1 1694 104 DUST MITE ALLERGEN-SPECIFIC IMMUNOTHERAPY INCREASES IL4 DNA METHYLATION AND INDUCES DER P-SPECIFIC T CELL TOLERANCE IN CHILDREN WITH ALLERGIC ASTHMA. ALLERGEN-SPECIFIC IMMUNOTHERAPY (ALLERGEN-SIT) IS A HIGHLY EFFECTIVE TREATMENT FOR CHILDREN WITH ALLERGIC ASTHMA (AA), AN IMMUNE-MEDIATED CHRONIC DISEASE LEADING TO BRONCHIAL MUSCLE HYPERTROPHY AND AIRWAY OBSTRUCTION IN RESPONSE TO SPECIFIC ALLERGENS. T HELPER CELLS AND SECRETED CYTOKINES PLAY IMPORTANT ROLES IN THE PATHOGENESIS OF ASTHMA, AND EPIGENETIC MODULATION CONTROLS GENES IMPORTANT FOR T CELL DEVELOPMENT AND CYTOKINE EXPRESSION. THIS STUDY EVALUATED T HELPER CELL-SECRETED CYTOKINES AND DNA METHYLATION PATTERNS IN CHILDREN TREATED WITH DERMATOPHAGOIDES PTERONYSSINUS (DER P) ALLERGEN-SIT. OUR RESULTS SHOWED THAT AFTER DER P CHALLENGE, PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM THE SIT GROUP, COMPARED WITH THE NON-SIT AA GROUP, PRODUCED LOWER LEVELS OF IL-4, IL-5 AND IL-2. THE SIT GROUP, COMPARED WITH THE AA GROUP, EXHIBITED DECREASED SENSITIVITY TO THE DER P ALLERGEN, CONCURRENT WITH IL-4 DOWN-MODULATION DUE TO INCREASED PROMOTER DNA METHYLATION, AS ESTIMATED IN PBMCS. OUR RESULTS SHOWED THAT SIT DECREASED IL-4 AND IL-5, AND INHIBITED T CELL PROLIFERATION, BY INHIBITING IL-2 PRODUCTION AFTER THE SPECIFIC ALLERGEN CHALLENGE. THESE RESULTS SUGGEST THAT DECREASED IL-2 PRODUCTION AND INCREASED IL-4 CYTOKINE PROMOTER METHYLATION IS A POTENTIAL MECHANISM OF DER P-SPECIFIC ALLERGEN DESENSITIZATION IMMUNOTHERAPY.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
2 5398  28 REDUCED MOUSE ALLERGEN IS ASSOCIATED WITH EPIGENETIC CHANGES IN REGULATORY GENES, BUT NOT MOUSE SENSITIZATION, IN ASTHMATIC CHILDREN. CHRONIC EXPOSURE TO MOUSE ALLERGEN MAY CONTRIBUTE GREATLY TO THE INNER-CITY ASTHMA BURDEN. WE HYPOTHESIZED THAT REDUCING MOUSE ALLERGEN EXPOSURE MAY MODULATE THE IMMUNOPATHOLOGY UNDERLYING SYMPTOMATIC PEDIATRIC ALLERGIC ASTHMA, AND THAT THIS OCCURS THROUGH EPIGENETIC REGULATION. TO TEST THIS HYPOTHESIS, WE STUDIED A COHORT OF MOUSE SENSITIZED, PERSISTENT ASTHMATIC INNER-CITY CHILDREN UNDERGOING MOUSE ALLERGEN-TARGETED INTEGRATED PEST MANAGEMENT (IPM) VS EDUCATION IN A RANDOMIZED CONTROLLED INTERVENTION TRIAL. WE FOUND THAT DECREASING MOUSE ALLERGEN EXPOSURE, BUT NOT COCKROACH, WAS ASSOCIATED WITH REDUCED FOXP3 BUCCAL DNA PROMOTER METHYLATION, BUT THIS WAS UNRELATED TO MOUSE SPECIFIC IGE PRODUCTION. THIS FINDING SUGGESTS THAT THE ENVIRONMENTAL EPIGENETIC REGULATION OF AN IMMUNOMODULATORY GENE MAY OCCUR FOLLOWING CHANGING ALLERGEN EXPOSURES IN SOME HIGHLY EXPOSED COHORTS. GIVEN THE CLINICAL AND PUBLIC HEALTH IMPORTANCE OF INNER-CITY PEDIATRIC ASTHMA AND THE POTENTIAL IMPACT OF ENVIRONMENTAL INTERVENTIONS, FURTHER STUDIES WILL BE NEEDED TO CORROBORATE CHANGES IN EPIGENETIC REGULATION FOLLOWING CHANGING EXPOSURES OVER TIME, AND DETERMINE THEIR IMPACT ON ASTHMA MORBIDITY IN SUSCEPTIBLE CHILDREN.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
3 2022  38 EPIGENETIC CHANGES ASSOCIATED WITH DISEASE PROGRESSION IN A MOUSE MODEL OF CHILDHOOD ALLERGIC ASTHMA. DEVELOPMENT OF ASTHMA IN CHILDHOOD IS LINKED TO VIRAL INFECTIONS OF THE LOWER RESPIRATORY TRACT IN EARLY LIFE, WITH SUBSEQUENT CHRONIC EXPOSURE TO ALLERGENS. PROGRESSION TO PERSISTENT ASTHMA IS ASSOCIATED WITH A TH2-BIASED IMMUNOLOGICAL RESPONSE AND STRUCTURAL REMODELLING OF THE AIRWAYS. THE UNDERLYING MECHANISMS ARE UNCLEAR, BUT COULD INVOLVE EPIGENETIC CHANGES. TO INVESTIGATE THIS, WE EMPLOYED A RECENTLY DEVELOPED MOUSE MODEL IN WHICH SELF-LIMITED NEONATAL INFECTION WITH A PNEUMOVIRUS, FOLLOWED BY SENSITISATION TO OVALBUMIN VIA THE RESPIRATORY TRACT AND LOW-LEVEL CHRONIC CHALLENGE WITH AEROSOLISED ANTIGEN, LEADS TO DEVELOPMENT OF AN ASTHMATIC PHENOTYPE. WE ASSESSED EXPRESSION OF MICRORNA BY CELLS IN THE PROXIMAL AIRWAYS, COMPARING CHANGES OVER THE PERIOD OF DISEASE PROGRESSION, AND USED TARGET PREDICTION DATABASES TO IDENTIFY GENES LIKELY TO BE UP- OR DOWNREGULATED AS A CONSEQUENCE OF ALTERED REGULATION OF MICRORNA. IN PARALLEL, WE ASSESSED DNA METHYLATION IN PULMONARY CD4(+) T CELLS. WE FOUND THAT A LIMITED NUMBER OF MICRORNAS EXHIBITED MARKED UP- OR DOWNREGULATION FOLLOWING EARLY-LIFE INFECTION AND SENSITISATION, FOR MANY OF WHICH THE LEVELS OF EXPRESSION WERE FURTHER CHANGED FOLLOWING CHRONIC CHALLENGE WITH THE SENSITIZING ANTIGEN. TARGETS OF THESE MICRORNAS INCLUDED GENES INVOLVED IN IMMUNE OR INFLAMMATORY RESPONSES (E.G. GATA3, KITL) AND IN TISSUE REMODELLING (E.G. IGF1, TGFBR1), AS WELL AS GENES FOR VARIOUS TRANSCRIPTION FACTORS AND SIGNALLING PROTEINS. IN PULMONARY CD4(+) T CELLS, THERE WAS SIGNIFICANT DEMETHYLATION AT PROMOTER SITES FOR INTERLEUKIN-4 AND INTERFERON-GAMMA, THE LATTER INCREASING FOLLOWING CHRONIC CHALLENGE. WE CONCLUDE THAT, IN THIS MODEL, PROGRESSION TO AN ASTHMATIC PHENOTYPE IS LINKED TO EPIGENETIC REGULATION OF GENES ASSOCIATED WITH INFLAMMATION AND STRUCTURAL REMODELLING, AND WITH T-CELL COMMITMENT TO A TH2 IMMUNOLOGICAL RESPONSE. EPIGENETIC CHANGES ASSOCIATED WITH THIS PATTERN OF GENE ACTIVATION MIGHT PLAY A ROLE IN THE DEVELOPMENT OF CHILDHOOD ASTHMA.	2013	
   
