIS REVEALED THAT HYPERMETHYLATION OF CRNDE AND HYPOMETHYLATION OF AC012065.7 CORRELATED WITH AN INFERIOR OUTCOME. CONCLUSIONS: THUS, OUR COMPREHENSIVE METHYLATION ANALYSIS BY MBD-SEQ PROVIDED NOVEL HYPER AND HYPOMETHYLATED LONG NONCODING RNAS, REPETITIVE ELEMENTS, ALONG WITH PROTEIN CODING GENES AS POTENTIAL EPIGENETIC-BASED CLL-SIGNATURE GENES INVOLVED IN DISEASE PATHOGENESIS AND PROGNOSIS. 2016 20 2436 35 EPIGENETIC SILENCING OF SOCS3 IDENTIFIES A SUBSET OF PROSTATE CANCER WITH AN AGGRESSIVE BEHAVIOR. BACKGROUND: CHRONIC INFLAMMATION AND SUBSEQUENT TISSUTAL ALTERATIONS MAY PLAY A KEY ROLE IN PROSTATE CARCINOGENESIS. IN THIS WAY, MOLECULAR ALTERATIONS OF THE SUPPRESSOR OF CYTOKINE SIGNALING 3 (SOCS3), ONE OF THE MOST IMPORTANT INHIBITORY MOLECULE OF INFLAMMATORY SIGNAL TRANSDUCTION CIRCUITRIES, COULD CONTRIBUTE TO EXPLAIN THE PLEIOTROPIC ROLE OF INTERLEUKIN-6 (IL-6) IN THIS TYPE OF CANCER. METHODS: WE ANALYZED THE METHYLATION STATUS AND MRNA EXPRESSION OF SOCS3 IN 20 BENIGN PROSTATE HYPERPLASIAS (BPH) AND IN 51 PROSTATE CANCER SPECIMENS. WE ANALYZED THE SOCS3 METHYLATION STATUS USING METHYLATION-SPECIFIC PCR. HYPERMETHYLATION WAS CONFIRMED BY SEQUENCING AFTER SUBCLONING. EPIGENETIC SILENCING OF THIS GENE WAS ALSO DEMONSTRATED BY REAL-TIME PCR AND BY IMMUNOHISTOCHEMISTRY. RESULTS AND CORRELATION WITH CLINICAL DATA WERE STATISTICALLY ANALYZED. RESULTS: WE FOUND THAT THE PROMOTER OF SOCS3 WAS METHYLATED IN 39.2% OF PROSTATE CANCER. ON THE CONTRARY, ALL BPH AND NORMAL CONTROLS HAD AN UNMETHYLATED PATTERN. REAL-TIME ANALYSIS SHOWED THAT IN METHYLATED CASES SOCS3 MRNA EXPRESSION WAS REDUCED BY THREE AND FOUR FOLDS AS COMPARED TO BPH AND UNMETHYLATED CASES, RESPECTIVELY. INTERESTINGLY, SOCS3 MRNA LEVEL WAS HIGHER IN UNMETHYLATED PROSTATE CANCER THAN IN BPH. THE IMMUNOHISTOCHEMICAL STAINING ANALYSIS FOR SOCS 3 CONFIRMED MRNA RESULTS. MOREOVER, METHYLATION OF SOCS3 PROMOTER SIGNIFICANTLY ASSOCIATED WITH INTERMEDIATE-HIGH GRADE GLEASON SCORE (P = 0.0007) AND WITH AN UNFAVORABLE CLINICAL OUTCOME (P = 0.0019). CONCLUSIONS: OUR DATA SUGGEST THAT SOCS3 HYPERMETHYLATION MAY BE INVOLVED IN THE PATHOGENESIS OF PROSTATE CANCER AND COULD IDENTIFY A TUMOR SUBSET WITH AN AGGRESSIVE BEHAVIOR. 2011