1 850 125 CHILDREN WITH CHRONIC IMMUNE THROMBOCYTOPENIA EXHIBIT HIGH EXPRESSION OF HUMAN ENDOGENOUS RETROVIRUSES TRIM28 AND SETDB1. CHRONIC IMMUNE THROMBOCYTOPENIA (CITP) IS AN AUTOIMMUNE DISEASE WHOSE UNDERLYING BIOLOGIC MECHANISMS REMAIN ELUSIVE. HUMAN ENDOGENOUS RETROVIRUSES (HERVS) DERIVE FROM ANCESTRAL INFECTIONS AND CONSTITUTE ABOUT 8% OF OUR GENOME. A WEALTH OF CLINICAL AND EXPERIMENTAL STUDIES HIGHLIGHTS THEIR PIVOTAL PATHOGENETIC ROLE IN AUTOIMMUNE DISEASES. EPIGENETIC MECHANISMS, SUCH AS THOSE MODULATED BY TRIM28 AND SETDB1, ARE INVOLVED IN HERV ACTIVATION AND REGULATION OF IMMUNE RESPONSE. WE ASSESSED, THROUGH A POLYMERASE CHAIN REACTION REAL-TIME TAQMAN AMPLIFICATION ASSAY, THE TRANSCRIPTION LEVELS OF POL GENES OF HERV-H, HERV-K, AND HERV-W; ENV GENES OF SYNCYTIN (SYN)1, SYN2, AND HERV-W; AS WELL AS TRIM28 AND SETDB1 IN WHOLE BLOOD FROM 34 CHILDREN WITH CITP AND AGE-MATCHED HEALTHY CONTROLS (HC). THE TRANSCRIPTIONAL LEVELS OF ALL HERV SEQUENCES, WITH THE EXCEPTION OF HERV-W-ENV, WERE SIGNIFICANTLY ENHANCED IN CHILDREN WITH CITP AS COMPARED TO HC. PATIENTS ON ELTROMBOPAG TREATMENT EXHIBITED LOWER EXPRESSION OF SYN1, SYN2, AND HERV-W-ENV AS COMPARED TO UNTREATED PATIENTS. THE MRNA CONCENTRATIONS OF TRIM28 AND SETDB1 WERE SIGNIFICANTLY HIGHER AND WERE POSITIVELY CORRELATED WITH THOSE OF HERVS IN CITP PATIENTS. THE OVER-EXPRESSIONS OF HERVS AND TRIM28/SETDB1 AND THEIR POSITIVE CORRELATIONS IN PATIENTS WITH CITP ARE SUGGESTIVE CLUES OF THEIR CONTRIBUTION TO THE PATHOGENESIS OF THE DISEASE AND SUPPORT INNOVATIVE INTERVENTIONS TO INHIBIT HERV AND TRIM28/SETDB1 EXPRESSIONS IN PATIENTS UNRESPONSIVE TO STANDARD THERAPIES. 2023 2 2515 31 EPIGENETICS AND SJOGREN'S SYNDROME. THERE IS GROWING EVIDENCE THAT EPIGENETICS, THE STUDY OF HERITABLE CHANGES IN GENE EXPRESSION THAT DO NOT INVOLVE MUTATIONS IN THE DNA ITSELF, MAY PLAY AN ESSENTIAL ROLE IN AUTOIMMUNE DISEASES (AID). IN SJOGREN'S SYNDROME (SS), A CHRONIC AID CHARACTERIZED BY AN EPITHELIS OF THE EXOCRINE GLANDS, EPIGENETIC STUDIES HAVE FOCUSED ON THREE MECHANISMS: DNA METHYLATION AND ITS CONSEQUENCES INCLUDING HUMAN ENDOGENOUS RETROVIRUS (HERV) EXPRESSION; MICRORNA EXPRESSION; AND PROTEIN POST-TRANSLATIONAL MODIFICATIONS ASSOCIATED WITH AUTOANTIBODY PRODUCTION. ALTHOUGH IN ITS INFANCY, COMPREHENSION OF THE EPIGENETIC (DYS)REGULATION IN SS MAY HELP US TO UNDERSTAND: WHY SS AFFECTS PREDOMINANTLY MIDDLE-AGED WOMEN; WHY GENETICALLY PREDISPOSED INDIVIDUALS DEVELOP SS BUT NOT OTHERS; WHY FLARE-UPS OCCUR; WHY TREATMENT RESPONSES DIFFER BETWEEN PATIENTS; AND WHY SOME PATIENTS DEVELOP LYMPHOMA. FROM THESE STUDIES WILL ARISE A BETTER COMPREHENSION OF THE PATHOPHYSIOLOGY OF SS AS WELL AS DEVELOPMENT OF NEW DIAGNOSTIC AND PROGNOSTIC BIOMARKERS, AND NOVEL THERAPEUTICS FOR PREVENTION AND PERHAPS EARLY INTERVENTION. 2012 3 4457 38 MOLECULAR MECHANISMS MEDIATED BY HUMAN ENDOGENOUS RETROVIRUSES (HERVS) IN AUTOIMMUNITY. EIGHT PER CENT OF THE HUMAN GENOME IS DERIVED FROM THE INTEGRATION OF RETROVIRAL SEQUENCES THAT WERE INCORPORATED IN OUR DNA MORE THAN 25 MILLION YEARS AGO. ALTHOUGH SOME OF THESE ELEMENTS SHOW MUTATIONS AND DELETIONS, SOME HERVS ARE TRANSCRIPTIONALLY ACTIVE AND PRODUCE FUNCTIONAL PROTEINS. DIFFERENT MECHANISMS HAVE BEEN DESCRIBED WHICH LINK HERVS TO SOME CHRONIC DISEASES SUCH AS SEVERAL CANCERS, NERVOUS SYSTEM DISEASES AND AUTOIMMUNE RHEUMATIC AND CONNECTIVE TISSUE DISEASES. THEY COULD CAUSE DISEASE BECAUSE OF THEIR CAPACITY FOR BEING MOVED AND INSERTED NEXT TO CERTAIN GENES WHOSE EXPRESSION WOULD BE CONSEQUENTIALLY ALTERED. ANOTHER WAY IN WHICH DISEASE COULD POTENTIALLY ARISE IS WHEN HERV-ENCODED PROTEINS ARE EXPRESSED. THESE PROTEINS WOULD BE CONSIDERED AS [FOREIGN] AND THEY COULD TRIGGER B-CELLS TO PRODUCE ANTIBODIES AGAINST THEM, WHICH, IN TURN, MIGHT CROSS-REACT WITH OTHER PROTEINS OF OUR BODIES. THIS MECHANISM COULD GIVE RISE TO AUTOIMMUNE DISEASES SUCH AS RHEUMATOID ARTHRITIS (RA), LUPUS