1 5125 135 POST-TRANSLATIONAL MODIFICATIONS OF TRYPANOSOMA CRUZI CANONICAL AND VARIANT HISTONES. CHAGAS DISEASE, CAUSED BY TRYPANOSOMA CRUZI, STILL AFFECTS MILLIONS OF PEOPLE AROUND THE WORLD. NO VACCINES NOR TREATMENT FOR CHRONIC CHAGAS DISEASE ARE AVAILABLE, AND CHEMOTHERAPY FOR THE ACUTE PHASE IS HINDERED BY LIMITED EFFICACY AND SEVERE SIDE EFFECTS. THE PROCESSES BY WHICH THE PARASITE ACQUIRES INFECTIVITY AND SURVIVES IN DIFFERENT HOSTS INVOLVE TIGHT REGULATION OF GENE EXPRESSION, MAINLY POST-TRANSCRIPTIONALLY. NEVERTHELESS, CHROMATIN STRUCTURE/ORGANIZATION OF TRYPANOSOMATIDS IS SIMILAR TO OTHER EUKARYOTES, INCLUDING HISTONE VARIANTS AND POST-TRANSLATIONAL MODIFICATIONS. EMERGING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS ALSO PLAY AN IMPORTANT ROLE IN THE BIOLOGY/PATHOGENESIS OF THESE PARASITES, MAKING EPIGENETIC TARGETS SUITABLE CANDIDATES TO DRUG DISCOVERY. HERE, WE PRESENT THE FIRST COMPREHENSIVE MAP OF POST-TRANSLATIONAL MODIFICATIONS OF T. CRUZI CANONICAL AND VARIANT HISTONES AND SHOW THAT ITS HISTONE CODE CAN BE AS SOPHISTICATED AS THAT OF OTHER EUKARYOTES. A TOTAL OF 13 DISTINCT MODIFICATION TYPES WERE IDENTIFIED, INCLUDING RATHER NOVEL AND UNUSUAL ONES SUCH AS ALTERNATIVE LYSINE ACYLATIONS, SERINE/THREONINE ACETYLATION, AND N-TERMINAL METHYLATION. SOME HISTONE MARKS CORRELATE TO THOSE DESCRIBED FOR OTHER ORGANISMS, SUGGESTING THAT SIMILAR REGULATORY MECHANISMS MAY BE IN PLACE. OTHERS, HOWEVER, ARE UNIQUE TO T. CRUZI OR TO TRYPANOSOMATIDS AS A GROUP AND MIGHT REPRESENT GOOD CANDIDATES FOR THE DEVELOPMENT OF ANTIPARASITIC DRUGS. 2017 2 6749 40 WHOLE-GENOME CARDIAC DNA METHYLATION FINGERPRINT AND GENE EXPRESSION ANALYSIS PROVIDE NEW INSIGHTS IN THE PATHOGENESIS OF CHRONIC CHAGAS DISEASE CARDIOMYOPATHY. BACKGROUND: CHAGAS DISEASE, CAUSED BY THE PROTOZOAN TRYPANOSOMA CRUZI, IS ENDEMIC IN LATIN AMERICA AND AFFECTS 10 MILLION PEOPLE WORLDWIDE. APPROXIMATELY 12000 DEATHS ATTRIBUTABLE TO CHAGAS DISEASE OCCUR ANNUALLY DUE TO CHRONIC CHAGAS DISEASE CARDIOMYOPATHY (CCC), AN INFLAMMATORY CARDIOMYOPATHY PRESENTING WITH HEART FAILURE AND ARRYTHMIA; 30% OF INFECTED SUBJECTS DEVELOP CCC YEARS AFTER INFECTION. GENETIC MECHANISMS PLAY A ROLE IN DIFFERENTIAL PROGRESSION TO CCC, BUT LITTLE IS KNOWN ABOUT THE ROLE OF EPIGENETIC MODIFICATIONS IN PATHOLOGICAL GENE EXPRESSION PATTERNS IN CCC PATIENTS' MYOCARDIUM. DNA METHYLATION IS THE MOST COMMON MODIFICATION IN THE MAMMALIAN GENOME. METHODS: WE INVESTIGATED THE IMPACT OF GENOME-WIDE CARDIAC DNA METHYLATION ON GLOBAL GENE EXPRESSION IN MYOCARDIAL SAMPLES FROM END-STAGE CCC PATIENTS, COMPARED TO CONTROL SAMPLES FROM ORGAN DONORS. RESULTS: IN TOTAL, 4720 GENES WERE DIFFERENTIALLY METHYLATED BETWEEN CCC PATIENTS AND CONTROLS, OF WHICH 399 WERE ALSO DIFFERENTIALLY EXPRESSED. SEVERAL OF THEM WERE RELATED TO HEART FUNCTION OR TO THE IMMUNE RESPONSE AND HAD METHYLATION SITES IN THEIR PROMOTER REGION. REPORTER GENE AND IN SILICO TRANSCRIPTION FACTOR BINDING ANALYSES INDICATED PROMOTER METHYLATION MODIFIED EXPRESSION OF KEY GENES. AMONG THOSE, WE FOUND POTASSIUM CHANNEL GENES KCNA4 AND KCNIP4, INVOLVED IN ELECTRICAL CONDUCTION AND ARRYTHMIA, SMOC2, INVOLVED IN MATRIX REMODELING, AS WELL AS ENKEPHALIN AND RUNX3, POTENTIALLY INVOLVED IN THE INCREASED T-HELPER 1 CYTOKINE-MEDIATED INFLAMMATORY DAMAGE IN HEART. CONCLUSIONS: RESULTS SUPPORT THAT DNA METHYLATION PLAYS A ROLE IN THE REGULATION OF EXPRESSION OF PATHOGENICALLY RELEVANT GENES IN CCC MYOCARDIUM, AND IDENTIFY NOVEL POTENTIAL DISEASE PATHWAYS AND THERAPEUTIC TARGETS IN CCC. 2017 3 2375 37 EPIGENETIC REGULATION OF TRANSCRIPTION FACTOR BINDING MOTIFS PROMOTES TH1 RESPONSE IN CHAGAS DISEASE CARDIOMYOPATHY. CHAGAS DISEASE, CAUSED BY THE PROTOZOAN TRYPANOSOMA CRUZI, IS AN ENDEMIC PARASITIC DISEASE OF LATIN AMERICA, AFFECTING 7 MILLION PEOPLE. ALTHOUGH MOST PATIENTS ARE ASYMPTOMATIC, 30% DEVELOP COMPLICATIONS, INCLUDING THE OFTEN-FATAL CHRONIC CHAGASIC CARDIOMYOPATHY (CCC). ALTHOUGH PREVIOUS STUDIES HAVE DEMONSTRATED SOME GENETIC DEREGULATIONS ASSOCIATED WITH CCCS, THE CAUSES OF THEIR DEREGULATIONS REMAIN POORLY DESCRIBED. BASED ON BULK RNA-SEQ AND WHOLE GENOME DNA METHYLATION DATA, WE INVESTIGATED THE GENETIC AND EPIGENETIC DEREGULATIONS PRESENT IN THE MODERATE AND SEVERE STAGES OF CCC. ANALYSIS OF HEART TISSUE GENE EXPRESSION PROFILE ALLOWED US TO IDENTIFY 1407 DIFFERENTIALLY EXPRESSED TRANSCRIPTS (DEGS) SPECIFIC FROM CCC PATIENTS. A TISSUE DNA METHYLATION ANALYSIS DONE ON THE SAME TISSUE HAS PERMITTED THE IDENTIFICATION OF 92 REGULATORY DIFFERENTIALLY METHYLATED REGIONS (DMR) LOCALIZED IN THE PROMOTER OF DEGS. AN IN-DEPTH STUDY OF THE TRANSCRIPTION FACTORS BINDING SITES (TFBS) IN THE DMRS CORROBORATED THE IMPORTANCE OF TFBS'S DNA METHYLATION FOR GENE EXPRESSION IN CCC MYOCARDIUM. TBX21, RUNX3 AND EBF1 ARE THE TRANSCRIPTION FACTORS WHOSE BINDING MOTIF APPEARS TO BE AFFECTED BY DNA METHYLATION IN THE LARGEST NUMBER OF GENES. BY COMBINING BOTH TRANSCRIPTOMIC AND METHYLOMIC ANALYSIS ON HEART TISSUE, AND METHYLOMIC ANALYSIS ON BLOOD, 4 BIOLOGICAL PROCESSES AFFECTED BY SEVERE CCC HAVE BEEN IDENTIFIED, INCLUDING IMMUNE RESPONSE, ION TRANSPORT, CARDIAC MUSCLE PROCESSES AND NERVOUS SYSTEM. AN ADDITIONAL STUDY ON BLOOD METHYLATION OF MODERATE CCC SAMPLES PUT FORWARD THE IMPORTANCE OF ION TRANSPORT AND NERVOUS SYSTEM IN THE DEVELOPMENT OF THE DISEASE. 