4 5902  32 T-HELPER 17 CELL POLARIZATION IN PULMONARY ARTERIAL HYPERTENSION. BACKGROUND: INFLAMMATION MAY CONTRIBUTE TO THE PATHOBIOLOGY OF PULMONARY ARTERIAL HYPERTENSION (PAH). DECIPHERING THE PAH FINGERPRINT ON THE INFLAMMATION ORCHESTRATED BY DENDRITIC CELLS (DCS) AND T CELLS, KEY DRIVER AND EFFECTOR CELLS, RESPECTIVELY, OF THE IMMUNE SYSTEM, MAY ALLOW THE IDENTIFICATION OF IMMUNOPATHOLOGIC APPROACHES TO PAH MANAGEMENT. METHODS: USING FLOW CYTOMETRY, WE PERFORMED IMMUNOPHENOTYPING OF MONOCYTE-DERIVED DCS (MODCS) AND CIRCULATING LYMPHOCYTES FROM PATIENTS WITH IDIOPATHIC PAH AND CONTROL SUBJECTS. WITH THE SAME TECHNIQUE, WE PERFORMED CYTOKINE PROFILING OF BOTH POPULATIONS FOLLOWING STIMULATION, COCULTURE, OR BOTH. WE TESTED THE IMMUNOMODULATORY EFFECTS OF A GLUCOCORTICOID (DEXAMETHASONE [DEX]) ON THIS IMMUNOPHENOTYPE AND CYTOKINE PROFILE. USING AN EPIGENETIC APPROACH, WE CONFIRMED THE IMMUNE POLARIZATION IN BLOOD DNA OF PATIENTS WITH PAH. RESULTS: THE PROFILE OF MEMBRANE COSTIMULATORY MOLECULES OF PAH MODCS WAS SIMILAR TO THAT OF CONTROL SUBJECTS. HOWEVER, PAH MODCS RETAINED HIGHER LEVELS OF THE T-CELL ACTIVATING MOLECULES CD86 AND CD40 AFTER DEX PRETREATMENT THAN DID CONTROL MODCS. THIS WAS ASSOCIATED WITH AN INCREASED EXPRESSION OF IL-12P40 AND A REDUCED MIGRATION TOWARD CHEMOKINE (C-C MOTIF) LIGAND 21. MOREOVER, BOTH WITH AND WITHOUT DEX, PAH MODCS INDUCED A HIGHER ACTIVATION AND PROLIFERATION OF CD4+ T CELLS, ASSOCIATED WITH A REDUCED EXPRESSION OF IL-4 (T HELPER 2 RESPONSE) AND A HIGHER EXPRESSION OF IL-17 (T HELPER 17 RESPONSE). PURIFIED PAH CD4+ T CELLS EXPRESSED A HIGHER LEVEL OF IL-17 AFTER ACTIVATION THAN DID THOSE OF CONTROL SUBJECTS. LASTLY, THERE WAS SIGNIFICANT HYPOMETHYLATION OF THE IL-17 PROMOTER IN THE PAH BLOOD DNA AS COMPARED WITH THE CONTROL BLOOD. CONCLUSIONS: WE HAVE HIGHLIGHTED T HELPER 17 CELL IMMUNE POLARIZATION IN PATIENTS WITH PAH, AS HAS BEEN PREVIOUSLY DEMONSTRATED IN OTHER CHRONIC INFLAMMATORY AND AUTOIMMUNE CONDITIONS.	2015	
                                                                                                                                                   
5 1566  35 DNA METHYLATION OF TH1/TH2 CYTOKINE GENES AFFECTS SENSITIZATION AND PROGRESS OF EXPERIMENTAL ASTHMA. BACKGROUND: EPIGENETIC CHANGES IN DNA METHYLATION HAVE RECENTLY BEEN DEMONSTRATED TO BE INVOLVED IN EFFECTOR T-CELL POLARIZATION, RESULTING IN DIFFERENTIAL SECRETION OF T(H)1 AND T(H)2 CYTOKINES. HOWEVER, THE CONTRIBUTION TO THE DEVELOPMENT OF A CHRONIC INFLAMMATORY PHENOTYPE REMAINS STILL UNCLEAR. OBJECTIVE: WE SOUGHT TO INVESTIGATE CHANGES IN DNA METHYLATION IN MARKER GENES OF T-CELL SUBSETS DURING ALLERGEN SENSITIZATION/CHALLENGE AND THEIR INFLUENCE ON THE DEVELOPMENT OF AN ALLERGIC AIRWAY INFLAMMATORY RESPONSE. METHODS: THE RELATIONSHIP BETWEEN CHANGES IN DNA METHYLATION AND PHENOTYPE DEVELOPMENT WERE EXAMINED IN A WELL-ESTABLISHED MODEL OF EXPERIMENTAL ASTHMA. DNA METHYLATION WAS INVESTIGATED AT GENOMIC LOCI ASSOCIATED WITH T(H)1 (IFNG PROMOTER) OR T(H)2 (CONSERVED NONCODING SEQUENCE 1 [CNS1]) CYTOKINE PRODUCTION BY USING BISULFITE PYROSEQUENCING. RESULTS: ANALYSIS OF CD4(+) T CELLS REVEALED A SIGNIFICANT INCREASE IN DNA METHYLATION AT THE IFNG PROMOTER AFTER ALLERGEN SENSITIZATION/CHALLENGE, WHICH CORRELATED WITH DECREASED IFN-GAMMA CYTOKINE EXPRESSION, WHEREAS ONLY MINOR CHANGES WERE OBSERVED AT THE CNS1 LOCUS. FURTHERMORE, THE INCREASE IN DNA METHYLATION AT THE IFNG PROMOTER COULD BE REVERSED WITH A DNA METHYLTRANSFERASE (DNMT) INHIBITOR IN VITRO AND IN VIVO WITH BENEFICIAL EFFECTS ON SENSITIZATION STATUS AND ALLERGIC PHENOTYPE. THE SPECIFIC IMPORTANCE OF THE DNA METHYLATION STATUS IN CD4(+) T CELLS COULD BE CONFIRMED BY USING ADOPTIVE TRANSFER EXPERIMENTS. CONCLUSION: WE HERE REPORT THE NOVEL FINDING THAT EPIGENETIC REGULATION IN T CELLS CONTRIBUTES TO THE DEVELOPMENT OF EXPERIMENTAL ASTHMA AND CAN BE TARGETED PHARMACOLOGICALLY.	2012	
                                                                                                                                                                                                                                                                                                                                                                   