ERYTHEMATOSUS, SJOGREN'S SYNDROME (SJS), MIXED CONNECTIVE TISSUE DISEASES AND INFLAMMATORY NEUROLOGICAL DISEASE. FURTHERMORE, IT SHOULD BE POINTED OUT THAT HERV-PROTEINS MAY ACT AS SUPERANTIGENS. INTERESTINGLY, SOME ENVIRONMENTAL AGENTS SEEM TO INDUCE THE EXPRESSION OF HERVS. THUS, ULTRAVIOLET LIGHT AND SEVERAL CHEMICAL AGENTS COULD REACTIVATE SUCH SEQUENCES BY ALTERING THEIR STRUCTURE WITHOUT MODIFYING THEIR NUCLEOTIDE COMPOSITION WHEN THE METHYLATION PATTERN IS CHANGED. THEREFORE, THE EPIGENETIC CHANGES OBSERVED IN PATHOLOGICAL CONDITIONS SUCH AS SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) OR CANCER COULD BE TRANSLATED INTO AN EFFECT ON THE ACTIVATION OF SOME OF THE RETROELEMENTS PRESENT IN OUR GENOME WHICH ULTIMATELY COULD HAVE A DIRECT OR INDIRECT ROLE ON THE INITIATION AND CLINICAL EVOLUTION OF CERTAIN CHRONIC DISEASES. 2009 4 1691 28 DUCTAL CELLS OF MINOR SALIVARY GLANDS IN SJOGREN'S SYNDROME EXPRESS LINE-1 ORF2P AND APOBEC3B. BACKGROUND: TYPE I INTERFERON ACTIVATION IS A HALLMARK EVENT IN SJOGREN'S SYNDROME. L1 RETROELEMENTS STIMULATE PLASMACYTOID DENDRITIC CELLS, ACTIVATING THE TYPE I INTERFERONS, AND ARE REGULATED BY VARIOUS MECHANISMS, INCLUDING THE APOBEC3 DEAMINASES. AS L1S ARE POTENTIAL TRIGGER FACTORS IN AUTOIMMUNITY, WE AIMED TO INVESTIGATE THE IMMUNOHISTOCHEMICAL LOCALIZATION OF L1 ORF2P AND ITS INHIBITOR APOBEC3B PROTEIN IN MINOR SALIVARY GLANDS OF SJOGREN'S SYNDROME PATIENTS. METHODS: TWENTY MINOR SALIVARY GLAND-TISSUE SAMPLES FROM 20 SJOGREN'S SYNDROME PATIENTS, CLASSIFIED ACCORDING TO TARPLEY'S HISTOLOGICAL CRITERIA, AND 10 CONTROLS WERE EVALUATED FOR L1 ORF2P AND APOBEC3B EXPRESSION VIA IMMUNOHISTOCHEMISTRY. RESULTS: L1 ORF2P WAS EXPRESSED IN 17/20 SS PATIENTS AND ALL CONTROLS. APOBEC3B EXPRESSION WAS OBSERVED IN 15/20 SJOGREN'S SYNDROME PATIENTS, 5/5 CHRONIC SIALADENITIS, AND 3/5 NORMAL MINOR SALIVARY GLANDS. BOTH ANTIBODIES STAINED THE CYTOPLASM OF THE DUCTAL EPITHELIAL CELLS. NEGATIVE STAINING WAS OBSERVED IN THE ACINAR CELLS. L1 ORF2P-POSITIVE IMMUNOSTAINING WAS SIGNIFICANTLY LOWER IN TARPLEY IV SJOGREN'S SYNDROME PATIENTS THAN CONTROLS (P = .039), AND APOBEC3B-POSITIVE STAINING WAS SIGNIFICANTLY LOWER IN TARPLEY I COMPARED TO TARPLEY II SJOGREN'S SYNDROME PATIENTS (P = .008) AND CONTROLS (P = .035). CONCLUSIONS: L1 ORF2P AND APOBEC3B ARE EXPRESSED IN THE DUCTAL EPITHELIAL CELLS OF MINOR SALIVARY GLANDS THAT ARE AMONG THE KEY TARGETS IN SJOGREN'S SYNDROME. L1 ORF2P EXPRESSION MAY PROMOTE THE L1 ABILITY TO ACT AS AN INTRINSIC ANTIGEN IN SJOGREN'S SYNDROME. THE POTENTIAL FUTURE USE OF L1 ORF2-REVERSE TRANSCRIPTASE INHIBITORS IN AUTOIMMUNITY SUPPORTS FURTHER INVESTIGATION OF L1 EPIGENETIC REGULATION BY APOBEC3 ENZYMES. 2018 5 6050 23 THE CONTRIBUTION OF EPIGENETICS IN SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE EPITHELITIS THAT COMBINES EXOCRINE GLAND DYSFUNCTIONS AND LYMPHOCYTIC INFILTRATIONS. WHILE THE PATHOGENESIS OF SS REMAINS UNCLEAR, ITS ETIOLOGY IS MULTIFUNCTIONAL AND INCLUDES A COMBINATION OF GENETIC PREDISPOSITIONS, ENVIRONMENTAL FACTORS, AND EPIGENETIC FACTORS. RECENTLY, INTEREST HAS GROWN IN THE INVOLVEMENT OF EPIGENETICS IN AUTOIMMUNE DISEASES. EPIGENETICS IS DEFINED AS CHANGES IN GENE EXPRESSION, THAT ARE INHERITABLE AND THAT DO NOT ENTAIL CHANGES IN THE DNA SEQUENCE. IN SS, SEVERAL EPIGENETIC MECHANISMS ARE DEFECTIVE INCLUDING DNA DEMETHYLATION THAT PREDOMINATES IN EPITHELIAL CELLS, AN ABNORMAL EXPRESSION OF MICRORNAS, AND ABNORMAL CHROMATIN POSITIONING-ASSOCIATED WITH AUTOANTIBODY PRODUCTION. LAST BUT NOT LEAST, EPIGENETIC MODIFICATIONS ARE REVERSIBLE AS OBSERVED IN MINOR SALIVARY GLANDS FROM SS PATIENTS AFTER B CELL DEPLETION USING RITUXIMAB. THUS EPIGENETIC FINDINGS IN SS OPEN NEW PERSPECTIVES FOR THERAPEUTIC APPROACHES AS WELL AS THE POSSIBLE IDENTIFICATION OF NEW BIOMARKERS. 