2022 4 4573 20 MYOCARDIAL INFARCTION-ASSOCIATED TRANSCRIPT, A LONG NONCODING RNA, IS OVEREXPRESSED DURING DILATED CARDIOMYOPATHY DUE TO CHRONIC CHAGAS DISEASE. LONG NONCODING RNAS (LNCRNAS) MODULATE GENE EXPRESSION AT THE EPIGENETIC, TRANSCRIPTIONAL, AND POSTTRANSCRIPTIONAL LEVELS. DYSREGULATION OF THE LNCRNA KNOWN AS MYOCARDIAL INFARCTION-ASSOCIATED TRANSCRIPT (MIAT) HAS BEEN ASSOCIATED WITH MYOCARDIAL INFARCTION. CHAGAS DISEASE CAUSES A SEVERE INFLAMMATORY DILATED CHRONIC CARDIOMYOPATHY (CCC). WE INVESTIGATED THE ROLE OF MIAT IN CCC. A WHOLE-TRANSCRIPTOME ANALYSIS OF HEART BIOPSY SPECIMENS AND FORMALIN-FIXED, PARAFFIN-EMBEDDED SAMPLES REVEALED THAT MIAT WAS OVEREXPRESSED IN PATIENTS WITH CCC, COMPARED WITH SUBJECTS WITH NONINFLAMMATORY DILATED CARDIOMYOPATHY AND CONTROLS. THESE RESULTS WERE CONFIRMED IN A MOUSE MODEL. RESULTS SUGGEST THAT MIAT IS A SPECIFIC BIOMARKER OF CCC. 2016 5 3501 36 IDENTIFICATION OF POTENTIAL BIOMARKERS FOR SYSTEMIC LUPUS ERYTHEMATOSUS BY INTEGRATED ANALYSIS OF GENE EXPRESSION AND METHYLATION DATA. INTRODUCTION: SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A HETEROGENEOUS AND CHRONIC AUTOIMMUNE DISEASE. ABERRANT DNA METHYLATION OCCURS DURING VARIOUS PROCESSES OF SLE DEVELOPMENT REGULATING THE MRNA EXPRESSION OF INTERRELATED GENES. THIS STUDY AIMS TO SCREEN POTENTIAL DNA METHYLATION MARKERS FOR SLE. METHODS: GENE EXPRESSION AND METHYLATION DATASETS WERE DOWNLOADED FROM THE GENE EXPRESSION OMNIBUS (GEO) DATABASE. DIFFERENTIALLY EXPRESSED GENES (DEGS) BETWEEN SLE PATIENTS AND HEALTHY CONTROLS WERE SCREENED USING THE LIMMA R PACKAGE, AND DIFFERENTIALLY METHYLATED POSITIONS (DMPS) AND REGIONS (DMRS) WERE IDENTIFIED USING DMPFINDER AND BUMPHUNTER (MINFI). ADDITIONALLY, THE DNA METHYLATION MARKERS TO DISTINGUISH SLE PATIENTS FROM HEALTHY CONTROLS WERE EXPLORED THROUGH RECEIVER OPERATING CHARACTERISTIC (ROC) CURVES AND LOGISTIC REGRESSION ANALYSES. FINALLY, WE VALIDATED THE RESULTS OF THE BIOINFORMATIC ANALYSIS BY PYROSEQUENCING. RESULTS: IN TOTAL, 91 DEGS, 90,092 DMPS, 15 DMRS, AND 13 DMR-ASSOCIATED GENES WERE IDENTIFIED. THROUGH THE INTEGRATIVE ANALYSIS OF DEG- AND DMR-ASSOCIATED GENES, WE IDENTIFIED FIVE TYPE I INTERFERON (IFN)-RELATED GENES AS KEY EPIGENETIC-DRIVEN GENES IN SLE. GO ENRICHMENT ANALYSIS SHOWED THAT THE FIVE SLE-ASSOCIATED EPIGENETIC-DRIVEN GENES WERE MAINLY ENRICHED IN THE TYPE I IFN SIGNALING PATHWAY INVOLVED IN IMMUNE RESPONSE AND DEFENSE RESPONSE TO VIRUS. MOREOVER, WE IDENTIFIED TWO SLE-SPECIFIC DNA METHYLATION MARKERS, THREE SLE WITHOUT LUPUS NEPHRITIS (SLE-LN(-))-SPECIFIC DNA METHYLATION MARKERS, AND TWO SLE WITH LUPUS NEPHRITIS (SLE-LN(+))-SPECIFIC DNA METHYLATION MARKERS BY STEPWISE LOGISTIC REGRESSION. CONCLUSIONS: OVERALL, OUR STUDY DEMONSTRATES POTENTIAL DNA METHYLATION MARKERS OF SLE, SLE-LN(-), AND SLE-LN(+), WHICH MAY HELP THE DIAGNOSIS, BOOST THE DEVELOPMENT OF NEW EPIGENETIC THERAPY, AND CONTRIBUTE TO INDIVIDUALIZED TREATMENT. KEY POINTS * THIS STUDY IDENTIFIED FIVE TYPE I IFN-RELATED GENES AS KEY EPIGENETIC-DRIVEN GENES IN SLE, WHICH SUPPORT THE IMPORTANCE OF THE TYPE I IFN PATHWAY IN THE PATHOGENESIS OF SLE * WE IDENTIFIED NOVEL DNA METHYLATION BIOMARKERS IN SLE, SLE-LN-, AND SLE-LN+ BY A COMPREHENSIVE ANALYSIS OF BIOINFORMATICS METHODS AND EXECUTED EXPERIMENTAL VALIDATION, AND BINARY LOGISTIC REGRESSION ANALYSIS SHOWED THAT THEY HAVE EXCELLENT POTENTIAL * THESE RESULTS MAY PROVIDE NEW INSIGHTS INTO THE BIOLOGICAL MECHANISMS OF SLE, AND IDENTIFY RELIABLE BIOMARKERS FOR SLE, SLE-LN-, AND SLE-LN+, WHICH MAY CONTRIBUTE TO DIAGNOSIS AND INDIVIDUALIZED TREATMENT. 2023 6 336 28 ALTERATIONS IN DNA METHYLATION STATUS ASSOCIATED WITH GULF WAR ILLNESS. GULF WAR ILLNESS (GWI) AFFECTS ABOUT 25% OF PERSIAN GULF VETERANS WITH A CLUSTER OF CHRONIC SYMPTOMS, INCLUDING IMMUNE DYSFUNCTION AND NEUROLOGICAL ISSUES. RECENT STUDIES IMPLICATE GENE EXPRESSION CHANGES IN IMMUNE FUNCTION TO BE ASSOCIATED WITH GWI. SINCE DNA METHYLATION CAN REGULATE SUCH CHANGES IN GENE EXPRESSION, AND DISRUPTION OF DNA METHYLATION PATTERN IS IMPLICATED IN VARIOUS IMMUNE AND NEUROLOGICAL DISEASES, WE AIMED TO STUDY THE DNA METHYLATION PATTERNS IN PERIPHERAL BLOOD MONONUCLEAR CELLS FROM GWI PATIENTS. GLOBAL DNA METHYLATION LEVELS WERE SIMILAR IN GWI PATIENTS AND CONTROLS. HOWEVER, THE GENOME-WIDE MICROARRAY TECHNOLOGY DETECTED 10,767 DIFFERENTIALLY METHYLATED CPG SITES ACROSS GENE REGULATORY ELEMENTS AND WITHIN CODING REGIONS. APPROXIMATELY 88% OF THEM WERE HYPERMETHYLATED IN GWI PATIENTS. THE SEPARATE ANALYSIS FOUND 776 DIFFERENTIALLY METHYLATED GENE PROMOTERS (DMP), WHICH WERE PREDOMINANTLY HYPERMETHYLATED. PYROSEQUENCING VALIDATION CONFIRMED MICROARRAY RESULTS. FUNCTIONAL ANALYSIS REVEALED THAT MAJORITY OF THE DMPS BELONGED TO GENES RESPONSIBLE FOR METABOLISM AND IMMUNE SYSTEM. THIS IS THE FIRST PILOT HUMAN STUDY CHARACTERIZING GENOME-WIDE EPIGENETIC CHANGES ASSOCIATED WITH GWI. IT SUGGESTS A SIGNIFICANT CONTRIBUTION OF EPIGENETIC DYSFUNCTION IN GWI. MOREOVER, IT SUPPORTS THE DYSREGULATION OF IMMUNE FUNCTION IN GWI. LASTLY, IT SUGGESTS STUDIES WITH THE LARGER COHORT TO VALIDATE OUR FINDINGS. 