6 2389  32 EPIGENETIC REPOLARIZATION OF T LYMPHOCYTES FROM CHRONIC LYMPHOCYTIC LEUKEMIA PATIENTS USING 5-AZA-2'-DEOXYCYTIDINE. T CELL IMMUNE DYSFUNCTION HAS AN IMPORTANT ROLE IN THE PROFOUND IMMUNE SUPPRESSION THAT CHARACTERIZES CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). IMPROPER POLARIZATION OF T CELLS HAS BEEN PROPOSED AS ONE OF THE MECHANISM INVOLVED. MOUNTING DATA IMPLICATES CHROMATIN REGULATION, NAMELY PROMOTER METHYLATION, IN THE PLASTICITY OF NAIVE HUMAN T CELLS. RECENT IN VITRO EVIDENCE INDICATES THAT THIS PLASTICITY MAY BE PHENOTYPICALLY ALTERED BY USING METHYLATION INHIBITORS WHICH ARE APPROVED FOR CLINICAL USE IN CERTAIN TYPES OF CANCER. THESE RESULTS BEG THE QUESTION: CAN THE INEFFECTIVE POLARIZATION OF T LYMPHOCYTES IN THE CONTEXT OF CLL BE EFFECTIVELY MODULATED USING METHYLATION INHIBITORS IN A SUSTAINABLE THERAPEUTIC FASHION? TO ANSWER THIS QUESTION OUR LABORATORY HAS STUDIED THE EFFECTS OF 5-AZA-2'-DEOXYCYTIDINE (5A2) IN HELPER AND CYTOTOXIC T LYMPHOCYTES FROM HEALTHY DONORS AND CLL PATIENTS IN WELL CHARACTERIZED MOLECULAR AND EPIGENETIC SIGNALING PATHWAYS INVOLVED IN EFFECTIVE POLARIZATION. MOREOVER, WE SOUGHT TO INVESTIGATE THE CONSEQUENCES OF METHYLATION INHIBITOR TREATMENT ON LYMPHOCYTE SURVIVAL, ACTIVATION INTENSITY, AND NAIVE CELL POLARIZATION. OUR DATA INDICATES THAT 5A2 TREATMENT CAN DEPOLARIZE TH2 CELLS TO EFFECTIVELY SECRETE INTERFERON GAMMA, SIGNAL VIA T-BET, AND ACHIEVE DEMETHYLATION OF CRITICAL TH1 SPECIFIC PROMOTERS. MOREOVER, WE DEMONSTRATE THAT 5A2 CAN FORCE TH1 POLARIZATION OF NAIVE T CELLS DESPITE A STRONG IL-4 STIMULI AND A LACK OF IL-12. IN CONCLUSION OUR DATA SEEKS TO DEFINE A MODALITY IN WHICH IMPROPER OR INEFFECTIVE T CELL POLARIZATION CAN BE ALTERED BY 5AZA AND COULD BE INCORPORATED IN FUTURE THERAPEUTIC INTERVENTIONS.	2011	
                                                                                                                                                                                                                                                                                                                                                               
7 1739  32 EARLY DNA METHYLATION CHANGES IN CHILDREN DEVELOPING BETA CELL AUTOIMMUNITY AT A YOUNG AGE. AIMS/HYPOTHESIS: TYPE 1 DIABETES IS A CHRONIC AUTOIMMUNE DISEASE OF COMPLEX AETIOLOGY, INCLUDING A POTENTIAL ROLE FOR EPIGENETIC REGULATION. PREVIOUS EPIGENOMIC STUDIES FOCUSED MAINLY ON CLINICALLY DIAGNOSED INDIVIDUALS. THE AIM OF THE STUDY WAS TO ASSESS EARLY DNA METHYLATION CHANGES ASSOCIATED WITH TYPE 1 DIABETES ALREADY BEFORE THE DIAGNOSIS OR EVEN BEFORE THE APPEARANCE OF AUTOANTIBODIES. METHODS: REDUCED REPRESENTATION BISULPHITE SEQUENCING (RRBS) WAS APPLIED TO STUDY DNA METHYLATION IN PURIFIED CD4(+) T CELL, CD8(+) T CELL AND CD4(-)CD8(-) CELL FRACTIONS OF 226 PERIPHERAL BLOOD MONONUCLEAR CELL SAMPLES LONGITUDINALLY COLLECTED FROM SEVEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL INDIVIDUALS MATCHED FOR AGE, SEX, HLA RISK AND PLACE OF BIRTH. WE ALSO EXPLORED CORRELATIONS BETWEEN DNA METHYLATION AND GENE EXPRESSION USING RNA SEQUENCING DATA FROM THE SAME SAMPLES. TECHNICAL VALIDATION OF RRBS RESULTS WAS PERFORMED USING PYROSEQUENCING. RESULTS: WE IDENTIFIED 79, 56 AND 45 DIFFERENTIALLY METHYLATED REGIONS IN CD4(+) T CELLS, CD8(+) T CELLS AND CD4(-)CD8(-) CELL FRACTIONS, RESPECTIVELY, BETWEEN TYPE 1 DIABETES-SPECIFIC AUTOANTIBODY-POSITIVE INDIVIDUALS AND CONTROL PARTICIPANTS. THE ANALYSIS OF PRE-SEROCONVERSION SAMPLES IDENTIFIED DNA METHYLATION SIGNATURES AT THE VERY EARLY STAGE OF DISEASE, INCLUDING DIFFERENTIAL METHYLATION AT THE PROMOTER OF IRF5 IN CD4(+) T CELLS. FURTHER, WE VALIDATED RRBS RESULTS USING PYROSEQUENCING AT THE FOLLOWING CPG SITES: CHR19:18118304 IN THE PROMOTER OF ARRDC2; CHR21:47307815 IN THE INTRON OF PCBP3; AND CHR14:81128398 IN THE INTERGENIC REGION NEAR TRAF3 IN CD4(+) T CELLS. CONCLUSIONS/INTERPRETATION: THESE PRELIMINARY RESULTS PROVIDE NOVEL INSIGHTS INTO CELL TYPE-SPECIFIC DIFFERENTIAL EPIGENETIC REGULATION OF GENES, WHICH MAY CONTRIBUTE TO TYPE 1 DIABETES PATHOGENESIS AT THE VERY EARLY STAGE OF DISEASE DEVELOPMENT. SHOULD THESE FINDINGS BE VALIDATED, THEY MAY SERVE AS A POTENTIAL SIGNATURE USEFUL FOR DISEASE PREDICTION AND MANAGEMENT.	2022	