2014 6 207 39 ACTIVATION OF THE TYPE I INTERFERON PATHWAY IN PRIMARY SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS), A CHRONIC AUTOIMMUNE SYSTEMIC DISEASE AFFECTING MIDDLE AGED WOMEN, IS CHARACTERIZED BY LYMPHOCYTIC INFILTRATION OF THE SALIVARY AND LACHRYMAL GLANDS RESULTING IN DRY EYES AND DRY MOUTH. RECENT ADVANCES HAVE REVEALED A MAJOR ROLE FOR ACTIVATION OF THE TYPE I INTERFERON (IFN) PATHWAY IN THE PATHOGENESIS OF THE SYNDROME, AS EVIDENCED BY THE INCREASED CIRCULATING TYPE I IFN ACTIVITY AND AN IFN "SIGNATURE" IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) AND MINOR SALIVARY GLAND (MSG) BIOPSIES FROM THESE PATIENTS. POLYMORPHISMS IN GENES INVOLVED IN THE IFNALPHA PATHWAY, SUCH AS IRF5 AND STAT4, HAVE BEEN FOUND TO BE ASSOCIATED WITH DISEASE SUSCEPTIBILITY. WHILE THE INITIAL TRIGGERS OF THE INNATE IMMUNE RESPONSE IN SS REMAIN ELUSIVE, PRELIMINARY EVIDENCE SUPPORTS THE ROLE OF INAPPROPRIATELY EXPRESSED ENDOGENOUS LINE-1 (L1) RETROELEMENTS AS POTENTIAL TRIGGERS OF TYPE I IFN ACTIVATION IN SS, POSSIBLY THROUGH TOLL-LIKE RECEPTOR (TLR) DEPENDENT OR INDEPENDENT PATHWAYS. PROTEINS OF THE METHYLATION MACHINERY AND THE APOBEC FAMILY OF CYTIDINE DEAMINASES ARE COORDINATELY OVEREXPRESSED, SUGGESTING THAT THOSE PROTEINS MIGHT CONTRIBUTE TO REGULATION OF THE INAPPROPRIATELY EXPRESSED L1 ENDOGENOUS RETROELEMENTS IN SS. GIVEN THE APPARENT CENTRAL ROLE OF IFNALPHA IN THE PATHOGENESIS OF SS, BLOCKADE OF THIS CYTOKINE MAY BE A RATIONAL THERAPEUTIC APPROACH. IN THE CURRENT REVIEW WE SUMMARIZE THE CURRENT EVIDENCE REGARDING THE POTENTIAL TRIGGERS OF TYPE I IFN ACTIVATION AS WELL AS THE DATA SUPPORTING GENETIC AND EPIGENETIC REGULATION OF THE TYPE I IFN SYSTEM IN SS. 2010 7 5723 29 SJOGREN'S SYNDROME X-CHROMOSOME DOSE EFFECT: AN EPIGENETIC PERSPECTIVE. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE DISEASE AFFECTING EXOCRINE GLANDS LEADING TO MOUTH AND EYES DRYNESS. THE EXTENT TO WHICH EPIGENETIC DNA METHYLATION CHANGES ARE RESPONSIBLE FOR AN X-CHROMOSOME DOSE EFFECT HAS YET TO BE DETERMINED. OUR OBJECTIVES WERE TO (I) DESCRIBE HOW EPIGENETIC DNA METHYLATION CHANGES COULD EXPLAIN AN X-CHROMOSOME DOSE EFFECT IN SS FOR WOMEN WITH NORMAL 46,XX GENOTYPE AND (II) DETERMINE THE RELEVANT RELATIONSHIPS TO THIS DOSE EFFECT, BETWEEN X-LINKED GENES, GENES CONTROLLING X-CHROMOSOME INACTIVATION (XCI) AND GENES ENCODING ASSOCIATED TRANSCRIPTION FACTORS, ALL OF WHICH ARE DIFFERENTIALLY EXPRESSED AND/OR DIFFERENTIALLY METHYLATED IN THE SALIVARY GLANDS OF PATIENTS WITH SS. WE IDENTIFIED 58 UPREGULATED X-CHROMOSOME GENES, INCLUDING 22 GENES PREVIOUSLY SHOWN TO ESCAPE XCI, BASED ON THE ANALYSIS OF SS PATIENT SALIVARY GLAND GEO2R GENE EXPRESSION DATASETS. MOREOVER, WE FOUND XIST AND ITS CIS REGULATORS RLIM, FTX, AND CHIC1, AND POLYCOMB REPRESSOR GENES OF THE PRC1/2 COMPLEXES TO BE UPREGULATED. MANY OF THE X-CHROMOSOME GENES IMPLICATED IN SS PATHOGENESIS CAN BE REGULATED BY TRANSCRIPTION FACTORS WHICH WE FOUND TO BE OVEREXPRESSED AND/OR DIFFERENTIALLY METHYLATED IN PATIENTS WITH SS. DETERMINATION OF THE MECHANISMS UNDERLYING METHYLATION-DEPENDENT GENE EXPRESSION AND IMPAIRED XCI IS NEEDED TO FURTHER ELUCIDATE THE ETIOPATHOGENESIS OF SS. 2019 8 2222 26 EPIGENETIC MODIFICATIONS IN SALIVARY GLANDS FROM PATIENTS WITH SJOGREN'S SYNDROME AFFECT CYTOKERATIN 19 EXPRESSION. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE EPITHELITIS, AND SEVERAL LINES OF EXPERIMENTS INDICATE THAT MULTIFACTORIAL FACTORS CONTRIBUTE TO SALIVARY GLAND EPITHELIAL CELLS (SGEC) DYSFUNCTIONS INCLUDING A COMBINATION OF ENVIRONMENTAL FACTORS, LYMPHOCYTIC INFILTRATIONS, GENETIC PREDISPOSITIONS AS WELL AS EPIGENETIC DEFECTS. SUCH STATEMENT IS REINFORCED BY THE OBSERVATION THAT GLOBAL DNA METHYLATION (5MECYT) IS ALTERED IN MINOR SALIVARY GLANDS FROM PSS PATIENTS AND THAT SUCH DEFECT IS ASSOCIATED CYTOKERATIN 19 (KRT19) OVEREXPRESSION. AN EPIGENETIC DEREGULATION OF THE KRT19 GENE WAS FURTHER TESTED BY TREATING THE HUMAN SALIVARY GLAND (HSG) CELL LINE WITH THE DNA DEMETHYLATING AGENT 5-AZACYTIDIN, AND