2019 7 1571 34 DNA METHYLATION PATTERNS IN CD8(+) T CELLS DISCERN PSORIASIS FROM PSORIATIC ARTHRITIS AND CORRELATE WITH CUTANEOUS DISEASE ACTIVITY. BACKGROUND: PSORIASIS IS A T CELL-MEDIATED CHRONIC AUTOIMMUNE/INFLAMMATORY DISEASE. WHILE SOME PATIENTS EXPERIENCE DISEASE LIMITED TO THE SKIN (SKIN PSORIASIS), OTHERS DEVELOP JOINT INVOLVEMENT (PSORIATIC ARTHRITIS; PSA). IN THE ABSENCE OF DISEASE- AND/OR OUTCOME-SPECIFIC BIOMARKERS, AND AS ARTHRITIS CAN PRECEDE SKIN MANIFESTATIONS, DIAGNOSTIC AND THERAPEUTIC DELAYS ARE COMMON AND CONTRIBUTE TO DISEASE BURDEN AND DAMAGE ACCRUAL. OBJECTIVE: ALTERED EPIGENETIC MARKS, INCLUDING DNA METHYLATION, CONTRIBUTE TO EFFECTOR T CELL PHENOTYPES AND ALTERED CYTOKINE EXPRESSION IN AUTOIMMUNE/INFLAMMATORY DISEASES. THIS PROJECT AIMED AT THE IDENTIFICATION OF DISEASE-/OUTCOME-SPECIFIC DNA METHYLATION SIGNATURES IN CD8(+) T CELLS FROM PATIENTS WITH PSORIASIS AND PSA AS COMPARED TO HEALTHY CONTROLS. METHOD: PERIPHERAL BLOOD CD8(+) T CELLS FROM NINE HEALTHY CONTROLS, 10 PSORIASIS, AND SEVEN PSA PATIENTS WERE COLLECTED TO ANALYZE DNA METHYLATION MARKS USING ILLUMINA HUMAN METHYLATION EPIC BEADCHIPS (>850,000 CPGS PER SAMPLE). BIOINFORMATIC ANALYSIS WAS PERFORMED USING R (MINFI, LIMMA, CHAMP, AND DMRCATE PACKAGES). RESULTS: DNA METHYLATION PROFILES IN CD8(+) T CELLS DIFFERENTIATE HEALTHY CONTROLS FROM PSORIASIS PATIENTS [397 DIFFERENTIALLY METHYLATED POSITIONS (DMPS); 9 DIFFERENTIALLY METHYLATED REGIONS (DMRS) WHEN >/=CPGS PER DMR WERE CONSIDERED; 2 DMRS FOR >/=10 CPGS]. FURTHERMORE, PATIENTS WITH SKIN PSORIASIS CAN BE DISCRIMINATED FROM PSA PATIENTS [1,861 DMPS, 20 DMRS (>/=5 CPGS PER REGION), 4 DMRS (>/=10 CPGS PER REGION)]. GENE ONTOLOGY (GO) ANALYSES CONSIDERING GENES WITH >/=1 DMP IN THEIR PROMOTER DELIVERED METHYLATION DEFECTS IN SKIN PSORIASIS AND PSA PRIMARILY AFFECTING THE BMP SIGNALING PATHWAY AND ENDOPEPTIDASE REGULATOR ACTIVITY, RESPECTIVELY. GO ANALYSIS OF GENES ASSOCIATED WITH DMRS BETWEEN SKIN PSORIASIS AND PSA DEMONSTRATED AN ENRICHMENT OF GABAERGIC NEURON AND CORTEX NEURON DEVELOPMENT PATHWAYS. TREATMENT WITH CYTOKINE BLOCKERS ASSOCIATED WITH DNA METHYLATION CHANGES [2,372 DMPS; 1,907 DMPS WITHIN PROMOTERS, 7 DMRS (>/=5 CPG PER REGIONS)] AFFECTING TRANSFORMING GROWTH FACTOR BETA RECEPTOR AND TRANSMEMBRANE RECEPTOR PROTEIN SERINE/THREONINE KINASE SIGNALING PATHWAYS. LASTLY, A METHYLATION SCORE INCLUDING TNF AND IL-17 PATHWAY ASSOCIATED DMPS INVERSE CORRELATES WITH SKIN DISEASE ACTIVITY SCORES (PASI). CONCLUSION: PATIENTS WITH SKIN PSORIASIS EXHIBIT DNA METHYLATION PATTERNS IN CD8(+) T CELLS THAT ALLOW DIFFERENTIATION FROM PSA PATIENTS AND HEALTHY INDIVIDUALS, AND REFLECT CLINICAL ACTIVITY OF SKIN DISEASE. THUS, DNA METHYLATION PROFILING PROMISES POTENTIAL AS DIAGNOSTIC AND PROGNOSTIC TOOL TO BE USED FOR MOLECULAR PATIENT STRATIFICATION TOWARD INDIVIDUALIZED TREATMENT. 2021 8 3056 32 GENOME-WIDE DNA METHYLATION ANALYSIS IMPLICATES ENRICHMENT OF INTERFERON PATHWAY IN AFRICAN AMERICAN PATIENTS WITH SYSTEMIC LUPUS ERYTHEMATOSUS AND EUROPEAN AMERICANS WITH LUPUS NEPHRITIS. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC, MULTISYSTEM, INFLAMMATORY AUTOIMMUNE DISEASE THAT DISPROPORTIONATELY AFFECTS WOMEN. TRENDS IN SLE PREVALENCE AND CLINICAL COURSE DIFFER BY ANCESTRY, WITH THOSE OF AFRICAN AMERICAN ANCESTRY PRESENTING WITH MORE ACTIVE, SEVERE AND RAPIDLY PROGRESSIVE DISEASE THAN EUROPEAN AMERICANS. PREVIOUS RESEARCH ESTABLISHED ALTERED EPIGENETIC SIGNATURES IN SLE PATIENTS COMPARED TO CONTROLS. HOWEVER, THE CONTRIBUTION OF ABERRANT DNA METHYLATION (DNAM) TO THE RISK OF SLE BY ANCESTRY AND DIFFERENCES AMONG PATIENTS WITH SLE-ASSOCIATED LUPUS NEPHRITIS (LN) HAS NOT BEEN WELL DESCRIBED. WE EVALUATED THE DNA METHYLOMES OF 87 INDIVIDUALS INCLUDING 41 SLE PATIENTS, WITH AND WITHOUT LN, AND 46 CONTROLS ENROLLED IN AN ANCESTRY DIVERSE, WELL-CHARACTERIZED COHORT STUDY OF ESTABLISHED SLE (41 SLE PATIENTS [20 SLE-LN+, 21 SLE-LN-] AND 46 SEX-, RACE- AND AGE-MATCHED CONTROLS; 55% AFRICAN AMERICAN, 45% EUROPEAN AMERICAN). PARTICIPANTS WERE GENOTYPED USING THE INFINIUM GLOBAL DIVERSITY ARRAY (GDA), AND GENETIC ANCESTRY WAS ESTIMATED USING PRINCIPAL COMPONENTS. GENOME-WIDE DNA METHYLATION WAS INITIALLY MEASURED USING THE ILLUMINA METHYLATIONEPIC 850K BEADCHIP ARRAY FOLLOWED BY METHYLATION-SPECIFIC QPCR TO VALIDATE THE METHYLATION STATUS AT PUTATIVE LOCI. DIFFERENTIALLY METHYLATED POSITIONS (DMP) WERE IDENTIFIED USING A CASE-CONTROL APPROACH ADJUSTED FOR ANCESTRY. WE IDENTIFIED