8 1584  25 DNA METHYLATION PROFILES OF SELECTED PRO-INFLAMMATORY CYTOKINES IN ALZHEIMER DISEASE. BY MEANS OF FUNCTIONAL GENOMICS ANALYSIS, WE RECENTLY DESCRIBED THE MRNA EXPRESSION PROFILES OF VARIOUS GENES INVOLVED IN THE NEUROINFLAMMATORY RESPONSE IN THE BRAINS OF SUBJECTS WITH LATE-ONSET ALZHEIMER DISEASE (LOAD). SOME OF THESE GENES, NAMELY INTERLEUKIN (IL)-1BETA AND IL-6, SHOWED DISTINCT EXPRESSION PROFILES WITH PEAK EXPRESSION DURING THE FIRST STAGES OF THE DISEASE AND CONTROL-LIKE LEVELS AT LATER STAGES. IL-1BETA AND IL-6 GENES ARE MODULATED BY DNA METHYLATION IN DIFFERENT CHRONIC AND DEGENERATIVE DISEASES; IT IS ALSO WELL KNOWN THAT LOAD MAY HAVE AN EPIGENETIC BASIS. INDEED, WE AND OTHERS HAVE PREVIOUSLY REPORTED GENE-SPECIFIC DNA METHYLATION ALTERATIONS IN LOAD AND IN RELATED ANIMAL MODELS. BASED ON THESE DATA, WE STUDIED THE DNA METHYLATION PROFILES, AT SINGLE CYTOSINE RESOLUTION, OF IL-1BETA AND IL-6 5'-FLANKING REGION BY BISULPHITE MODIFICATION IN THE CORTEX OF HEALTHY CONTROLS AND LOAD PATIENTS AT 2 DIFFERENT DISEASE STAGES: BRAAK I-II/A AND BRAAK V-VI/C. OUR ANALYSIS PROVIDES EVIDENCE THAT NEUROINFLAMMATION IN LOAD IS ASSOCIATED WITH (AND POSSIBLY MEDIATED BY) EPIGENETIC MODIFICATIONS.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                   
9 1500  34 DNA METHYLATION ANALYSIS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS. PSORIASIS IS A CHRONIC INFLAMMATORY SKIN DISEASE THAT IS CHARACTERIZED BY ABERRANT CROSS-TALK BETWEEN KERATINOCYTES AND IMMUNE CELLS SUCH AS CD4+ T CELLS, RESULTING IN KERATINOCYTE HYPERPROLIFERATION IN THE EPIDERMIS. DNA METHYLATION, ONE OF SEVERAL EPIGENETIC MECHANISMS, PLAYS AN IMPORTANT ROLE IN GENE EXPRESSION WITHOUT CHANGING THE DNA SEQUENCE. SEVERAL STUDIES HAVE SUGGESTED THE INVOLVEMENT OF EPIGENETIC REGULATION IN SKIN LESIONS FROM PATIENTS WITH PSORIASIS. IN THIS STUDY, WE INVESTIGATED THE GENOME-WIDE DNA METHYLATION STATUS OF CD4+ T CELLS IN PATIENTS WITH PSORIASIS COMPARED WITH HEALTHY SUBJECTS USING METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING (MEDIP-SEQ). THE RESULTS OF MEDIP-SEQ SHOWED THAT THE GLOBAL METHYLATION VALUES OF CD4+ T CELLS ARE HIGHER IN PATIENTS WITH PSORIASIS THAN IN HEALTHY CONTROLS, PARTICULARLY IN THE PROMOTER REGIONS. AMONG THE MOST HYPERMETHYLATED GENES IN THE PROMOTER REGIONS, WE SELECTED THE GENES WHOSE EXPRESSION IS SIGNIFICANTLY REDUCED IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. STUDIES USING THE METHYLATION INHIBITOR 5-AZACYTIDINE IN VITRO METHYLATION ASSAYS HAVE SHOWN THAT THE DIFFERENTIAL EXPRESSION LEVELS WERE ASSOCIATED WITH THE METHYLATION STATUS OF EACH GENE. BISULFITE SEQUENCING OF THE TRANSCRIPTION START REGION OF PHOSPHATIDIC ACID PHOSPHATASE TYPE 2 DOMAIN CONTAINING 3 (PPAPDC3), ONE OF THE SELECTED GENES, SHOWED HYPERMETHYLATION IN THE CD4+ T CELLS OF PSORIASIS PATIENTS. THESE RESULTS SUGGESTED THAT THE METHYLATION STATUS, WHICH IS IDENTIFIED BY MEDIP-SEQ OF THE GENES, WAS CORRELATED WITH THE MRNA EXPRESSION LEVEL OF THE GENES. COLLECTIVELY, THE DNA METHYLATION STATUS IN CD4+ T CELLS MIGHT BE ASSOCIATED WITH THE PATHOGENESIS OF PSORIASIS.	2014	
                                                                                                                                                                                                                                                                                                                                                 
10  164  34 ABNORMAL HISTONE METHYLATION IS RESPONSIBLE FOR INCREASED VASCULAR ENDOTHELIAL GROWTH FACTOR 165A SECRETION FROM AIRWAY SMOOTH MUSCLE CELLS IN ASTHMA. VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF), A KEY ANGIOGENIC MOLECULE, IS ABERRANTLY EXPRESSED IN SEVERAL DISEASES INCLUDING ASTHMA WHERE IT CONTRIBUTES TO BRONCHIAL VASCULAR REMODELING AND CHRONIC INFLAMMATION. ASTHMATIC HUMAN AIRWAY SMOOTH MUSCLE CELLS HYPERSECRETE VEGF, BUT THE MECHANISM IS UNCLEAR. IN THIS STUDY, WE DEFINED THE MECHANISM IN HUMAN AIRWAY SMOOTH MUSCLE CELLS FROM NONASTHMATIC AND ASTHMATIC PATIENTS. WE FOUND THAT ASTHMATIC CELLS LACKED A REPRESSION COMPLEX AT THE VEGF PROMOTER, WHICH WAS PRESENT IN NONASTHMATIC CELLS. RECRUITMENT OF G9A, TRIMETHYLATION OF HISTONE H3 AT LYSINE 9 (H3K9ME3), AND A RESULTANT DECREASE IN RNA POLYMERASE II AT THE VEGF PROMOTER WAS CRITICAL TO REPRESSION OF VEGF SECRETION IN NONASTHMATIC CELLS. AT THE ASTHMATIC PROMOTER, H3K9ME3 WAS ABSENT BECAUSE OF FAILED RECRUITMENT OF G9A; RNA POLYMERASE II BINDING, IN ASSOCIATION WITH TATA-BINDING PROTEIN-ASSOCIATED FACTOR 1, WAS INCREASED; H3K4ME3 WAS PRESENT; AND SP1 BINDING WAS EXAGGERATED AND SUSTAINED. IN CONTRAST, DNA METHYLATION AND HISTONE ACETYLATION WERE SIMILAR IN ASTHMATIC AND NONASTHMATIC CELLS. THIS IS THE FIRST STUDY, TO OUR KNOWLEDGE, TO SHOW THAT AIRWAY CELLS IN ASTHMA HAVE ALTERED EPIGENETIC REGULATION OF REMODELING GENE(S). HISTONE METHYLATION AT GENES SUCH AS VEGF MAY BE AN IMPORTANT NEW THERAPEUTIC TARGET.	2012	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