WITH THE HISTONE ACETYLASE INHIBITOR TRICHOSTATIN A. BLOCKING DNA METHYLATION, BUT NOT HISTONE ACETYLATION, WITH 5-AZACYTIDIN WAS ASSOCIATED WITH KRT19 OVEREXPRESSION AT BOTH TRANSCRIPTIONAL AND PROTEIN LEVEL. NEXT, ANALYSIS OF THE CPG GENOME-WIDE METHYLOME ARRAY IN THE KTR19 LOCUS FROM LONG TERM CULTURED SGEC OBTAINED FROM 8 PSS PATIENTS REVEALED A MORE REDUCED DNA METHYLATION LEVEL IN THOSE PATIENTS WITH DEFECTIVE GLOBAL DNA METHYLATION. ALTOGETHER, OUR DATA, THEREFORE, SUGGEST THAT ALTERATION OF DNA METHYLATION IN SGEC MAY CONTRIBUTE TO PSS PATHOPHYSIOLOGY IN PART BY CONTROLLING THE EXPRESSION OF KRT19. 2016 9 1603 35 DNA METHYLATION STUDIES IN SALIVA OF PATIENTS WITH SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS) IS A RELATIVELY COMMON SYSTEMIC AUTOIMMUNE DISEASE OF UNKNOWN AETIOLOGY, ALTHOUGH GENETIC, HORMONAL, IMMUNOLOGIC, AND ENVIRONMENTAL FACTORS ARE THOUGHT TO BE INVOLVED IN DISEASE PATHOGENESIS. IT IS ALSO TERMED "AUTOIMMUNE EPITHELITIS", AND AFFLICTS MAINLY THE EPITHELIAL STRUCTURES OF SALIVARY AND LACHRYMAL GLANDS, THROUGH PERIEPITHELIAL LYMPHOCYTIC INFILTRATION RESPONSIBLE FOR THE OCCURRENCE OF DRYNESS SYMPTOMS. SJOGREN'S SYNDROME (SS) IS ALSO CHARACTERISED BY B CELL HYPERACTIVITY AS REFLECTED BY THE PRESENCE OF HYPERGAMMAGLOBULINEMIA AND THE PRODUCTION OF AUTOANTIBODIES, WHICH SEEMS TO BE ASSOCIATED WITH THE PRESENCE OF ECTOPIC GERMINAL CENTRES WITHIN THE INFLAMED MINOR SALIVARY GLANDS. CHRONIC ANTIGENIC STIMULATION MAY LEAD TO EXPANSION OF B CELL AUTOREACTIVE CLONES WITH RHEUMATOID FACTOR ACTIVITY, AND ADDITIONAL MOLECULAR EVENTS MEDIATE MALIGNANT TRANSFORMATION INTO NON-HODGKIN'S LYMPHOMAS OF B CELL ORIGIN. THEREFORE, THE INTERACTION BETWEEN THE IMMUNE CELLS OF THE INFLAMMATORY INFILTRATE AND THE SALIVARY EPITHELIUM SEEMS TO HAVE AN IMPORTANT CONTRIBUTION IN DISEASE PROCESS. RECENT HISTOPATHOLOGIC AND MOLECULAR STUDIES HAVE SHOWN THAT DNA METHYLATION LEVELS OF SS PATIENTS COMPARED TO HEALTHY INDIVIDUALS DIFFER IN EPITHELIAL CELLS OF SALIVARY GLANDS AND PERIPHERAL BLOOD MONONUCLEAR CELLS. IN THE PRESENT STUDY, WE INTEND TO ANALYSE THE EPIGENETIC MODIFICATIONS OF DNA IN THE SALIVA OF SS PATIENTS COMPARED TO HEALTHY CONTROLS. MORE SPECIFICALLY, SALIVARY DNA METHYLATION LEVELS OF SELECTED GENETIC LOCI PREVIOUSLY FOUND TO DIFFER IN OTHER TISSUES, WILL BE COMPARED BETWEEN SS PATIENTS AND HEALTHY CONTROLS. THE STUDY INCLUDES SALIVA COLLECTION FROM SS PATIENTS AND HEALTHY INDIVIDUALS, EXTRACTION OF GENOMIC DNA AND METHYLATION ASSESSMENT. THE EPIGENETIC PROFILE OF EACH GENETIC LOCUS WILL BE CORRELATED WITH SS PATIENTS' CLINICAL CHARACTERISTICS AND THE POSSIBILITY OF GENETIC LOCI WITH DIFFERENTIAL DIFFERENCES IN METHYLATION TO BE USED AS POTENTIAL DIAGNOSTIC BIOMARKERS WILL BE EXPLORED. THE CURRENT STUDY IS ANTICIPATED TO REVEAL POTENTIAL BIOMARKERS FOR DIAGNOSTIC AND THERAPEUTIC PURPOSES, OFFERING THE ADVANTAGE TO UTILISE THE EASILY COLLECTED AND HANDLED SALIVA AS THE MAIN BIOLOGIC MATERIAL. 2021 10 3866 37 JHDM1D AND HDAC1-3 MRNA EXPRESSION LEVELS IN PERIPHERAL BLOOD MONONUCLEAR CELLS OF PATIENTS WITH SYSTEMIC LUPUS ERYTHEMATOSUS. BACKGROUND: SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC RELAPSING AUTOIMMUNE DISEASE CHARACTERIZED BY PRODUCTION OF AUTOANTIBODIES AGAINST A SERIES OF NUCLEAR ANTIGENS AND BY CHRONIC INFLAMMATION. THE ETIOLOGY OF SLE IS THE RESULT OF INTERACTIONS BETWEEN GENETIC, EPIGENETIC, HORMONAL, AND ENVIRONMENTAL FACTORS. CHANGES IN HISTONE ACETYLATION AND METHYLATION CONTRIBUTE TO STRUCTURAL CHROMATIN MODIFICATIONS. OBJECTIVE: WE STUDIED THE HISTONE DEMETHYLASE JHDM1D AND HISTONE DEACETYLASES HDAC1, HDAC2, AND HDAC3 TRANSCRIPT LEVELS IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM PATIENTS DIAGNOSED WITH SYSTEMIC LUPUS ERYTHEMATOSUS (SLE). FURTHERMORE, THE ASSOCIATION OF JHDM1D, HDAC1, HDAC2, AND HDAC3 TRANSCRIPT LEVELS WITH GENDER, AGE, AND MAJOR CLINICAL MANIFESTATIONS WERE ANALYZED. MATERIALS