A TOTAL OF 51 DMPS IN CPGS AMONG SLE PATIENTS COMPARED TO CONTROLS. GENES PROXIMAL TO THESE CPGS WERE HIGHLY ENRICHED FOR INVOLVEMENT IN TYPE I INTERFERON SIGNALING. DMPS AMONG EUROPEAN AMERICAN SLE PATIENTS WITH LN WERE SIMILAR TO AFRICAN AMERICAN SLE PATIENTS WITH AND WITHOUT LN. OUR FINDINGS WERE VALIDATED USING AN ORTHOGONAL, METHYL-SPECIFIC PCR FOR THREE SLE-ASSOCIATED DMPS NEAR OR PROXIMAL TO MX1, USP18, AND IFITM1. OUR STUDY CONFIRMS PREVIOUS REPORTS THAT DMPS IN CPGS ASSOCIATED WITH SLE ARE ENRICHED IN TYPE I INTERFERON GENES. HOWEVER, WE SHOW THAT EUROPEAN AMERICAN SLE PATIENTS WITH LN HAVE SIMILAR DNAM PATTERNS TO AFRICAN AMERICAN SLE PATIENTS IRRESPECTIVE OF LN, SUGGESTING THAT ABERRANT DNAM ALTERS ACTIVITY OF TYPE I INTERFERON PATHWAY LEADING TO MORE SEVERE DISEASE INDEPENDENT OF ANCESTRY. 2023 9 3070 34 GENOME-WIDE DNA METHYLATION PROFILING IN CD8 T-CELLS AND GAMMA DELTA T-CELLS OF ASIAN INDIAN PATIENTS WITH TAKAYASU ARTERITIS. BACKGROUND: TAKAYASU'S ARTERITIS (TA) IS A CHRONIC INFLAMMATORY DISEASE THAT AFFECTS AORTA AND ITS MAIN BRANCHES AT THEIR ORIGIN. GENETIC, PATHOLOGICAL AND FUNCTIONAL STUDIES HAVE SHOWN THAT CD8 AND GAMMA DELTA (GAMMA/DELTA) T-LYMPHOCYTES ARE INVOLVED IN INFLAMMATORY PROCESSES IN AFFECTED REGIONS OF ARTERIES CAUSING VASCULAR DAMAGE. THE MOLECULAR FUNCTION OF THESE LYMPHOCYTES REMAINS UNCLEAR AND CURRENTLY NO EPIGENETIC STUDIES ARE AVAILABLE IN TA. WE PRIMARILY PERFORMED GENOME WIDE METHYLATION ANALYSIS IN CD8 T CELLS AND GAMMADELTA T CELLS OF PATIENTS WITH TA AND COMPARED WITH HEALTHY CONTROLS. METHODS: WE RECRUITED 12 SUBJECTS IN EACH GROUP NAMELY TA PATIENT AND HEALTHY CONTROLS. BLOOD SAMPLES WERE COLLECTED AFTER OBTAINING INFORMED WRITTEN CONSENT. CD8 T CELLS AND GAMMADELTA T CELLS WERE SEPARATED FROM WHOLE BLOOD. DNA EXTRACTED FROM THESE CELLS AND WERE SUBJECTED TO BISULFITE TREATMENT. FINALLY, BISULFITE TREATED DNA WAS LOADED IN INFINIUM METHYLATION EPIC ARRAY. BIOINFORMATICS ANALYSIS WAS USED TO IDENTIFY DIFFERENTIAL METHYLATION REGIONS WHICH WERE THEN MAPPED TO GENES. RESULTS: INTERLEUKIN (IL)-32 AND LYMPHOTOXIN-A WERE GENES SIGNIFICANTLY HYPOMETHYLATED IN CD8 T-CELLS. ANTI-INFLAMMATORY CYTOKINE GENES, IL-10, IL-1RN AND IL-27 WERE HYPOMETHYLATED IN GAMMADELTA T CELLS OF TA PATIENTS AS COMPARED TO HEALTHY CONTROLS. GENE ENRICHMENT ANALYSIS USING GENE ONTOLOGY (GO) DATABASE AND KYOTO ENCYCLOPAEDIA OF GENES AND GENOMES (KEGG) IDENTIFIED THAT GENES INVOLVED IN T-CELL RECEPTOR SIGNALLING PATHWAYS WERE HYPOMETHYLATED IN CD8 T-CELLS AND HYPERMETHYLATED IN GAMMADELTA T CELLS OF TA PATIENTS. CONCLUSION: CD8 T-CELLS MIGHT PLAY A MAJOR ROLE IN IMMUNOPATHOGENESIS OF INFLAMMATION IN TA, WHEREAS GAMMADELTA T CELLS MAY PLAY A REGULATORY ROLE. 2022 10 2207 35 EPIGENETIC MODIFICATIONS AND GLUCOCORTICOID SENSITIVITY IN MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS). BACKGROUND: MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A DEBILITATING IDIOPATHIC DISEASE CHARACTERIZED BY UNEXPLAINED FATIGUE THAT FAILS TO RESOLVE WITH SUFFICIENT REST. DIAGNOSIS IS BASED ON A LIST OF SYMPTOMS AND EXCLUSION OF OTHER FATIGUE-RELATED HEALTH CONDITIONS. DESPITE A HETEROGENEOUS PATIENT POPULATION, IMMUNE AND HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS FUNCTION DIFFERENCES, SUCH AS ENHANCED NEGATIVE FEEDBACK TO GLUCOCORTICOIDS, ARE RECURRING FINDINGS IN ME/CFS STUDIES. EPIGENETIC MODIFICATIONS, SUCH AS CPG METHYLATION, ARE KNOWN TO REGULATE LONG-TERM PHENOTYPIC DIFFERENCES AND PREVIOUS WORK BY OUR GROUP FOUND DNA METHYLOME DIFFERENCES IN ME/CFS, HOWEVER THE RELATIONSHIP BETWEEN DNA METHYLOME MODIFICATIONS, CLINICAL AND FUNCTIONAL CHARACTERISTICS ASSOCIATED WITH ME/CFS HAS NOT BEEN EXAMINED. METHODS: WE EXAMINED THE DNA METHYLOME IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) OF A LARGER COHORT OF FEMALE ME/CFS PATIENTS USING THE ILLUMINA HUMANMETHYLATION450 BEADCHIP ARRAY. IN PARALLEL TO THE DNA METHYLOME ANALYSIS, WE INVESTIGATED IN VITRO GLUCOCORTICOID SENSITIVITY DIFFERENCES BY STIMULATING PBMCS WITH PHYTOHAEMAGGLUTININ AND SUPPRESSED GROWTH WITH DEXAMETHASONE. WE EXPLORED DNA METHYLATION DIFFERENCES USING BISULFITE PYROSEQUENCING AND STATISTICAL PERMUTATION. LINEAR REGRESSION WAS IMPLEMENTED TO DISCOVER EPIGENOMIC REGIONS ASSOCIATED WITH SELF-REPORTED QUALITY OF LIFE AND NETWORK ANALYSIS OF GENE ONTOLOGY TERMS TO BIOLOGICALLY CONTEXTUALIZE RESULTS. RESULTS: WE DETECTED 12,608 DIFFERENTIALLY METHYLATED SITES BETWEEN ME/CFS PATIENTS AND HEALTHY CONTROLS PREDOMINANTLY LOCALIZED TO CELLULAR METABOLISM GENES, SOME OF WHICH WERE ALSO RELATED TO SELF-REPORTED QUALITY OF LIFE HEALTH SCORES. AMONG ME/CFS PATIENTS, GLUCOCORTICOID SENSITIVITY WAS ASSOCIATED WITH DIFFERENTIAL METHYLATION AT 13 LOCI. CONCLUSIONS: OUR RESULTS INDICATE DNA METHYLATION MODIFICATIONS IN CELLULAR METABOLISM IN ME/CFS DESPITE A HETEROGENEOUS PATIENT POPULATION, IMPLICATING THESE PROCESSES IN IMMUNE AND HPA AXIS DYSFUNCTION IN ME/CFS. MODIFICATIONS TO EPIGENETIC LOCI ASSOCIATED WITH DIFFERENCES IN GLUCOCORTICOID SENSITIVITY MAY BE IMPORTANT AS BIOMARKERS FOR FUTURE CLINICAL TESTING. OVERALL, THESE FINDINGS ALIGN WITH RECENT ME/CFS WORK THAT POINT TOWARDS IMPAIRMENT IN CELLULAR ENERGY PRODUCTION IN THIS PATIENT POPULATION. 