1 556 175 AZACYTIDINE TREATMENT INHIBITS THE PROGRESSION OF HERPES STROMAL KERATITIS BY ENHANCING REGULATORY T CELL FUNCTION. OCULAR INFECTION WITH HERPES SIMPLEX VIRUS 1 (HSV-1) SETS OFF AN INFLAMMATORY REACTION IN THE CORNEA WHICH LEADS TO BOTH VIRUS CLEARANCE AND CHRONIC LESIONS THAT ARE ORCHESTRATED BY CD4 T CELLS. APPROACHES THAT ENHANCE THE FUNCTION OF REGULATORY T CELLS (TREG) AND DAMPEN EFFECTOR T CELLS CAN BE EFFECTIVE TO LIMIT STROMAL KERATITIS (SK) LESION SEVERITY. IN THIS REPORT, WE EXPLORE THE NOVEL APPROACH OF INHIBITING DNA METHYLTRANSFERASE ACTIVITY USING 5-AZACYTIDINE (AZA; A CYTOSINE ANALOG) TO LIMIT HSV-1-INDUCED OCULAR LESIONS. WE SHOW THAT THERAPY BEGUN AFTER INFECTION WHEN VIRUS WAS NO LONGER ACTIVELY REPLICATING RESULTED IN A PRONOUNCED REDUCTION IN LESION SEVERITY, WITH MARKEDLY DIMINISHED NUMBERS OF T CELLS AND NONLYMPHOID INFLAMMATORY CELLS, ALONG WITH REDUCED CYTOKINE MEDIATORS. THE REMAINING INFLAMMATORY REACTIONS HAD A CHANGE IN THE RATIO OF CD4 FOXP3(+) TREG TO EFFECTOR TH1 CD4 T CELLS IN OCULAR LESIONS AND LYMPHOID TISSUES, WITH TREG BECOMING PREDOMINANT OVER THE EFFECTORS. IN ADDITION, COMPARED TO THOSE FROM CONTROL MICE, TREG FROM AZA-TREATED MICE SHOWED MORE SUPPRESSOR ACTIVITY IN VITRO AND EXPRESSED HIGHER LEVELS OF ACTIVATION MOLECULES. ADDITIONALLY, CELLS INDUCED IN VITRO IN THE PRESENCE OF AZA SHOWED EPIGENETIC DIFFERENCES IN THE TREG-SPECIFIC DEMETHYLATED REGION (TSDR) OF FOXP3 AND WERE MORE STABLE WHEN EXPOSED TO INFLAMMATORY CYTOKINES. OUR RESULTS SHOW THAT THERAPY WITH AZA IS AN EFFECTIVE MEANS OF CONTROLLING A VIRUS-INDUCED INFLAMMATORY REACTION AND MAY ACT MAINLY BY THE EFFECTS ON TREG.IMPORTANCE HSV-1 INFECTION HAS BEEN SHOWN TO INITIATE AN INFLAMMATORY REACTION IN THE CORNEA THAT LEADS TO TISSUE DAMAGE AND LOSS OF VISION. THE INFLAMMATORY REACTION IS ORCHESTRATED BY GAMMA INTERFERON (IFN-GAMMA)-SECRETING TH1 CELLS, AND REGULATORY T CELLS PLAY A PROTECTIVE ROLE. HENCE, NOVEL THERAPEUTICS THAT CAN REBALANCE THE RATIO OF REGULATORY T CELLS TO EFFECTORS ARE A RELEVANT ISSUE. THIS STUDY OPENS UP A NEW AVENUE IN TREATING HSV-INDUCED SK LESIONS BY INCREASING THE STABILITY AND FUNCTION OF REGULATORY T CELLS USING THE DNA METHYLTRANSFERASE INHIBITOR 5-AZACYTIDINE (AZA). AZA INCREASED THE FUNCTION OF REGULATORY T CELLS, LEADING TO ENHANCED SUPPRESSIVE ACTIVITY AND DIMINISHED LESIONS. HENCE, THERAPY WITH AZA, WHICH ACTS MAINLY BY ITS EFFECTS ON TREG, CAN BE AN EFFECTIVE MEANS TO CONTROL VIRUS-INDUCED INFLAMMATORY LESIONS. 