AND METHODS: REAL-TIME QUANTITATIVE POLYMERASE CHAIN REACTION (RQ-PCR) ANALYSIS WAS USED TO DETERMINE JHDM1D, HDAC1, HDAC2, AND HDAC3 MRNA EXPRESSION LEVELS IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM 30 PATIENTS WITH SLE AND 36 HEALTHY CONTROLS. RESULTS: SIGNIFICANTLY LOWER HDAC2 TRANSCRIPT LEVELS (P = 0.006785) AND SIGNIFICANTLY HIGHER JHDM1D (P = 0.0000002) AND HDAC1 (P = 0.010581) TRANSCRIPT LEVELS IN SLE PATIENTS WERE OBSERVED COMPARED WITH HEALTHY CONTROLS. HIGHER JHDM1D MRNA EXPRESSION WAS DETECTED IN ACTIVE SLE PATIENTS WHEN COMPARED WITH INACTIVE PATIENTS (P = 0.005). FURTHERMORE, THE JHDM1D TRANSCRIPT LEVELS WERE POSITIVELY CORRELATED WITH DISEASE ACTIVITY (R(S) = 0.368, P = 0.045), WHILE HDAC2 MRNA EXPRESSION WAS POSITIVELY CORRELATED WITH DISEASE DURATION (R(S) = 0.502, P = 0.0047). CONCLUSION: OUR ANALYSES CONFIRMED THE IMPORTANCE OF EPIGENETIC ALTERATIONS (HISTONE DEMETHYLATION AND ACETYLATION) IN SLE ETIOLOGY. MOREOVER, OUR RESULTS SUGGEST THAT THE PRESENCE OF SOME CLINICAL MANIFESTATIONS, LIKE HEMATOLOGICAL DISEASE AND ANTI-RO ANTIBODY, MIGHT BE ASSOCIATED WITH THE DYSREGULATION OF HISTONE DEMETHYLASE AND DEACETYLASES MRNA EXPRESSION LEVELS. 2015 11 2552 24 EPIGENETICS IN PRIMARY SJOGREN'S SYNDROME. PRIMARY SJOGREN'S SYNDROME (SJS) IS A CHRONIC AND SYSTEMIC AUTOIMMUNE EPITHELITIS WITH PREDOMINANT FEMALE INCIDENCE, WHICH IS CHARACTERIZED BY EXOCRINE GLAND DYSFUNCTION. INCOMPLETELY UNDERSTOOD, THE ETIOLOGY OF SJS IS MULTI-FACTORIAL AND EVIDENCE IS GROWING TO CONSIDER THAT EPIGENETIC FACTORS ARE PLAYING A CRUCIAL ROLE IN ITS DEVELOPMENT. INDEPENDENT FROM DNA SEQUENCE MUTATIONS, EPIGENETICS IS DESCRIBED AS INHERITABLE AND REVERSIBLE PROCESSES THAT MODIFY GENE EXPRESSION. EPIGENETIC MODIFICATIONS REPORTED IN MINOR SALIVARY GLAND AND LYMPHOCYTES FROM SJS PATIENTS ARE RELATED TO (I) AN ABNORMAL DNA METHYLATION PROCESS INDUCING IN TURN DEFECTIVE CONTROL OF NORMALLY REPRESSED GENES INVOLVING SUCH MATTERS AS AUTOANTIGENS, RETROTRANSPOSONS, AND THE X CHROMOSOME IN WOMEN; (II) ALTERED NUCLEOSOME POSITIONING ASSOCIATED WITH AUTOANTIBODY PRODUCTION; AND (III) ALTERED CONTROL OF MICRORNA. RESULTS FROM EPIGENOME-WIDE ASSOCIATION STUDIES HAVE FURTHER REVEALED THE IMPORTANCE OF THE INTERFERON PATHWAY IN DISEASE PROGRESSION, THE CALCIUM SIGNALING PATHWAY FOR CONTROLLING FLUID SECRETIONS, AND A CELL-SPECIFIC CROSS TALK WITH RISK FACTORS ASSOCIATED WITH SJS. IMPORTANTLY, EPIGENETIC MODIFICATIONS ARE REVERSIBLE THUS OPENING OPPORTUNITIES FOR THERAPEUTIC PROCEDURES IN THIS CURRENTLY INCURABLE DISEASE. 2020 12 2559 33 EPIGENETICS IN SYSTEMIC LUPUS ERYTHEMATOSUS: LEADING THE WAY FOR SPECIFIC THERAPEUTIC AGENTS. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC AUTOIMMUNE DISORDER OF AN UNCLEARLY DETERMINED ETIOLOGY. PAST STUDIES, BOTH EPIDEMIOLOGICAL AND BIOLOGICAL, HAVE IMPLICATED EPIGENETIC INFLUENCES IN DISEASE ETIOLOGY AND PATHOGENESIS. EPIGENETICS DESCRIBES CHANGES IN GENE EXPRESSION NOT LINKED TO ALTERATIONS IN THE UNDERLYING GENOMIC SEQUENCE, AND IS MOST OFTEN TYPIFIED BY THREE MODIFICATIONS: METHYLATION OF DNA, ADDITION OF VARIOUS SIDE CHAINS TO HISTONE GROUPS AND TRANSCRIPTIONAL REGULATION VIA SHORT NCRNA SEQUENCES. THE PURPOSE OF THIS ARTICLE IS TO REVIEW THE MOST IMPORTANT ADVANCES THAT LINK EPIGENETIC CHANGES TO LUPUS. THE CONTRIBUTION OF DNA METHYLATION CHANGES TO LUPUS PATHOGENESIS IS DISCUSSED. THESE INCLUDE THE ROLE OF APOPTOTIC DNA, ULTRAVIOLET RADIATION, ENDOGENOUS RETROVIRUSES, DIETARY CONTRIBUTIONS AND AGING. HYPOMETHYLATION OF SPECIFIC GENES OVEREXPRESSED IN LUPUS T CELLS SUCH AS ITGAL (CD11A), CD40LG (CD40L), TNFSF7 (CD70), KIR2DL4 AND PRF1 (PERFORIN), AND CD5 IN LUPUS B CELLS SEEM TO PLAY AN IMPORTANT ROLE. MOREOVER, HISTONE MODIFICATIONS SUCH AS INCREASED GLOBAL H4 ACETYLATION IN MONOCYTES ARE HIGHLY ASSOCIATED WITH SLE. NCRNAS, ESPECIALLY MIR-21, MIR-148A AND MIR-126, CONTROL OTHER ELEMENTS OF EPIGENETIC REGULATION; PARTICULARLY, TRANSCRIPTION OF THE MAINTENANCE DNA METHYLATION ENZYME DNMT1. EPIGENETIC CONTRIBUTIONS TO SLE ETIOLOGY HAVE BEEN WELL ESTABLISHED, BUT MUCH IS STILL UNKNOWN. EPIGENOME-WIDE STUDIES COUPLED WITH FUNCTIONAL ANALYSIS OF THE EPIGENOMIC CHANGES DISCOVERED WILL UNCOVER NOVEL PATHWAYS IMPORTANT IN DISEASE PATHOGENESIS. EPIGENETIC THERAPIES FOR SLE MAY BE FEASIBLE IN THE FUTURE, PARTICULARLY IF THEY ARE DESIGNED TO TARGET SPECIFIC REGIONS WITHIN THE GENOME. 