11 2297  26 EPIGENETIC REGULATION OF ACUTE INFLAMMATORY PAIN. ACUTE PAIN IS ASSOCIATED WITH TISSUE DAMAGE, WHICH RESULTS IN THE RELEASE OF INFLAMMATORY MEDIATORS. RECENT STUDIES POINT TO THE INVOLVEMENT OF EPIGENETIC MECHANISMS (DNA METHYLATION) IN THE DEVELOPMENT OF PAIN. WE HAVE FOUND THAT DURING ACUTE INFLAMMATORY PAIN INDUCED BY THE APPLICATION OF 10% MUSTARD OIL ON THE TONGUES OF RATS, LEVELS OF DNMT3A AND 3B WERE ELEVATED MARKEDLY (36 AND 42 % RESPECTIVELY), WHEREAS THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY. PREVIOUS INJECTION OF XEFOCAM WITH 0,4 MG/KG DOSE DECREASED LEVELS OF DNMT3A AND 3B (25 AND 24% RESPECTIVELY). THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY COMPARED TO THE CONTROL GROUP. THE FINDINGS SUPPORT THE IDEA THAT INHIBITORS OF DNA-METHYLTRANSFERASES COULD BE USEFUL FOR PAIN MANAGEMENT. OUR DATA SUGGEST THAT NSAIDS (ALONE OR IN COMBINATION WITH DNMT INHIBITORS) MAY BE PROPOSED AS POSSIBLE EPIGENETIC REGULATORY AGENTS, WHICH MAY PLAY A ROLE IN EPIGENETIC MECHANISMS INDIRECTLY THROUGH ALTERING THE ACTIVITY OF INFLAMMATORY MEDIATORS INVOLVED IN PAIN DEVELOPMENT.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                    
12 1594  31 DNA METHYLATION PROFILING REVEALS DIFFERENCES IN THE 3 HUMAN MONOCYTE SUBSETS AND IDENTIFIES UREMIA TO INDUCE DNA METHYLATION CHANGES DURING DIFFERENTIATION. HUMAN MONOCYTES ARE A HETEROGENEOUS CELL POPULATION CONSISTING OF 3 SUBSETS: CLASSICAL CD14++CD16-, INTERMEDIATE CD14++CD16+ AND NONCLASSICAL CD14+CD16++ MONOCYTES. VIA POORLY CHARACTERIZED MECHANISMS, INTERMEDIATE MONOCYTE COUNTS RISE IN CHRONIC INFLAMMATORY DISEASES, AMONG WHICH CHRONIC KIDNEY DISEASE IS OF PARTICULAR EPIDEMIOLOGIC IMPORTANCE. DNA METHYLATION IS A CENTRAL EPIGENETIC FEATURE THAT CONTROLS HEMATOPOIESIS. BY APPLYING NEXT-GENERATION METHYL-SEQUENCING WE NOW TESTED HOW FAR THE 3 MONOCYTE SUBSETS DIFFER IN THEIR DNA METHYLOME AND WHETHER UREMIA INDUCES DNA METHYLATION CHANGES IN DIFFERENTIATING MONOCYTES. WE FOUND THAT EACH MONOCYTE SUBSET DISPLAYS A UNIQUE PHENOTYPE WITH REGARDS TO DNA METHYLATION. GENES WITH DIFFERENTIALLY METHYLATED PROMOTER REGIONS IN INTERMEDIATE MONOCYTES WERE LINKED TO DISTINCT IMMUNOLOGICAL PROCESSES, WHICH IS IN LINE WITH RESULTS FROM RECENT GENE EXPRESSION ANALYSES. IN VITRO, UREMIA INDUCED DYSREGULATION OF DNA METHYLATION IN DIFFERENTIATING MONOCYTES, WHICH AFFECTED SEVERAL TRANSCRIPTION REGULATORS IMPORTANT FOR MONOCYTE DIFFERENTIATION (E.G., FLT3, HDAC1, MNT) AND LED TO ENHANCED GENERATION OF INTERMEDIATE MONOCYTES. AS POTENTIAL MEDIATOR, THE UREMIC TOXIN AND METHYLATION INHIBITOR S-ADENOSYLHOMOCYSTEINE INDUCED SHIFTS IN MONOCYTE SUBSETS IN VITRO, AND ASSOCIATED WITH MONOCYTE SUBSET COUNTS IN VIVO. OUR DATA SUPPORT THE CONCEPT OF MONOCYTE TRICHOTOMY AND THE DISTINCT ROLE OF INTERMEDIATE MONOCYTES IN HUMAN IMMUNITY. THE SHIFT IN MONOCYTE SUBSETS THAT OCCURS IN CHRONIC KIDNEY DISEASE, A PROINFLAMMATORY CONDITION OF SUBSTANTIAL EPIDEMIOLOGICAL IMPACT, MAY BE INDUCED BY ACCUMULATION OF UREMIC TOXINS THAT MEDIATE EPIGENETIC DYSREGULATION.	2016	
                                                                                                                                                                                                                                                                 
13 2200  31 EPIGENETIC MODIFICATION OF FOXP3 IN PATIENTS WITH CHRONIC HIV INFECTION. OBJECTIVES: HIV-1 MODULATES HOST CELL EPIGENETIC MACHINERY TO CONTROL ITS OWN REPLICATION AND INDUCE IMMUNE SUPPRESSION. HIV-1 INFECTION LEADS TO ACTIVATION OF T REGULATORY CELL (T(REG)), BUT THE MECHANISM UNDERLYING THIS IMMUNE MODULATION IS UNCLEAR. T(REG) PLAYS A PROMINENT ROLE IN GUT-MUCOSAL IMMUNE TOLERANCE BY RESTRAINING EXCESSIVE EFFECTOR T-CELL RESPONSES, A MECHANISM THAT IS KNOWN TO BE DISTURBED IN CHRONIC HIV-1 INFECTION. DNA METHYLATION PLAYS A MAJOR ROLE IN T(REG) LINEAGE COMMITMENT AND IMMUNE HOMEOSTASIS, WHICH MAY BE REGULATED BY HIV. TO INVESTIGATE THE MECHANISMS OF ABERRANT METHYLATION OF THE T(REG) MARKER FOXP3 IN HIV-1 INFECTION, WE EVALUATED THE EXPRESSION PATTERN OF METHYLATION-RELATED ENZYMES AND ITS CORRELATION TO FOXP3 METHYLATION. METHODS: FOXP3 PROMOTER METHYLATION IN THE COLON