2017 2 2389 43 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 3 3454 49 HYPOMETHYLATION AT THE REGULATORY T CELL-SPECIFIC DEMETHYLATED REGION IN CD25HI T CELLS IS DECOUPLED FROM FOXP3 EXPRESSION AT THE INFLAMED SITE IN CHILDHOOD ARTHRITIS. THE MAINTENANCE OF FOXP3 EXPRESSION IN CD25(HI) REGULATORY T CELLS (TREGS) IS CRUCIAL TO THE CONTROL OF INFLAMMATION AND ESSENTIAL FOR SUCCESSFUL TREG TRANSFER THERAPIES. COEXPRESSION OF CD25 AND FOXP3 IN COMBINATION WITH A HYPOMETHYLATED REGION WITHIN THE FOXP3 GENE, CALLED THE TREG-SPECIFIC DEMETHYLATED REGION (TSDR), IS CONSIDERED THE HALLMARK OF STABLE TREGS. THE TSDR IS AN EPIGENETIC MOTIF THAT IS IMPORTANT FOR STABLE FOXP3 EXPRESSION AND IS USED AS A BIOMARKER TO MEASURE TREG LINEAGE COMMITMENT. IN THIS STUDY, WE REPORT THAT, UNLIKE IN PERIPHERAL BLOOD, CD4(+) T CELL EXPRESSION OF CD25 AND FOXP3 IS FREQUENTLY DISSOCIATED AT THE INFLAMED SITE IN PATIENTS WITH JUVENILE IDIOPATHIC ARTHRITIS, WHICH LED US TO QUESTION THE STABILITY OF HUMAN TREGS IN CHRONIC INFLAMMATORY ENVIRONMENTS. WE DESCRIBE A NOVEL CD4(+)CD127(LO)CD25(HI) HUMAN T CELL POPULATION THAT EXHIBITS EXTENSIVE TSDR AND PROMOTER DEMETHYLATION IN THE ABSENCE OF STABLE FOXP3 EXPRESSION. THIS POPULATION EXPRESSES HIGH LEVELS OF CTLA-4 AND CAN SUPPRESS T CONVENTIONAL CELL PROLIFERATION IN VITRO. THESE DATA COLLECTIVELY SUGGEST THAT THIS POPULATION MAY REPRESENT A CHRONICALLY ACTIVATED FOXP3(LO) TREG POPULATION. WE SHOW THAT THESE CELLS HAVE DEFECTS IN IL-2 SIGNALING AND REDUCED EXPRESSION OF A DEUBIQUITINASE IMPORTANT FOR FOXP3 STABILITY. CLINICALLY, THE PROPORTIONS OF THESE CELLS WITHIN THE CD25(HI) T CELL SUBSET ARE INCREASED IN PATIENTS WITH THE MORE SEVERE COURSES OF DISEASE. OUR STUDY DEMONSTRATES, THEREFORE, THAT HYPOMETHYLATION AT THE TSDR CAN BE DECOUPLED FROM FOXP3 EXPRESSION IN HUMAN T CELLS AND THAT ENVIRONMENT-SPECIFIC BREAKDOWN IN FOXP3 STABILITY MAY COMPROMISE THE RESOLUTION OF INFLAMMATION IN JUVENILE IDIOPATHIC ARTHRITIS. 