2017 11 812 26 CHANGES IN DNA METHYLATION PROFILES OF MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME PATIENTS REFLECT SYSTEMIC DYSFUNCTIONS. BACKGROUND: MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A LIFELONG DEBILITATING DISEASE WITH A COMPLEX PATHOLOGY NOT YET CLEARLY DEFINED. SUSCEPTIBILITY TO ME/CFS INVOLVES GENETIC PREDISPOSITION AND EXPOSURE TO ENVIRONMENTAL FACTORS, SUGGESTING AN EPIGENETIC ASSOCIATION. EPIGENETIC STUDIES WITH OTHER ME/CFS COHORTS HAVE USED ARRAY-BASED TECHNOLOGY TO IDENTIFY DIFFERENTIALLY METHYLATED INDIVIDUAL SITES. CHANGES IN RNA QUANTITIES AND PROTEIN ABUNDANCE HAVE BEEN DOCUMENTED IN OUR PREVIOUS INVESTIGATIONS WITH THE SAME ME/CFS COHORT USED FOR THIS STUDY. RESULTS: DNA FROM A WELL-CHARACTERISED NEW ZEALAND COHORT OF 10 ME/CFS PATIENTS AND 10 AGE-/SEX-MATCHED HEALTHY CONTROLS WAS ISOLATED FROM PERIPHERAL BLOOD MONONUCLEAR (PBMC) CELLS, AND USED TO GENERATE REDUCED GENOME-SCALE DNA METHYLATION MAPS USING REDUCED REPRESENTATION BISULPHITE SEQUENCING (RRBS). THE SEQUENCING DATA WERE ANALYSED UTILISING THE DMAP ANALYSIS PIPELINE TO IDENTIFY DIFFERENTIALLY METHYLATED FRAGMENTS, AND THE METHYLKIT PIPELINE WAS USED TO QUANTIFY METHYLATION DIFFERENCES AT INDIVIDUAL CPG SITES. DMAP IDENTIFIED 76 DIFFERENTIALLY METHYLATED FRAGMENTS AND METHYLKIT IDENTIFIED 394 DIFFERENTIALLY METHYLATED CYTOSINES THAT INCLUDED BOTH HYPER- AND HYPO-METHYLATION. FOUR CLUSTERS WERE IDENTIFIED WHERE DIFFERENTIALLY METHYLATED DNA FRAGMENTS OVERLAPPED WITH OR WERE WITHIN CLOSE PROXIMITY TO MULTIPLE DIFFERENTIALLY METHYLATED INDIVIDUAL CYTOSINES. THESE CLUSTERS IDENTIFIED REGULATORY REGIONS FOR 17 PROTEIN ENCODING GENES RELATED TO METABOLIC AND IMMUNE ACTIVITY. ANALYSIS OF DIFFERENTIALLY METHYLATED GENE BODIES (EXONS/INTRONS) IDENTIFIED 122 UNIQUE GENES. COMPARISON WITH OTHER STUDIES ON PBMCS FROM ME/CFS PATIENTS AND CONTROLS WITH ARRAY TECHNOLOGY SHOWED 59% OF THE GENES IDENTIFIED IN THIS STUDY WERE ALSO FOUND IN ONE OR MORE OF THESE STUDIES. FUNCTIONAL PATHWAY ENRICHMENT ANALYSIS IDENTIFIED 30 ASSOCIATED PATHWAYS. THESE INCLUDED IMMUNE, METABOLIC AND NEUROLOGICAL-RELATED FUNCTIONS DIFFERENTIALLY REGULATED IN ME/CFS PATIENTS COMPARED TO THE MATCHED HEALTHY CONTROLS. CONCLUSIONS: MAJOR DIFFERENCES WERE IDENTIFIED IN THE DNA METHYLATION PATTERNS OF ME/CFS PATIENTS THAT CLEARLY DISTINGUISHED THEM FROM THE HEALTHY CONTROLS. OVER HALF FOUND IN GENE BODIES WITH RRBS IN THIS STUDY HAD BEEN IDENTIFIED IN OTHER ME/CFS STUDIES USING THE SAME CELLS BUT WITH ARRAY TECHNOLOGY. WITHIN THE ENRICHED FUNCTIONAL IMMUNE, METABOLIC AND NEUROLOGICAL PATHWAYS, A NUMBER OF ENRICHED NEUROTRANSMITTER AND NEUROPEPTIDE REACTOME PATHWAYS HIGHLIGHTED A DISTURBED NEUROLOGICAL PATHOPHYSIOLOGY WITHIN THE PATIENT GROUP. 2020 12 1556 30 DNA METHYLATION MODIFICATIONS ASSOCIATED WITH CHRONIC FATIGUE SYNDROME. CHRONIC FATIGUE SYNDROME (CFS), ALSO KNOWN AS MYALGIC ENCEPHALOMYELITIS, IS A COMPLEX MULTIFACTORIAL DISEASE THAT IS CHARACTERIZED BY THE PERSISTENT PRESENCE OF FATIGUE AND OTHER PARTICULAR SYMPTOMS FOR A MINIMUM OF 6 MONTHS. SYMPTOMS FAIL TO DISSIPATE AFTER SUFFICIENT REST AND HAVE MAJOR EFFECTS ON THE DAILY FUNCTIONING OF CFS SUFFERERS. CFS IS A MULTI-SYSTEM DISEASE WITH A HETEROGENEOUS PATIENT POPULATION SHOWING A WIDE VARIETY OF FUNCTIONAL DISABILITIES AND ITS BIOLOGICAL BASIS REMAINS POORLY UNDERSTOOD. STABLE ALTERATIONS IN GENE FUNCTION IN THE IMMUNE SYSTEM HAVE BEEN REPORTED IN SEVERAL STUDIES OF CFS. EPIGENETIC MODIFICATIONS HAVE BEEN IMPLICATED IN LONG-TERM EFFECTS ON GENE FUNCTION, HOWEVER, TO OUR KNOWLEDGE, GENOME-WIDE EPIGENETIC MODIFICATIONS ASSOCIATED WITH CFS HAVE NOT BEEN EXPLORED. WE EXAMINED THE DNA METHYLOME IN PERIPHERAL BLOOD MONONUCLEAR CELLS ISOLATED FROM CFS PATIENTS AND HEALTHY CONTROLS USING THE ILLUMINA HUMANMETHYLATION450 BEADCHIP ARRAY, CONTROLLING FOR INVARIANT PROBES AND PROBES OVERLAPPING POLYMORPHIC SEQUENCES. GENE ONTOLOGY (GO) AND NETWORK ANALYSIS OF DIFFERENTIALLY METHYLATED GENES WAS PERFORMED TO DETERMINE POTENTIAL BIOLOGICAL PATHWAYS SHOWING CHANGES IN DNA METHYLATION IN CFS. WE FOUND AN INCREASED ABUNDANCE OF DIFFERENTIALLY METHYLATED GENES RELATED TO THE IMMUNE RESPONSE, CELLULAR METABOLISM, AND KINASE ACTIVITY. GENES ASSOCIATED WITH IMMUNE CELL REGULATION, THE LARGEST COORDINATED ENRICHMENT OF DIFFERENTIALLY METHYLATED PATHWAYS, SHOWED HYPOMETHYLATION WITHIN PROMOTERS AND OTHER GENE REGULATORY ELEMENTS IN CFS. THESE DATA ARE CONSISTENT WITH EVIDENCE OF MULTISYSTEM DYSREGULATION IN CFS AND IMPLICATE THE INVOLVEMENT OF DNA MODIFICATIONS IN CFS PATHOLOGY. 