MUCOSA AND PERIPHERAL BLOOD FROM HIV-INFECTED PATIENTS AND CONTROL SUBJECTS WAS MEASURED USING PYROSEQUENCING. GENE EXPRESSION PATTERN OF DNA METHYLATION ENZYMES IN THE COLON MUCOSA WAS INVESTIGATED BY MICROARRAY AND QUANTITATIVE REVERSE TRANSCRIPTASE-POLYMERASE CHAIN REACTION ANALYSIS IN THE SAME SUBJECTS. RESULTS: FOXP3 PROMOTER WAS SIGNIFICANTLY (P </= 0.0001) DEMETHYLATED IN HIV-INFECTED PATIENTS COMPARED WITH CONTROL SUBJECTS IN BOTH TISSUES. EXPRESSION OF DNA METHYLTRANSFERASE 1 (DNAMT1), DNA METHYLTRANSFERASE 1-ASSOCIATED PROTEIN 1(DMAP1), METHYLTRANSFERASE-LIKE 7B (METTL7B), AND METHYLTRANSFERASE-LIKE 10 (METTL10) WERE SIGNIFICANTLY DOWN REGULATED IN HIV-INFECTED PATIENTS COMPARED WITH CONTROLS AND HAD A SIGNIFICANT POSITIVE CORRELATION TO FOXP3 PROMOTER METHYLATION. CONCLUSIONS: WE PRESENT EVIDENCE SUGGESTING THAT ALTERED METHYLATION PATTERN OF FOXP3 AND ACCORDINGLY HIGHER T(REG) FREQUENCY IN GUT MUCOSA OF HIV-INFECTED PATIENTS MAY BE BECAUSE OF ABERRANT METHYLATION PROCESSING IN HIV.	2014	
                                                                                                                                                                                                                                 
14 6765  31 ZINC DEFICIENCY LEADS TO REDUCED INTERLEUKIN-2 PRODUCTION BY ACTIVE GENE SILENCING DUE TO ENHANCED CREMALPHA EXPRESSION IN T CELLS. BACKGROUND & AIMS: THE MICRONUTRIENT ZINC IS ESSENTIAL FOR PROPER IMMUNE FUNCTION. CONSEQUENTLY, ZINC DEFICIENCY LEADS TO IMPAIRED IMMUNE FUNCTION, AS SEEN IN DECREASED SECRETION OF INTERLEUKIN (IL)-2 BY T CELLS. ALTHOUGH THIS ASSOCIATION HAS BEEN KNOWN SINCE THE LATE 1980S, THE UNDERLYING MOLECULAR MECHANISMS ARE STILL UNKNOWN. ZINC DEFICIENCY AND REDUCED IL-2 LEVELS ARE ESPECIALLY FOUND IN THE ELDERLY, WHICH IN TURN ARE PRONE TO CHRONIC DISEASES. HERE, WE DESCRIBE A NEW MOLECULAR LINK BETWEEN ZINC DEFICIENCY AND REDUCED IL-2 EXPRESSION IN T CELLS. METHODS: THE EFFECTS OF ZINC DEFICIENCY WERE FIRST INVESTIGATED IN VITRO IN THE HUMAN T CELL LINES JURKAT AND HUT-78 AND COMPLEMENTED BY IN VIVO DATA FROM ZINC-SUPPLEMENTED PIGS. A SHORT- AND LONG-TERM MODEL FOR ZINC DEFICIENCY WAS ESTABLISHED. ZINC LEVELS WERE DETECTED BY FLOW CYTOMETRY AND EXPRESSION PROFILES WERE INVESTIGATED ON THE MRNA AND PROTEIN LEVEL. RESULTS: THE EXPRESSION OF THE TRANSCRIPTION FACTOR CAMP-RESPONSIVE-ELEMENT MODULATOR ALPHA (CREMALPHA) IS INCREASED DURING ZINC DEFICIENCY IN VITRO, DUE TO INCREASED PROTEIN PHOSPHATASE 2A (PP2A) ACTIVITY, RESULTING IN DECREASED IL-2 PRODUCTION. ADDITIONALLY, ZINC SUPPLEMENTATION IN VIVO REDUCED CREMALPHA LEVELS CAUSING INCREASED IL-2 EXPRESSION. ON EPIGENETIC LEVELS INCREASED CREMALPHA BINDING TO THE IL-2 PROMOTER IS MEDIATED BY HISTONE DEACETYLASE 1 (HDAC1). THE HDAC1 ACTIVITY IS INHIBITED BY ZINC. MOREOVER, DEACETYLATION OF THE ACTIVATING HISTONE MARK H3K9 WAS INCREASED UNDER ZINC DEFICIENCY, RESULTING IN REDUCED IL-2 EXPRESSION. CONCLUSIONS: WITH THE TRANSCRIPTION FACTOR CREMALPHA A MOLECULAR LINK WAS UNCOVERED, CONNECTING ZINC DEFICIENCY WITH REDUCED IL-2 PRODUCTION DUE TO ENHANCED PP2A AND HDAC1 ACTIVITY.	2021	
                                                                                                                                                                                                                                                       
15  343  36 ALTERATIONS OF THE LUNG METHYLOME IN ALLERGIC AIRWAY HYPER-RESPONSIVENESS. ASTHMA IS A CHRONIC AIRWAY DISORDER CHARACTERIZED BY RECURRENT ATTACKS OF BREATHLESSNESS AND WHEEZING, AFFECTING 300 MILLION PEOPLE AROUND THE WORLD (AVAILABLE AT: WWW.WHO.INT). TO DATE, GENETIC FACTORS ASSOCIATED WITH ASTHMA SUSCEPTIBILITY HAVE BEEN UNABLE TO EXPLAIN THE FULL ETIOLOGY OF ASTHMA. RECENT STUDIES HAVE DEMONSTRATED THAT THE EPIGENETIC DISRUPTION OF GENE EXPRESSION PLAYS AN EQUALLY IMPORTANT ROLE IN THE DEVELOPMENT OF ASTHMA THROUGH INTERACTION WITH OUR ENVIRONMENT. WE SENSITIZED 6-WEEK-OLD C57BL/6J MICE WITH HOUSE-DUST-MITE (HDM) EXTRACTS INTRAPERITONEALLY FOLLOWED BY 5 WEEKS OF EXPOSURE TO HDM CHALLENGES (THREE TIMES A WEEK) INTRATRACHEALLY. HDM-EXPOSED MICE SHOWED AN INCREASE IN AIRWAY HYPER-RESPONSIVENESS (AHR) AND INFLAMMATION TOGETHER WITH STRUCTURAL REMODELING OF THE AIRWAYS. WE APPLIED METHYLATED DNA IMMUNOPRECIPITATION-NEXT GENERATION SEQUENCING (MEDIP-SEQ) FOR PROFILING OF DNA METHYLATION CHANGES IN THE LUNGS IN RESPONSE TO HDM. WE OBSERVED ABOUT 20 MILLION READS BY A SINGLE-RUN OF MASSIVE PARALLEL SEQUENCING. WE PERFORMED BIOINFORMATICS AND PATHWAY ANALYSIS ON THE RAW SEQUENCING DATA TO IDENTIFY DIFFERENTIALLY METHYLATED CANDIDATE GENES IN HDM-EXPOSED MICE. SPECIFICALLY, WE HAVE REVEALED THAT THE TRANSFORMING GROWTH FACTOR BETA SIGNALING PATHWAY IS EPIGENETICALLY MODULATED BY CHRONIC EXPOSURE TO HDM. HERE, WE DEMONSTRATED THAT A SPECIFIC ALLERGEN MAY PLAY A ROLE IN AHR THROUGH AN EPIGENETIC MECHANISM BY DISRUPTING THE EXPRESSION OF GENES IN LUNGS THAT MIGHT BE INVOLVED IN AIRWAY INFLAMMATION AND REMODELING. OUR FINDINGS PROVIDE NEW INSIGHTS INTO THE POTENTIAL MECHANISMS BY WHICH ENVIRONMENTAL ALLERGENS INDUCE ALLERGIC ASTHMA AND SUCH INSIGHTS MAY ASSIST IN THE DEVELOPMENT OF NOVEL PREVENTIVE AND THERAPEUTIC OPTIONS FOR THIS DEBILITATIVE DISEASE.	