2014 4 5223 45 PRIMARY MURINE CD4+ T CELLS FAIL TO ACQUIRE THE ABILITY TO PRODUCE EFFECTOR CYTOKINES WHEN ACTIVE RAS IS PRESENT DURING TH1/TH2 DIFFERENTIATION. CONSTITUTIVE RAS SIGNALING HAS BEEN SHOWN TO AUGMENT IL-2 PRODUCTION, REVERSE ANERGY, AND FUNCTIONALLY REPLACE MANY ASPECTS OF CD28 CO-STIMULATION IN CD4+ T CELLS. THESE DATA RAISE THE POSSIBILITY THAT INTRODUCTION OF ACTIVE RAS INTO PRIMARY T CELLS MIGHT RESULT IN IMPROVED FUNCTIONALITY IN PATHOLOGIC SITUATIONS OF T CELL DYSFUNCTION, SUCH AS CANCER OR CHRONIC VIRAL INFECTION. TO TEST THE BIOLOGIC EFFECTS OF ACTIVE RAS IN PRIMARY T CELLS, CD4+ T CELLS FROM COXSACKIE-ADENOVIRUS RECEPTOR TRANSGENIC MICE WERE TRANSDUCED WITH AN ADENOVIRUS ENCODING ACTIVE RAS. AS EXPECTED, ACTIVE RAS AUGMENTED IL-2 PRODUCTION IN NAIVE CD4+ T CELLS. HOWEVER, WHEN CELLS WERE CULTURED FOR 4 DAYS UNDER CONDITIONS TO PROMOTE EFFECTOR CELL DIFFERENTIATION, ACTIVE RAS INHIBITED THE ABILITY OF CD4+ T CELLS TO ACQUIRE A TH1 OR TH2 EFFECTOR CYTOKINE PROFILE. THIS DIFFERENTIATION DEFECT WAS NOT DUE TO DEFICIENT STAT4 OR STAT6 ACTIVATION BY IL-12 OR IL-4, RESPECTIVELY, NOR WAS IT ASSOCIATED WITH DEFICIENT INDUCTION OF T-BET AND GATA-3 EXPRESSION. IMPAIRED EFFECTOR CYTOKINE PRODUCTION IN ACTIVE RAS-TRANSDUCED CELLS WAS ASSOCIATED WITH DEFICIENT DEMETHYLATION OF THE IL-4 GENE LOCUS. OUR RESULTS INDICATE THAT, DESPITE AUGMENTING ACUTE ACTIVATION OF NAIVE T CELLS, CONSTITUTIVE RAS SIGNALING INHIBITS THE ABILITY OF CD4+ T CELLS TO PROPERLY DIFFERENTIATE INTO TH1/TH2 EFFECTOR CYTOKINE-PRODUCING CELLS, IN PART BY INTERFERING WITH EPIGENETIC MODIFICATION OF EFFECTOR GENE LOCI. ALTERNATIVE STRATEGIES TO POTENTIATE RAS PATHWAY SIGNALING IN T CELLS IN A MORE REGULATED FASHION SHOULD BE CONSIDERED AS A THERAPEUTIC APPROACH TO IMPROVE IMMUNE RESPONSES IN VIVO. 2014 5 407 39 ANALYSIS OF FOXP3+ REGULATORY T CELLS THAT DISPLAY APPARENT VIRAL ANTIGEN SPECIFICITY DURING CHRONIC HEPATITIS C VIRUS INFECTION. WE REPORTED PREVIOUSLY THAT A PROPORTION OF NATURAL CD25(+) CELLS ISOLATED FROM THE PBMC OF HCV PATIENTS CAN FURTHER UPREGULATE CD25 EXPRESSION IN RESPONSE TO HCV PEPTIDE STIMULATION IN VITRO, AND PROPOSED THAT VIRUS-SPECIFIC REGULATORY T CELLS (TREG) WERE PRIMED AND EXPANDED DURING THE DISEASE. HERE WE DESCRIBE EPIGENETIC ANALYSIS OF THE FOXP3 LOCUS IN HCV-RESPONSIVE NATURAL CD25(+) CELLS AND SHOW THAT THESE CELLS ARE NOT ACTIVATED CONVENTIONAL T CELLS EXPRESSING FOXP3, BUT HARD-WIRED TREG WITH A STABLE FOXP3 PHENOTYPE AND FUNCTION. OF APPROXIMATELY 46,000 GENES ANALYZED IN GENOME WIDE TRANSCRIPTION PROFILING, ABOUT 1% WERE DIFFERENTIALLY EXPRESSED