2014 13 351 30 ALTERED ENDOTHELIAL DYSFUNCTION-RELATED MIRS IN PLASMA FROM ME/CFS PATIENTS. MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A COMPLEX DISEASE CHARACTERIZED BY UNEXPLAINED DEBILITATING FATIGUE. ALTHOUGH THE ETIOLOGY IS UNKNOWN, EVIDENCE SUPPORTS IMMUNOLOGICAL ABNORMALITIES, SUCH AS PERSISTENT INFLAMMATION AND IMMUNE-CELL ACTIVATION, IN A SUBSET OF PATIENTS. SINCE THE INTERPLAY BETWEEN INFLAMMATION AND VASCULAR ALTERATIONS IS WELL-ESTABLISHED IN OTHER DISEASES, ENDOTHELIAL DYSFUNCTION HAS EMERGED AS ANOTHER PLAYER IN ME/CFS PATHOGENESIS. ENDOTHELIAL NITRIC OXIDE SYNTHASE (ENOS) GENERATES NITRIC OXIDE (NO) THAT MAINTAINS ENDOTHELIAL HOMEOSTASIS. ENOS IS ACTIVATED BY SILENT INFORMATION REGULATOR 1 (SIRT1), AN ANTI-INFLAMMATORY PROTEIN. DESPITE ITS RELEVANCE, NO STUDY HAS ADDRESSED THE SIRT1/ENOS AXIS IN ME/CFS. THE INTEREST IN CIRCULATING MICRORNAS (MIRS) AS POTENTIAL BIOMARKERS IN ME/CFS HAS INCREASED IN RECENT YEARS. ACCORDINGLY, WE ANALYZE A SET OF MIRS REPORTED TO MODULATE THE SIRT1/ENOS AXIS USING PLASMA FROM ME/CFS PATIENTS. OUR RESULTS SHOW THAT MIR-21, MIR-34A, MIR-92A, MIR-126, AND MIR-200C ARE JOINTLY INCREASED IN ME/CFS PATIENTS COMPARED TO HEALTHY CONTROLS. A SIMILAR FINDING WAS OBTAINED WHEN ANALYZING PUBLIC MIR DATA ON PERIPHERAL BLOOD MONONUCLEAR CELLS. BIOINFORMATICS ANALYSIS SHOWS THAT ENDOTHELIAL FUNCTION-RELATED SIGNALING PATHWAYS ARE ASSOCIATED WITH THESE MIRS, INCLUDING OXIDATIVE STRESS AND OXYGEN REGULATION. INTERESTINGLY, HISTONE DEACETYLASE 1, A PROTEIN RESPONSIBLE FOR EPIGENETIC REGULATIONS, REPRESENTED THE MOST RELEVANT NODE WITHIN THE NETWORK. IN CONCLUSION, OUR STUDY PROVIDES A BASIS TO FIND ENDOTHELIAL DYSFUNCTION-RELATED BIOMARKERS AND EXPLORE NOVEL TARGETS IN ME/CFS. 2021 14 822 28 CHARACTERIZATION OF BLOOD SURROGATE IMMUNE-METHYLATION BIOMARKERS FOR IMMUNE CELL INFILTRATION IN CHRONIC INFLAMMAGING DISORDERS. ALZHEIMER'S DISEASE (AD) AND ATHEROSCLEROSIS ARE BOTH CHRONIC AGE- AND INFLAMMATION-DEPENDENT DISEASES. IN ADDITION, ATHEROSCLEROSIS IS FREQUENTLY OBSERVED IN AD PATIENTS INDICATING COMMON INVOLVEMENT OF VASCULAR COMPONENTS IN BOTH DISEASE ETIOLOGIES. RECENTLY, EPIGENOME-WIDE ASSOCIATION STUDIES HAVE IDENTIFIED EPIGENETIC ALTERATIONS, AND IN PARTICULARLY DNA METHYLATION CHANGES FOR BOTH DISORDERS. WE HYPOTHESIZED THE EXISTENCE OF A COMMON DNA METHYLATION PROFILE IN ATHEROSCLEROSIS AND AD WHICH MAY BE VALUABLE AS A BLOOD-BASED DNA METHYLATION INFLAMMAGING BIOMARKER. USING PUBLICLY AVAILABLE 450K ILLUMINA METHYLATION DATASETS, WE IDENTIFIED A CO-METHYLATION NETWORK ASSOCIATED WITH BOTH ATHEROSCLEROSIS AND AD IN WHOLE BLOOD SAMPLES. THIS METHYLATION PROFILE APPEARED TO INDICATE SHIFTS IN BLOOD IMMUNE CELL TYPE DISTRIBUTION. REMARKABLY, SIMILAR METHYLATION CHANGES WERE ALSO DETECTED IN DISEASE TISSUES, INCLUDING AD BRAIN TISSUES, ATHEROSCLEROTIC PLAQUES, AND TUMORS AND WERE FOUND TO CORRELATE WITH IMMUNE CELL INFILTRATION. IN ADDITION, THIS IMMUNE-RELATED METHYLATION PROFILE COULD ALSO BE DETECTED IN OTHER INFLAMMAGING DISEASES, INCLUDING PARKINSON'S DISEASE AND OBESITY, BUT NOT IN MULTIPLE SCLEROSIS, SCHIZOPHRENIA, AND OSTEOPOROSIS. IN CONCLUSION, WE IDENTIFIED A BLOOD-BASED IMMUNE-RELATED DNA METHYLATION SIGNATURE IN MULTIPLE INFLAMMAGING DISEASES ASSOCIATED WITH CHANGES IN BLOOD IMMUNE CELL COUNTS AND PREDICTIVE FOR IMMUNE CELL INFILTRATION IN DISEASED TISSUES. IN ADDITION TO EPIGENETIC CLOCK MEASUREMENTS, THIS IMMUNE-METHYLATION SIGNATURE MAY BECOME A VALUABLE BLOOD-BASED BIOMARKER TO PREVENT CHRONIC INFLAMMATORY DISEASE DEVELOPMENT OR MONITOR LIFESTYLE INTERVENTION STRATEGIES WHICH PROMOTE HEALTHY AGING. 2019 15 1026 32 CIRCULATING MIRNAS EXPRESSION IN MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME. MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A COMPLEX MULTIFACTORIAL DISEASE THAT CAUSES INCREASING MORBIDITY WORLDWIDE, AND MANY INDIVIDUALS WITH ME/CFS SYMPTOMS REMAIN UNDIAGNOSED DUE TO THE LACK OF DIAGNOSTIC BIOMARKERS. ITS ETIOLOGY IS STILL UNKNOWN, BUT INCREASING EVIDENCE SUPPORTS A ROLE OF HERPESVIRUSES (INCLUDING HHV-6A AND HHV-6B) AS POTENTIAL TRIGGERS. INTERESTINGLY, THE INFECTION BY THESE VIRUSES HAS BEEN REPORTED TO IMPACT THE EXPRESSION OF MICRORNAS (MIRNAS), SHORT NON-CODING RNA SEQUENCES WHICH HAVE BEEN SUGGESTED TO BE EPIGENETIC FACTORS MODULATING ME/CFS PATHOGENIC MECHANISMS. NOTABLY, THE PRESENCE OF CIRCULATING MIRNAS IN PLASMA HAS RAISED THE POSSIBILITY TO USE THEM AS VALUABLE BIOMARKERS FOR DISTINGUISHING ME/CFS PATIENTS FROM HEALTHY CONTROLS. THUS, THIS STUDY AIMED AT DETERMINING THE ROLE OF EIGHT MIRNAS, WHICH WERE SELECTED FOR THEIR PREVIOUS ASSOCIATION WITH ME/CFS, AS POTENTIAL CIRCULATING BIOMARKERS OF THE DISEASE. THEIR PRESENCE WAS QUANTITATIVELY EVALUATED IN PLASMA FROM 40 ME/CFS PATIENTS AND 20 HEALTHY CONTROLS BY SPECIFIC TAQMAN ASSAYS, AND THE RESULTS SHOWED THAT SIX OUT OF THE EIGHT OF THE SELECTED MIRNAS WERE DIFFERENTLY EXPRESSED IN PATIENTS COMPARED TO CONTROLS; MORE SPECIFICALLY, FIVE MIRNAS WERE SIGNIFICANTLY UPREGULATED (MIR-127-3P, MIR-142-5P, MIR-143-3P, MIR-150-5P, AND MIR-448), AND ONE WAS DOWNMODULATED (MIR-140-5P). MIRNA LEVELS DIRECTLY CORRELATED WITH DISEASE SEVERITY, WHEREAS NO SIGNIFICANT CORRELATIONS WERE OBSERVED WITH THE PLASMA LEVELS OF SEVEN PRO-INFLAMMATORY CYTOKINES OR WITH THE PRESENCE/LOAD OF HHV-6A/6B GENOME, AS JUDGED BY SPECIFIC PCR AMPLIFICATION. THE RESULTS MAY OPEN THE WAY FOR FURTHER VALIDATION OF MIRNAS AS NEW POTENTIAL BIOMARKERS IN ME/CFS AND INCREASE THE KNOWLEDGE OF THE COMPLEX PATHWAYS INVOLVED IN THE ME/CFS DEVELOPMENT. 