2011 13 1985 31 EPIGENETIC ALTERATIONS IN PRIMARY SJOGREN'S SYNDROME - AN OVERVIEW. PRIMARY SJOGREN'S SYNDROME (PSS) IS A CHRONIC AUTOIMMUNE RHEUMATIC DISEASE CHARACTERIZED BY INFLAMMATION OF EXOCRINE GLANDS, MAINLY SALIVARY AND LACRIMAL GLANDS. IN ADDITION, PSS MAY AFFECT MULTIPLE OTHER ORGANS RESULTING IN SYSTEMIC MANIFESTATIONS. ALTHOUGH THE PRECISE ETIOLOGY OF PSS REMAINS ELUSIVE, PSS IS CONSIDERED TO BE A MULTI-FACTORIAL DISEASE, WHERE UNDERLYING GENETIC PREDISPOSITION, ENVIRONMENTAL FACTORS AND EPIGENETIC MECHANISMS CONTRIBUTE TO DISEASE DEVELOPMENT. EPIGENETIC MECHANISMS, SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND NON-CODING RNAS, MAY CONSTITUTE A DYNAMIC LINK BETWEEN GENOME, ENVIRONMENT AND PHENOTYPIC MANIFESTATION BY THEIR MODULATING EFFECTS ON GENE EXPRESSION. A GROWING BODY OF STUDIES REPORTING ALTERED EPIGENETIC LANDSCAPES IN PSS SUGGESTS THAT EPIGENETIC MECHANISMS PLAY A ROLE IN THE PATHOGENESIS OF PSS, AND THE REVERSIBLE NATURE OF EPIGENETIC MODIFICATIONS SUGGESTS THERAPEUTIC STRATEGIES TARGETING EPIGENETIC DYSREGULATION IN PSS. THIS ARTICLE REVIEWS OUR CURRENT UNDERSTANDING OF EPIGENETIC MECHANISMS IN PSS AND DISCUSSES IMPLICATIONS FOR NOVEL DIAGNOSTIC AND THERAPEUTIC APPROACHES. 2018 14 1297 40 DECREASED MRNA EXPRESSION LEVELS OF DNA METHYLTRANSFERASES TYPE 1 AND 3A IN SYSTEMIC LUPUS ERYTHEMATOSUS. OBJECTIVES: SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC RELAPSING AUTOIMMUNE DISEASE CHARACTERIZED BY THE PRESENCE OF AUTOANTIBODIES DIRECTED AGAINST NUCLEAR ANTIGENS AND BY CHRONIC INFLAMMATION. ALTHOUGH THE ETIOLOGY OF SLE REMAINS UNCLEAR, THE INFLUENCE OF ENVIRONMENT FACTORS, WHICH IS LARGELY REFLECTED BY THE EPIGENETIC MECHANISMS, WITH DNA METHYLATION CHANGES IN PARTICULAR, IS GENERALLY CONSIDERED AS MAIN PLAYERS IN THE PATHOGENESIS OF SLE. WE STUDIED DNA METHYLTRANSFERASES' (DNMTS) TYPE 1, 3A AND 3B TRANSCRIPT LEVELS IN PERIPHERAL BLOOD MONONUCLEAR CELLS FROM PATIENTS DIAGNOSED WITH SYSTEMIC LUPUS ERYTHEMATOSUS AND FROM THE HEALTHY CONTROL SUBJECTS. FURTHERMORE, THE ASSOCIATION OF DNMT1, DNMT3A, AND DNMT3B MRNA LEVELS WITH GENDER, AGE, AND MAJOR CLINICAL MANIFESTATIONS WAS ANALYZED. METHODS: PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) WERE ISOLATED FROM 32 SLE PATIENTS AND 40 HEALTHY CONTROLS. REVERSE TRANSCRIPTION AND REAL-TIME QUANTITATIVE POLYMERASE CHAIN REACTION (RT-QPCR) ANALYSES WERE USED TO DETERMINE DNMT1, DNMT3A, AND DNMT3B MRNA EXPRESSION LEVELS. RESULTS: SIGNIFICANTLY LOWER DNMT1 (P = 0.015543) AND DNMT3A (P = 0.003652) TRANSCRIPT LEVELS IN SLE PATIENTS WERE OBSERVED COMPARED WITH HEALTHY CONTROLS. NEVERTHELESS, THE DNMT3B MRNA EXPRESSION LEVELS WERE MARKEDLY LOWER COMPARED WITH DNMT1 AND DNMT3A, BOTH IN PBMCS FROM AFFECTED PATIENTS AND THOSE FROM CONTROL SUBJECTS. FURTHERMORE, THE DNMT1 TRANSCRIPT LEVELS WERE POSITIVELY CORRELATED WITH SLE DISEASE ACTIVITY INDEX (SLEDAI) (R (S) = 0.4087, P = 0.020224), WHILE THE DNMT3A TRANSCRIPT LEVELS WERE NEGATIVELY CORRELATED WITH PATIENTS AGE (R (S) = -0.3765, P = 0.03369). CONCLUSIONS: OUR ANALYSES CONFIRMED THE IMPORTANCE OF EPIGENETIC ALTERATIONS IN SLE ETIOLOGY. MOREOVER, OUR RESULTS SUGGEST THAT THE PRESENCE OF SOME CLINICAL MANIFESTATIONS, SUCH AS PHOTOTOSENSITIVITY AND ARTHRITIS, MIGHT BE ASSOCIATED WITH THE DYSREGULATION OF DNA METHYLTRANSFERASES' MRNA EXPRESSION LEVELS. 2017 15 3044 32 GENOME-WIDE ANALYSIS OF 5-HMC IN THE PERIPHERAL BLOOD OF SYSTEMIC LUPUS ERYTHEMATOSUS PATIENTS USING AN HMEDIP-CHIP. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC, POTENTIALLY FATAL SYSTEMIC AUTOIMMUNE DISEASE CHARACTERIZED BY THE PRODUCTION OF AUTOANTIBODIES AGAINST A WIDE RANGE OF SELF-ANTIGENS. TO INVESTIGATE THE ROLE OF THE 5-HMC DNA MODIFICATION WITH REGARD TO THE ONSET OF SLE, WE COMPARED THE LEVELS 5-HMC BETWEEN SLE PATIENTS AND NORMAL CONTROLS. WHOLE BLOOD WAS OBTAINED FROM PATIENTS, AND GENOMIC DNA WAS EXTRACTED. USING THE HMEDIP-CHIP ANALYSIS AND VALIDATION BY QUANTITATIVE RT-PCR (RT-QPCR), WE IDENTIFIED THE DIFFERENTIALLY HYDROXYMETHYLATED REGIONS THAT ARE ASSOCIATED WITH SLE. THERE WERE 1,701 GENES WITH SIGNIFICANTLY DIFFERENT 5-HMC LEVELS AT THE PROMOTER REGION IN THE SLE PATIENTS COMPARED WITH THE NORMAL CONTROLS. THE CPG ISLANDS OF 3,826 GENES SHOWED SIGNIFICANTLY DIFFERENT 5-HMC LEVELS IN THE SLE PATIENTS COMPARED WITH THE NORMAL CONTROLS. OUT OF THE DIFFERENTIALLY HYDROXYMETHYLATED GENES, THREE WERE SELECTED FOR VALIDATION, INCLUDING TREX1, CDKN1A AND CDKN1B. THE HYDROXYMETHYLATION LEVELS OF THE THREE GENES WERE CONFIRMED BY RT-QPCR. THE RESULTS SUGGESTED THAT THERE WERE SIGNIFICANT ALTERATIONS OF 5-HMC IN SLE PATIENTS. THUS, THESE DIFFERENTIALLY HYDROXYMETHYLATED GENES MAY CONTRIBUTE TO THE PATHOGENESIS OF SLE. THESE FINDINGS SHOW THE SIGNIFICANCE OF 5-HMC AS A POTENTIAL BIOMARKER OR PROMISING TARGET FOR EPIGENETIC-BASED SLE THERAPIES. 2015 16 2257 17 EPIGENETIC PERSPECTIVES IN SYSTEMIC LUPUS ERYTHEMATOSUS: PATHOGENESIS, BIOMARKERS, AND THERAPEUTIC POTENTIALS. SYSTEM LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC AUTOIMMUNE DISEASE CHARACTERIZED BY THE PRODUCTION OF AUTOANTIBODIES THAT CAUSE WIDESPREAD TISSUE DAMAGE. THE UNDERLYING ETIOLOGY REMAINS LARGELY UNKNOWN. ABERRANT EPIGENETICS PLAYS ESSENTIAL ROLES IN THE PATHOGENESIS OF SLE. THIS REVIEW EXPLORES THE LINKS BETWEEN DNA METHYLATION, HISTONE MODIFICATIONS, AND MIRNAS IN SLE AND HIGHLIGHTS HOW THESE FACTORS MAY INTERACT IN SLE PATHOGENESIS. WE ALSO DISCUSS HOW FURTHERING OUR KNOWLEDGE OF EPIGENETICS IN LUPUS PROVIDES HOPE FOR FINDING NEW DIAGNOSTIC AND PROGNOSTIC BIOMARKERS AND NOVEL THERAPEUTIC TARGETS AND STRATEGIES. 2010 17 1873 29 EMERGING ROLE OF MICRORNAS AND LONG NON-CODING RNAS IN SJOGREN'S SYNDROME. SJOGREN'S SYNDROME (SS) IS A CHRONIC AUTOIMMUNE INFLAMMATORY DISEASE. IT IS CONSIDERED A MULTIFACTORIAL PATHOLOGY, IN WHICH UNDERLYING GENETIC PREDISPOSITION, EPIGENETIC MECHANISMS AND ENVIRONMENTAL FACTORS CONTRIBUTE TO DEVELOPMENT. THE EPIGENETIC REGULATIONS REPRESENT A LINK BETWEEN GENETIC PREDISPOSITION AND ENVIRONMENTAL FACTORS. RECENT STUDIES SUGGESTED A REGULATORY ROLE FOR NON-CODING RNAS IN CRITICAL BIOLOGICAL AND DISEASE PROCESSES. AMONG NON-CODING RNAS, MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS) PLAY A CRITICAL ROLE IN THE POST-TRANSCRIPTIONAL MRNA EXPRESSION, FORMING A COMPLEX NETWORK OF GENE EXPRESSION REGULATION. THIS REVIEW AIMS TO GIVE AN OVERVIEW OF THE LATEST STUDIES THAT HAVE INVESTIGATED THE ROLE OF MIRNAS AND LNCRNAS IN THE SS. WE INCLUDED PAPERS THAT INVESTIGATED THE EXPRESSION OF NON-CODING RNAS ON DIFFERENT TISSUES, IN PARTICULAR ON PERIPHERAL BLOOD MONONUCLEAR CELLS AND SALIVARY GLANDS. HOWEVER, REGARDING THE INVOLVEMENT OF NON-CODING RNAS GENETIC VARIABILITY IN SS SUSCEPTIBILITY VERY FEW DATA ARE AVAILABLE. FURTHER RESEARCH COULD HELP TO ELUCIDATE UNDERLYING PATHOGENIC PROCESSES OF SS AND PROVIDE NEW OPPORTUNITIES FOR THE DEVELOPMENT OF TARGETED THERAPIES. 