BETWEEN HCV-RESPONSIVE TREG, HCV-NON-RESPONSIVE NATURAL CD25(+) CELLS AND CONVENTIONAL T CELLS. EXPRESSION PROFILES, INCLUDING CELL DEATH, ACTIVATION, PROLIFERATION AND TRANSCRIPTIONAL REGULATION, SUGGEST A SURVIVAL ADVANTAGE OF HCV-RESPONSIVE TREG OVER THE OTHER CELL POPULATIONS. SINCE NO TREG-SPECIFIC ACTIVATION MARKER IS KNOWN, WE TESTED 97 NS3-DERIVED PEPTIDES FOR THEIR ABILITY TO ELICIT CD25 RESPONSE (ASSUMING IT IS A SURROGATE MARKER), ACCOMPANIED BY HIGH RESOLUTION HLA TYPING OF THE PATIENTS. SOME REACTIVE PEPTIDES OVERLAPPED WITH PREVIOUSLY DESCRIBED EFFECTOR T CELL EPITOPES. OUR DATA OFFERS NEW INSIGHTS INTO HCV IMMUNE EVASION AND TOLERANCE, AND HIGHLIGHTS THE NON-SELF SPECIFIC NATURE OF TREG DURING INFECTION. 2009 6 3791 42 INTERLEUKIN 6 SUPPORTS THE MAINTENANCE OF P53 TUMOR SUPPRESSOR GENE PROMOTER METHYLATION. A STRONG ASSOCIATION EXISTS BETWEEN STATES OF CHRONIC INFLAMMATION AND CANCER, AND IT IS BELIEVED THAT MEDIATORS OF INFLAMMATION MAY BE RESPONSIBLE FOR THIS PHENOMENON. INTERLEUKIN 6 (IL-6) IS AN INFLAMMATORY CYTOKINE KNOWN TO PLAY A ROLE IN THE GROWTH AND SURVIVAL OF MANY TYPES OF TUMORS, YET THE MECHANISMS EMPLOYED BY THIS PLEOMORPHIC CYTOKINE TO ACCOMPLISH THIS FEAT ARE STILL POORLY UNDERSTOOD. ANOTHER IMPORTANT FACTOR IN TUMOR DEVELOPMENT SEEMS TO BE THE HYPERMETHYLATION OF CPG ISLANDS LOCATED WITHIN THE PROMOTER REGIONS OF TUMOR SUPPRESSOR GENES. THIS COMMON EPIGENETIC ALTERATION ENABLES TUMOR CELLS TO REDUCE OR INACTIVATE THE EXPRESSION OF IMPORTANT TUMOR SUPPRESSOR AND CELL CYCLE REGULATORY GENES. HERE WE SHOW THAT IN THE IL-6-RESPONSIVE HUMAN MULTIPLE MYELOMA CELL LINE KAS 6/1, THE PROMOTER REGION OF P53 IS EPIGENETICALLY MODIFIED BY METHYLTRANSFERASES, RESULTING IN DECREASED LEVELS OF EXPRESSION. FURTHERMORE, CELLS TREATED WITH IL-6 EXHIBIT AN INCREASE IN THE EXPRESSION OF THE DNA MAINTENANCE METHYLATION ENZYME, DNMT-1. THE DNA METHYLTRANSFERASE INHIBITOR ZEBULARINE REVERSES THE METHYLATION OF THE P53 PROMOTER, ALLOWING THE RESUMPTION OF ITS EXPRESSION. HOWEVER, WHEN ZEBULARINE IS WITHDRAWN FROM THE CELLS, THE REESTABLISHMENT OF THE ORIGINAL CPG ISLAND METHYLATION WITHIN THE P53 PROMOTER DOES NOT OCCUR IN THE ABSENCE OF IL-6, AND CELLS WHICH DO NOT RECEIVE IL-6 EVENTUALLY DIE, AS P53 EXPRESSION CONTINUES UNCHECKED BY REMETHYLATION. INTERESTINGLY, THIS LOSS OF VIABILITY SEEMS TO INVOLVE