2014	
                                                                                                                                                                                                                                                      
16 2290  34 EPIGENETIC REGULATION IN MURINE OFFSPRING AS A NOVEL MECHANISM FOR TRANSMATERNAL ASTHMA PROTECTION INDUCED BY MICROBES. BACKGROUND: BRONCHIAL ASTHMA IS A CHRONIC INFLAMMATORY DISEASE RESULTING FROM COMPLEX GENE-ENVIRONMENT INTERACTIONS. NATURAL MICROBIAL EXPOSURE HAS BEEN IDENTIFIED AS AN IMPORTANT ENVIRONMENTAL CONDITION THAT PROVIDES ASTHMA PROTECTION IN A PRENATAL WINDOW OF OPPORTUNITY. EPIGENETIC REGULATION IS AN IMPORTANT MECHANISM BY WHICH ENVIRONMENTAL FACTORS MIGHT INTERACT WITH GENES INVOLVED IN ALLERGY AND ASTHMA DEVELOPMENT. OBJECTIVE: THIS STUDY WAS DESIGNED TO TEST WHETHER EPIGENETIC MECHANISMS MIGHT CONTRIBUTE TO ASTHMA PROTECTION CONFERRED BY EARLY MICROBIAL EXPOSURE. METHODS: PREGNANT MATERNAL MICE WERE EXPOSED TO THE FARM-DERIVED GRAM-NEGATIVE BACTERIUM ACINETOBACTER LWOFFII F78. EPIGENETIC MODIFICATIONS IN THE OFFSPRING WERE ANALYZED IN T(H)1- AND T(H)2-RELEVANT GENES OF CD4(+) T CELLS. RESULTS: PRENATAL ADMINISTRATION OF A LWOFFII F78 PREVENTED THE DEVELOPMENT OF AN ASTHMATIC PHENOTYPE IN THE PROGENY, AND THIS EFFECT WAS IFN-GAMMA DEPENDENT. FURTHERMORE, THE IFNG PROMOTER OF CD4(+) T CELLS IN THE OFFSPRING REVEALED A SIGNIFICANT PROTECTION AGAINST LOSS OF HISTONE 4 (H4) ACETYLATION, WHICH WAS CLOSELY ASSOCIATED WITH IFN-GAMMA EXPRESSION. PHARMACOLOGIC INHIBITION OF H4 ACETYLATION IN THE OFFSPRING ABOLISHED THE ASTHMA-PROTECTIVE PHENOTYPE. REGARDING T(H)2-RELEVANT GENES ONLY AT THE IL4 PROMOTER, A DECREASE COULD BE DETECTED FOR H4 ACETYLATION BUT NOT AT THE IL5 PROMOTER OR THE INTERGENIC T(H)2 REGULATORY REGION CONSERVED NONCODING SEQUENCE 1 (CNS1). CONCLUSION: THESE DATA SUPPORT THE HYGIENE CONCEPT AND INDICATE THAT MICROBES OPERATE BY MEANS OF EPIGENETIC MECHANISMS. THIS PROVIDES A NEW MECHANISM IN THE UNDERSTANDING OF GENE-ENVIRONMENT INTERACTIONS IN THE CONTEXT OF ALLERGY PROTECTION.	2011	
                                                                                                                                                                                                                                                                                            
17 5099  35 PM2.5 EXPOSURE EXACERBATES ALLERGIC RHINITIS IN MICE BY INCREASING DNA METHYLATION IN THE IFN-GAMMA GENE PROMOTER IN CD4+T CELLS VIA THE ERK-DNMT PATHWAY. ALLERGIC RHINITIS (AR) IS A COMMON CHRONIC INFLAMMATORY DISEASE THAT HAS A SIGNIFICANT IMPACT ON THE QUALITY OF LIFE OF PATIENTS. OUR PREVIOUS STUDY SUGGESTED THAT PM2.5 MIGHT AFFECT PEDIATRIC AR THROUGH EPIGENETIC REGULATION, BUT THE UNDERLYING MECHANISMS REMAINED UNCLEAR. IN THIS STUDY, AN EXPERIMENTAL MURINE AR MODEL WAS CREATED, AND THE NASAL SYMPTOMS, PATHOLOGICAL CHANGES, THE DNA METHYLATION LEVEL OF THE IFN-GAMMA GENE PROMOTER AND ACTIVATION OF THE ERK-DNMT PATHWAY WERE EVALUATED AFTER TREATMENT WITH PM2.5. OUR RESULTS SHOWED THAT PM2.5 EXPOSURE LED TO MORE SEVERE SYMPTOMS OF AR IN MICE. IN ADDITION, PM2.5 EXPOSURE SIGNIFICANTLY DECREASED THE PERCENTAGE OF TH1 T CELLS IN THE AR GROUP, AND THIS CHANGE WAS CORRELATED WITH INCREASED DNA METHYLATION OF THE IFN-GAMMA GENE PROMOTER IN CD4 + T CELLS (R=-0.916, P = 0.029). IN ADDITION, PM2.5 EXPOSURE INCREASED THE ACTIVATION OF THE ERK-DNMT PATHWAY IN CD4+ T CELLS, AND INHIBITING THIS EFFECT RESCUED THE POLARIZATION OF THE TH1/TH2 BALANCE TOWARD TH2, THEREBY DECREASING THE RISK OF AR. OUR FINDINGS DEMONSTRATE THAT PM2.5 EXPOSURE COULD EXACERBATE AR BY INCREASING THE DNA METHYLATION OF THE IFN-GAMMA GENE PROMOTER IN CD4 + T CELLS VIA THE ERK-DNMT PATHWAY, AND THESE EFFECTS WERE RESCUED WHEN THE ERK-DNMT PATHWAY WAS INHIBITED.	2019	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