2023 16 3496 29 IDENTIFICATION OF MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME-ASSOCIATED DNA METHYLATION PATTERNS. BACKGROUND: MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A COMPLEX CONDITION INVOLVING MULTIPLE ORGAN SYSTEMS AND CHARACTERIZED BY PERSISTENT/RELAPSING DEBILITATING FATIGUE, IMMUNE DYSFUNCTION, NEUROLOGICAL PROBLEMS, AND OTHER SYMPTOMS NOT CURABLE FOR AT LEAST 6 MONTHS. DISRUPTION OF DNA METHYLATION PATTERNS HAS BEEN TIED TO VARIOUS IMMUNE AND NEUROLOGICAL DISEASES; HOWEVER, ITS STATUS IN ME/CFS REMAINS UNCERTAIN. OUR STUDY AIMED AT IDENTIFYING CHANGES IN THE DNA METHYLATION PATTERNS THAT ASSOCIATE WITH ME/CFS. METHODS: WE EXTRACTED GENOMIC DNA FROM PERIPHERAL BLOOD MONONUCLEAR CELLS FROM 13 ME/CFS STUDY SUBJECTS AND 12 HEALTHY CONTROLS AND MEASURED GLOBAL DNA METHYLATION BY ELISA-LIKE METHOD AND SITE-SPECIFIC METHYLATION STATUS USING ILLUMINA METHYLATIONEPIC MICROARRAYS. PYROSEQUENCING VALIDATION INCLUDED 33 ME/CFS CASES AND 31 CONTROLS FROM TWO GEOGRAPHICALLY DISTANT COHORTS. RESULTS: GLOBAL DNA METHYLATION LEVELS OF ME/CFS CASES WERE SIMILAR TO THOSE OF CONTROLS. HOWEVER, MICROARRAY-BASED APPROACH ALLOWED DETECTION OF 17,296 DIFFERENTIALLY METHYLATED CPG SITES IN 6,368 GENES ACROSS REGULATORY ELEMENTS AND WITHIN CODING REGIONS OF GENES. ANALYSIS OF DNA METHYLATION IN PROMOTER REGIONS REVEALED 307 DIFFERENTIALLY METHYLATED PROMOTERS. INGENUITY PATHWAY ANALYSIS INDICATED THAT GENES ASSOCIATED WITH DIFFERENTIALLY METHYLATED PROMOTERS PARTICIPATED IN AT LEAST 15 DIFFERENT PATHWAYS MOSTLY RELATED TO CELL SIGNALING WITH A STRONG IMMUNE COMPONENT. CONCLUSIONS: THIS IS THE FIRST STUDY THAT HAS EXPLORED GENOME-WIDE EPIGENETIC CHANGES ASSOCIATED WITH ME/CFS USING THE ADVANCED ILLUMINA METHYLATIONEPIC MICROARRAYS COVERING ABOUT 850,000 CPG SITES IN TWO GEOGRAPHICALLY DISTANT COHORTS OF ME/CFS CASES AND MATCHED CONTROLS. OUR RESULTS ARE ALIGNED WITH PREVIOUS STUDIES THAT INDICATE A DYSREGULATION OF THE IMMUNE SYSTEM IN ME/CFS. THEY ALSO SUGGEST A POTENTIAL ROLE OF EPIGENETIC DE-REGULATION IN THE PATHOBIOLOGY OF ME/CFS. WE PROPOSE SCREENING OF LARGER COHORTS OF ME/CFS CASES TO DETERMINE THE EXTERNAL VALIDITY OF THESE EPIGENETIC CHANGES IN ORDER TO IMPLEMENT THEM AS POSSIBLE DIAGNOSTIC MARKERS IN CLINICAL SETTING. 2018 17 3 34 "EPIGENOME-WIDE METHYLATION PROFILE OF CHRONIC KIDNEY DISEASE-DERIVED ARTERIAL DNA UNCOVERS NOVEL PATHWAYS IN DISEASE-ASSOCIATED CARDIOVASCULAR PATHOLOGY.". CHRONIC KIDNEY DISEASE (CKD) RELATED CARDIOVASCULAR DISEASE (CVD) IS CHARACTERIZED BY VASCULAR REMODELLING WITH WELL-ESTABLISHED STRUCTURAL AND FUNCTIONAL CHANGES IN THE VASCULAR WALL SUCH AS ARTERIAL STIFFNESS, MATRIX DEPOSITION, AND CALCIFICATION. THESE PHENOTYPIC CHANGES RESEMBLE PATHOLOGY SEEN IN AGEING, AND ARE LIKELY TO BE MEDIATED BY SUSTAINED ALTERATIONS IN GENE EXPRESSION, WHICH MAY BE CAUSED BY EPIGENETIC CHANGES SUCH AS TISSUE-SPECIFIC DNA METHYLATION. WE AIMED TO INVESTIGATE TISSUE SPECIFIC CHANGES IN DNA METHYLATION THAT OCCUR IN CKD-RELATED CVD. GENOME-WIDE DNA METHYLATION CHANGES WERE EXAMINED IN BISULPHITE CONVERTED GENOMIC DNA ISOLATED FROM THE VASCULAR MEDIA OF CKD AND HEALTHY ARTERIES. METHYLATION-SPECIFIC PCR WAS USED TO VALIDATE THE ARRAY DATA, AND THE ASSOCIATION BETWEEN DNA METHYLATION AND GENE AND PROTEIN EXPRESSION WAS EXAMINED. THE DNA METHYLATION AGE WAS COMPARED TO THE CHRONOLOGICAL AGE IN BOTH CASES AND CONTROLS. THREE HUNDRED AND NINETEEN DIFFERENTIALLY METHYLATED REGIONS (DMR) WERE IDENTIFIED SPREAD ACROSS THE GENOME. PATHWAY ANALYSIS REVEALED THAT DMRS ASSOCIATED WITH GENES WERE INVOLVED IN EMBRYONIC AND VASCULAR DEVELOPMENT, AND SIGNALLING PATHWAYS SUCH AS TGFBETA AND FGF. EXPRESSION OF TOP DIFFERENTIALLY METHYLATED GENE HOXA5 SHOWED A SIGNIFICANT NEGATIVE CORRELATION WITH DNA METHYLATION. INTERESTINGLY, DNA METHYLATION AGE AND CHRONOLOGICAL AGE WERE HIGHLY CORRELATED, BUT THERE WAS NO EVIDENCE OF ACCELERATED AGE-RELATED DNA METHYLATION IN THE ARTERIES OF CKD PATIENTS. IN CONCLUSION, WE DEMONSTRATED THAT DIFFERENTIAL DNA METHYLATION IN THE ARTERIAL TISSUE OF CKD PATIENTS REPRESENTS A POTENTIAL MEDIATOR OF ARTERIAL PATHOLOGY AND MAY BE USED TO UNCOVER NOVEL PATHWAYS IN THE GENESIS OF CKD-ASSOCIATED COMPLICATIONS. 