2021 18 1261 31 CURRENT VIEWS ON THE PATHOGENESIS OF SJOGREN'S SYNDROME. PURPOSE OF REVIEW: THE PURPOSE OF THIS REVIEW IS TO PROVIDE AN INSIGHT INTO THE PATHOPHYSIOLOGICAL MECHANISMS INVOLVED IN THE PATHOGENESIS OF PRIMARY SJOGREN'S SYNDROME (PSS), HIGHLIGHTING RECENT FINDINGS WITH POTENTIAL THERAPEUTIC REPERCUSSIONS. RECENT FINDINGS: IN THE LAST 2 YEARS, EPIGENETIC ANALYSES PROVIDED NEW INSIGHTS INTO PSS PATHOGENESIS. CHARACTERIZATION OF DNA METHYLATION PATTERNS, CHROMATIN STRUCTURES AND MICRORNA CONFIRMED THE IMPORTANCE OF ABERRANT INTERFERON AND B-CELL RESPONSES IN THE DEVELOPMENT OF THE DISEASE. THE FORMATION OF ECTOPIC B-CELL FOLLICLES WITH GERMINAL CENTERS IS NOW A WELL RECOGNIZED PATHOGENIC MECHANISM WITHIN SALIVARY GLANDS OF PSS. IN THE CONTEXT OF ECTOPIC GERMINAL CENTERS REACTION, T/B-CELL INTERACTIONS, THAT IS REGARDING T-HELPER 17 AND T-FOLLICULAR HELPER CELLS, AND THEIR RESPECTIVE COUNTERPARTS, T-REGULATORY AND T-FOLLICULAR REGULATORY CELLS, APPEAR PARTICULARLY RELEVANT IN PSS PATHOGENESIS AS THEIR IMBALANCE IS ASSOCIATED WITH A DYSREGULATION OF B-CELL DYNAMICS AND THE PRODUCTION OF AUTOANTIBODIES. SUMMARY: ADVANCES IN THE UNDERSTANDING OF PSS PATHOGENESIS HAVE PAVED THE WAY FOR CLINICAL TRIALS WITH NOVEL BIOLOGIC AGENTS TARGETING IMMUNE PATHWAYS REGULATING T/B-CELL INTERACTIONS AND DOWNSTREAM B-CELL ACTIVATION. REVERSE TRANSLATION FROM THESE STUDIES PROVIDES INVALUABLE NOVEL INFORMATION OF THE MECHANISMS SUSTAINING AUTOIMMUNITY AND CHRONIC INFLAMMATION IN PSS. 2018 19 3065 29 GENOME-WIDE DNA METHYLATION PATTERNS IN CD4+ T CELLS FROM CHINESE HAN PATIENTS WITH RHEUMATOID ARTHRITIS. INTRODUCTION: RHEUMATOID ARTHRITIS (RA) IS AN AUTOIMMUNE DISEASE THAT CAUSES CHRONIC INFLAMMATION OF THE JOINTS. RECENT EVIDENCE INDICATED THE EPIGENETIC CHANGES MAY CONTRIBUTE TO THE PATHOGENESIS OF RA. METHOD: TO UNDERSTAND THE EXTENT AND NATURE OF DYSREGULATED DNA METHYLATION IN RA CD4T CELLS, WE PERFORMED A GENOME-WIDE DNA METHYLATION STUDY IN CD4 + T CELLS IN 12 RA PATIENTS COMPARED TO 12 MATCHED NORMAL HEALTHY CONTROLS. CYTOSINE METHYLATION STATUS WAS QUANTIFIED WITH ILLUMINA METHYLATION 450K MICROARRAY. RESULT: THE DNA METHYLATION PROFILING SHOWED 383 HYPER- AND 785 HYPO-METHYLATED GENES IN THE CD4 + T CELLS OF THE RA PATIENTS (P < 3.4 X 10(-7)). GENE ONTOLOGY ANALYSIS INDICATED TRANSCRIPT ALTERNATIVE SPLICING AND PROTEIN MODIFICATION MEDIATED BY DNA METHYLATION MIGHT PLAY AN IMPORTANT ROLE IN THE PATHOGENESIS OF RA. IN ADDITION, THE RESULT SHOWED THAT HUMAN LEUKOCYTE ANTIGEN (HLA) REGION INCLUDING HLA-DRB6, HLA-DQA1 AND HLA-E WAS FREQUENTLY HYPOMETHYLATED, BUT HLA-DQB1 HYPERMETHYLATED IN CPG ISLAND REGION AND HYPOMETHYLATED IN CPG SHELF REGION IN RA PATIENTS. OUTSIDE THE MHC REGION, HDAC4, NXN, TBCD AND TMEM61 WERE THE MOST HYPERMETHYLATED GENES, WHILE ITIH3, TCN2, PRDM16, SLC1A5 AND GALNT9 ARE THE MOST HYPOMETHYLATED GENES. CONCLUSION: GENOME-WIDE DNA METHYLATION PROFILE REVEALED SIGNIFICANT DNA METHYLATION CHANGE IN CD4 + T CELLS FROM PATIENTS WITH RA. 2017 20 6565 26 TRANSLATING EPIGENETICS INTO CLINIC: FOCUS ON LUPUS. SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) IS A CHRONIC RELAPSING-REMITTING AUTOIMMUNE DISEASE WITH HIGHLY HETEROGENEOUS PHENOTYPES. BIOMARKERS WITH HIGH SENSITIVITY AND SPECIFICITY ARE USEFUL FOR EARLY DIAGNOSIS AS WELL AS MONITORING DISEASE ACTIVITY AND LONG-TERM COMPLICATIONS. EPIGENETICS POTENTIALLY PROVIDE NOVEL BIOMARKERS IN AUTOIMMUNE DISEASES. THESE MAY INCLUDE DNA METHYLATION CHANGES IN RELEVANT LUPUS-PRONE GENES OR HISTONE MODIFICATIONS AND MICRORNAS TO UPREGULATE AND DOWNREGULATE RELEVANT GENE EXPRESSION. THE TIMING AND NATURE OF EPIGENETIC MODIFICATION PROVIDE SUCH CHANGES. IN LUPUS, DNA METHYLATION ALTERATIONS IN CYTOKINE GENES, SUCH AS IFN-RELATED GENE AND RETROVIRUS GENE, HAVE BEEN FOUND TO OFFER BIOMARKERS FOR LUPUS DIAGNOSIS. HISTONE MODIFICATIONS SUCH AS HISTONE METHYLATION AND ACETYLATION LEAD TO TRANSCRIPTIONAL ALTERATIONS OF SEVERAL GENES SUCH AS PTPN22, LRP1B, AND TNFSF70. THERE ARE VARIETIES OF MICRORNAS APPLIED AS LUPUS BIOMARKERS, INCLUDING DNMT1-RELATED MICRORNAS, RENAL FUNCTION-ASSOCIATED MICRORNAS, MICRORNAS INVOLVED IN THE IMMUNE SYSTEM, AND MICRORNAS FOR PHENOTYPE CLASSIFICATION. THUS, WE CONCLUDE A WIDE RANGE OF PROMISING ROLES OF EPIGENETIC BIOMARKERS AIDING IN THE DIAGNOSING AND MONITORING OF LUPUS DISEASES AND THE RISK OF ORGAN DAMAGE. 2017