18 2926  28 GENERATION OF AN EPIGENETIC SIGNATURE BY CHRONIC HYPOXIA IN PROSTATE CELLS. INCREASING LEVELS OF TISSUE HYPOXIA HAVE BEEN REPORTED AS A NATURAL FEATURE OF THE AGING PROSTATE GLAND AND MAY BE A RISK FACTOR FOR THE DEVELOPMENT OF PROSTATE CANCER. IN THIS STUDY, WE HAVE USED PWR-1E BENIGN PROSTATE EPITHELIAL CELLS AND AN EQUIVALENTLY AGED HYPOXIA-ADAPTED PWR-1E SUB-LINE TO IDENTIFY PHENOTYPIC AND EPIGENETIC CONSEQUENCES OF CHRONIC HYPOXIA IN PROSTATE CELLS. WE HAVE IDENTIFIED A SIGNIFICANTLY ALTERED CELLULAR PHENOTYPE IN RESPONSE TO CHRONIC HYPOXIA AS CHARACTERIZED BY INCREASED RECEPTOR-MEDIATED APOPTOTIC RESISTANCE, THE INDUCTION OF CELLULAR SENESCENCE, INCREASED INVASION AND THE INCREASED SECRETION OF IL-1 BETA, IL6, IL8 AND TNFALPHA CYTOKINES. IN ASSOCIATION WITH THESE PHENOTYPIC CHANGES AND THE ABSENCE OF HIF-1 ALPHA PROTEIN EXPRESSION, WE HAVE DEMONSTRATED SIGNIFICANT INCREASES IN GLOBAL LEVELS OF DNA METHYLATION AND H3K9 HISTONE ACETYLATION IN THESE CELLS, CONCOMITANT WITH THE INCREASED EXPRESSION OF DNA METHYLTRANSFERASE DMNT3B AND GENE-SPECIFIC CHANGES IN DNA METHYLATION AT KEY IMPRINTING LOCI. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC HYPOXIC CONDITIONS IN THE PROSTATE. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR PHENOTYPE WITH A POTENTIAL ROLE IN TUMOUR DEVELOPMENT.	2009	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
19 5269  33 PROMOTER DNA METHYLATION CONTRIBUTES TO HUMAN BETA-DEFENSIN-1 DEFICIENCY IN ATOPIC DERMATITIS. ATOPIC DERMATITIS (AD) IS A CHRONIC INFLAMMATORY SKIN DISEASE CAUSED BY EPIDERMAL BARRIER DYSFUNCTION AND DYSREGULATION OF INNATE AND ADAPTIVE IMMUNITY. EPIGENETIC REGULATION OF HUMAN BETA-DEFENSIN-1 (HBD-1) MIGHT BE ASSOCIATED WITH A VARIETY OF DEFECTS IN THE INNATE IMMUNE SYSTEM DURING AD PATHOGENESIS. WE INVESTIGATED THE POSSIBLE MECHANISM OF DECREASED HBD-1 GENE EXPRESSION IN AD AND DEMONSTRATED THE RESTORATION OF HBD-1 TRANSCRIPTION IN UNDIFFERENTIATED NORMAL HUMAN EPIDERMAL KERATINOCYTE CELLS AFTER TREATMENT WITH A DNA METHYLTRANSFERASE INHIBITOR. WE ALSO CONDUCTED AN IN VITRO METHYLATED REPORTER ASSAY USING A REPORTER CONTAINING 14 CPG SITES. METHYLATION OF THE 14 CPG SITES WITHIN THE HBD-1 5' REGION RESULTED IN AN APPROXIMATELY 86% REDUCTION IN PROMOTER ACTIVITY AND AFFECTED HBD-1 TRANSCRIPTIONAL REGULATION. WE THEN COMPARED METHYLATION FREQUENCIES AT CPG 3 AND CPG 4 BETWEEN NON-LESIONAL AND LESIONAL EPIDERMIS SAMPLES OF PATIENTS WITH SEVERE AD AND BETWEEN THESE PAIRED TISSUES AND HEALTHY CONTROL EPIDERMIS FROM NORMAL VOLUNTEERS WITHOUT AD HISTORY. BISULFITE PYROSEQUENCING DATA SHOWED SIGNIFICANTLY HIGHER METHYLATION FREQUENCIES AT THE CPG 3 AND 4 SITES IN AD LESIONAL SAMPLES THAN IN NON-LESIONAL AD SKIN AND NORMAL SKIN SAMPLES (P < 0.05). THESE RESULTS SUGGEST THAT THE DNA METHYLATION SIGNATURE OF HBD-1 IS A NOVEL DIAGNOSTIC/PROGNOSTIC MARKER AND A PROMISING THERAPEUTIC TARGET FOR THE COMPROMISED STRATUM CORNEUM BARRIER ATTRIBUTED TO HBD-1 DEFICIENCY.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             
20 1611  33 DNA METHYLATION: A NEW PLAYER IN MULTIPLE SCLEROSIS. MULTIPLE SCLEROSIS (MS) IS A NEUROLOGICAL AND CHRONIC INFLAMMATORY DISEASE THAT IS MEDIATED BY DEMYELINATION AND AXONAL DEGENERATION IN THE CENTRAL NERVOUS SYSTEM (CNS). STUDIES HAVE SHOWN THAT IMMUNE SYSTEM COMPONENTS SUCH AS CD4+, CD8+, CD44+ T CELLS, B LYMPHATIC CELLS, AND INFLAMMATORY CYTOKINES PLAY A CRITICAL ROLE IN INFLAMMATORY PROCESSES AND MYELIN DAMAGE ASSOCIATED WITH MS. NEVERTHELESS, THE PATHOGENESIS OF MS REMAINS POORLY DEFINED. DNA METHYLATION, A SIGNIFICANT EPIGENETIC MODIFICATION, IS REPORTED TO BE EXTENSIVELY INVOLVED IN MS PATHOGENESIS THROUGH THE REGULATION OF GENE EXPRESSION. THIS REVIEW FOCUSES ON DNA METHYLATION INVOLVED IN MS PATHOGENESIS. EVIDENCE SHOWED THE HYPERMETHYLATION OF HUMAN LEUKOCYTE ANTIGEN-DRB1 (HLA-DRB1) IN CD4+ T CELLS, THE GENOME-WIDE DNA METHYLATION IN CD8+ T CELLS, THE HYPERMETHYLATION OF INTERLEUKIN-4 (IL-4)/FORKHEAD WINGED HELIX TRANSCRIPTION FACTOR 3 (FOXP3), AND THE DEMETHYLATION OF INTERFERON-GAMMA (IFN-GAMMA)/IL-17A IN CD44+ ENCEPHALITOGENIC T CELLS. STUDIES ALSO SHOWED THE HYPERMETHYLATION OF SH2-CONTAINING PROTEIN TYROSINE PHOSPHATASE-1 (SHP-1) IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) AND METHYLATED CHANGES OF GENES REGULATING OLIGODENDROCYTE AND NEURONAL FUNCTION IN NORMAL-APPEARING WHITE MATTER. CLARIFYING THE MECHANISM OF ABERRANT METHYLATION ON MS MAY EXPLAIN PART OF THE PATHOLOGY AND WILL LEAD TO THE DEVELOPMENT OF A NEW THERAPEUTIC TARGET FOR THE TREATMENT OF MS IN THE FUTURE.	2017