2021 18 1585 30 DNA METHYLATION PROFILING IDENTIFIES EPIGENETIC DIFFERENCES BETWEEN DIABETES PATIENTS WITH ESRD AND DIABETES PATIENTS WITHOUT NEPHROPATHY. WE IDENTIFIED POTENTIAL EPIGENETIC BIOMARKERS FOR CHRONIC KIDNEY DISEASE PROGRESSION BY COMPARING SITE-SPECIFIC DNA METHYLATION LEVELS IN MORE THAN 14,000 GENES BETWEEN AFRICAN AMERICAN AND HISPANIC DIABETES PATIENTS WITH END STAGE RENAL DISEASE (ESRD) AND DIABETES PATIENTS WITHOUT NEPHROPATHY. WE IDENTIFIED 187 GENES THAT ARE DIFFERENTIALLY METHYLATED BETWEEN THE TWO GROUPS ON AT LEAST TWO CPG SITES IN EACH GENE IN DNA EXTRACTED FROM SALIVA. OF THE 187 GENES WHOSE MEAN METHYLATION LEVELS DIFFERED BETWEEN THE TWO GROUPS, 39 GENES, OR CLOSELY RELATED GENE FAMILY MEMBERS, HAVE BEEN REPORTED TO BE INVOLVED IN KIDNEY DEVELOPMENT OR DIABETIC NEPHROPATHY, PER SE, OR HAVE BEEN ASSOCIATED WITH DIALYSIS-INDUCED CHANGES IN GENE EXPRESSION IN PERIPHERAL BLOOD CELLS. THE FACT THAT SUCH A SUBSTANTIAL FRACTION (21%) OF THE 187 CANDIDATE GENES HAVE BEEN IMPLICATED PREVIOUSLY THROUGH GENOME ASSOCIATION OR TRANSCRIPTION PROFILING STUDIES SUGGESTS STRONGLY THAT THE DNA METHYLATION DIFFERENCES WE OBSERVE ARE ASSOCIATED WITH DISEASE PREDISPOSITION AND/OR TREATMENT. THE FACT THAT THESE NEPHROPATHY AND/OR DIALYSIS-ASSOCIATED DIFFERENCES BETWEEN PATIENTS WERE IDENTIFIED IN DNA EXTRACTED FROM SALIVA OFFERS PROOF-OF-PRINCIPLE THAT INTER-INDIVIDUAL EPIGENETIC DIFFERENCES MAY PROVE USEFUL AS PREDICTIVE BIOMARKERS OF DISEASE SUSCEPTIBILITY. 2011 19 3041 20 GENOME-EPIGENOME INTERACTIONS ASSOCIATED WITH MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME. MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME (ME/CFS) IS A COMPLEX DISEASE OF UNKNOWN ETIOLOGY. MULTIPLE STUDIES POINT TO DISRUPTIONS IN IMMUNE FUNCTIONING IN ME/CFS PATIENTS AS WELL AS SPECIFIC GENETIC POLYMORPHISMS AND ALTERATIONS OF THE DNA METHYLOME IN LYMPHOCYTES. HOWEVER, POTENTIAL INTERACTIONS BETWEEN DNA METHYLATION AND GENETIC BACKGROUND IN RELATION TO ME/CFS HAVE NOT BEEN EXAMINED. IN THIS STUDY WE EXPLORED THIS ASSOCIATION BY CHARACTERIZING THE EPIGENETIC (~480 THOUSAND CPG LOCI) AND GENETIC (~4.3 MILLION SNPS) VARIATION BETWEEN COHORTS OF ME/CFS PATIENTS AND HEALTHY CONTROLS. WE FOUND SIGNIFICANT ASSOCIATIONS OF DNA METHYLATION STATES IN T-LYMPHOCYTES AT SEVERAL CPG LOCI AND REGIONS WITH ME/CFS PHENOTYPE. THESE METHYLATION ANOMALIES ARE IN CLOSE PROXIMITY TO GENES INVOLVED WITH IMMUNE FUNCTION AND CELLULAR METABOLISM. FINALLY, WE FOUND SIGNIFICANT CORRELATIONS OF GENOTYPES WITH METHYLATION MODIFICATIONS ASSOCIATED WITH ME/CFS. THE FINDINGS FROM THIS STUDY HIGHLIGHT THE ROLE OF EPIGENETIC AND GENETIC INTERACTIONS IN COMPLEX DISEASES, AND SUGGEST SEVERAL GENETIC AND EPIGENETIC ELEMENTS POTENTIALLY INVOLVED IN THE MECHANISMS OF DISEASE IN ME/CFS. 2018 20 4775 38 NUCLEIC ACID-SENSING AND INTERFERON-INDUCIBLE PATHWAYS SHOW DIFFERENTIAL METHYLATION IN MZ TWINS DISCORDANT FOR LUPUS AND OVEREXPRESSION IN INDEPENDENT LUPUS SAMPLES: IMPLICATIONS FOR PATHOGENIC MECHANISM AND DRUG TARGETING. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC, MULTISYSTEM, AUTOIMMUNE INFLAMMATORY DISEASE WITH GENOMIC AND NON-GENOMIC CONTRIBUTIONS TO RISK. WE HYPOTHESIZE THAT EPIGENETIC FACTORS ARE A SIGNIFICANT CONTRIBUTOR TO SLE RISK AND MAY BE INFORMATIVE FOR IDENTIFYING PATHOGENIC MECHANISMS AND THERAPEUTIC TARGETS. TO TEST THIS HYPOTHESIS WHILE CONTROLLING FOR GENETIC BACKGROUND, WE PERFORMED AN EPIGENOME-WIDE ANALYSIS OF DNA METHYLATION IN GENOMIC DNA FROM WHOLE BLOOD IN THREE PAIRS OF FEMALE MONOZYGOTIC (MZ) TWINS OF EUROPEAN ANCESTRY, DISCORDANT FOR SLE. RESULTS WERE REPLICATED ON THE SAME ARRAY IN FOUR CELL TYPES FROM A SET OF FOUR DANISH FEMALE MZ TWIN PAIRS DISCORDANT FOR SLE. GENES IMPLICATED BY THE EPIGENETIC ANALYSES WERE THEN EVALUATED IN 10 INDEPENDENT SLE GENE EXPRESSION DATASETS FROM THE GENE EXPRESSION OMNIBUS (GEO). THERE WERE 59 DIFFERENTIALLY METHYLATED LOCI BETWEEN UNAFFECTED AND AFFECTED MZ TWINS IN WHOLE BLOOD, INCLUDING 11 NOVEL LOCI. ALL BUT TWO OF THESE LOCI WERE HYPOMETHYLATED IN THE SLE TWINS RELATIVE TO THE UNAFFECTED TWINS. THE GENES HARBORING THESE HYPOMETHYLATED LOCI EXHIBITED INCREASED EXPRESSION IN MULTIPLE INDEPENDENT DATASETS OF SLE PATIENTS. THIS PATTERN WAS LARGELY CONSISTENT REGARDLESS OF DISEASE ACTIVITY, CELL TYPE, OR RENAL TISSUE TYPE. THE GENES PROXIMAL TO CPGS EXHIBITING DIFFERENTIAL METHYLATION (DM) IN THE SLE-DISCORDANT MZ TWINS AND EXHIBITING DIFFERENTIAL EXPRESSION (DE) IN INDEPENDENT SLE GEO COHORTS (DM-DE GENES) CLUSTERED INTO TWO PATHWAYS: THE NUCLEIC ACID-SENSING PATHWAY AND THE TYPE I INTERFERON PATHWAY. THE DM-DE GENES WERE ALSO INFORMATICALLY QUERIED FOR POTENTIAL GENE-DRUG INTERACTIONS, YIELDING A LIST OF 41 DRUGS INCLUDING A KNOWN SLE THERAPY. THE DM-DE GENES DELINEATE TWO IMPORTANT BIOLOGIC PATHWAYS THAT ARE NOT ONLY REFLECTIVE OF THE HETEROGENEITY OF SLE BUT MAY ALSO CORRELATE WITH DISTINCT IFN RESPONSES THAT DEPEND ON THE SOURCE, TYPE, AND LOCATION OF NUCLEIC ACID MOLECULES AND THE ACTIVATED RECEPTORS IN INDIVIDUAL PATIENTS. CELL- AND TISSUE-SPECIFIC ANALYSES WILL BE CRITICAL TO THE UNDERSTANDING OF GENETIC FACTORS DYSREGULATING THE NUCLEIC ACID-SENSING AND IFN PATHWAYS AND WHETHER THESE FACTORS COULD BE APPROPRIATE TARGETS FOR THERAPEUTIC INTERVENTION. 2021