NOT THE WITHDRAWAL OF CYTOKINE, BUT THE INABILITY OF THE CELL TO RESILENCE THE PROMOTER. CONSISTENT WITH THIS MODEL, WHEN CELLS THAT EXPRESS IL-6 IN AN AUTOCRINE FASHION ARE SUBJECTED TO IDENTICAL TREATMENT, P53 EXPRESSION IS REDUCED SHORTLY AFTER WITHDRAWAL OF ZEBULARINE. THEREFORE, IT SEEMS IL-6 IS CAPABLE OF MAINTAINING PROMOTER METHYLATION THUS REPRESENTING ONE OF THE POSSIBLE MECHANISMS USED BY INFLAMMATORY MEDIATORS IN THE GROWTH AND SURVIVAL OF TUMORS. 2005 7 5431 34 REGULATORY T CELLS: PATHOPHYSIOLOGICAL ROLES AND CLINICAL APPLICATIONS. INFLAMMATION AND IMMUNE RESPONSES AFTER TISSUE INJURY PLAY PIVOTAL ROLES IN THE RESOLUTION OF INFLAMMATION, TISSUE RECOVERY, FIBROSIS, AND REMODELING. REGULATORY T CELLS (TREGS) ARE RESPONSIBLE FOR IMMUNE TOLERANCE AND ARE USUALLY ACTIVATED IN SECONDARY LYMPHATIC TISSUES. ACTIVATED TREGS SUBSEQUENTLY REGULATE EFFECTOR T CELL AND DENDRITIC CELL ACTIVATION. FOR CLINICAL APPLICATIONS SUCH AS THE SUPPRESSION OF BOTH AUTOIMMUNE DISEASES AND THE REJECTION OF TRANSPLANTED ORGANS, METHODS TO GENERATE STABILIZED ANTIGEN-SPECIFIC TREGS ARE REQUIRED. FOR THIS PURPOSE, TRANSCRIPTIONAL AND EPIGENETIC REGULATION OF FOXP3 EXPRESSION HAS BEEN INVESTIGATED. IN ADDITION TO CONVENTIONAL TREGS, THERE ARE SOME TREGS THAT RESIDE IN TISSUES AND ARE CALLED TISSUE TREGS. TISSUE TREGS EXHIBIT TISSUE-SPECIFIC FUNCTIONS THAT CONTRIBUTE TO THE MAINTENANCE OF TISSUE HOMEOSTASIS AND REPAIR. SUCH TISSUE TREGS COULD ALSO BE USEFUL FOR TREG-BASED CELL THERAPY. WE RECENTLY DISCOVERED BRAIN TREGS THAT ACCUMULATE IN THE BRAIN DURING THE CHRONIC PHASE OF ISCHEMIC BRAIN INJURY. BRAIN TREGS RESEMBLE OTHER TISSUE TREGS, BUT ARE UNIQUE IN EXPRESSING NEURAL CELL-SPECIFIC GENES SUCH AS THE SEROTONIN RECEPTOR (HTR7); CONSEQUENTLY, BRAIN TREGS RESPOND TO SEROTONIN. HERE, WE DESCRIBE OUR EXPERIENCES IN THE USE OF TREGS TO SUPPRESS GRAFT-VERSUS-HOST DISEASE AND TO PROMOTE NEURAL RECOVERY AFTER STROKE. 2020 8 655 43 BLOCKADE OF IMMUNE-CHECKPOINT B7-H4 AND LYSINE DEMETHYLASE 5B IN ESOPHAGEAL SQUAMOUS CELL CARCINOMA CONFERS PROTECTIVE IMMUNITY AGAINST P. GINGIVALIS INFECTION. PATHOGENS ARE CAPABLE OF HIJACKING IMMUNE DEFENSE MECHANISMS, THEREBY CREATING A TOLEROGENIC ENVIRONMENT FOR HYPERMUTATED MALIGNANT CELLS THAT ARISE WITHIN THE SITE OF INFECTION. IMMUNE CHECKPOINT-ORIENTED IMMUNOTHERAPIES HAVE SHOWN CONSIDERABLE PROMISE. EQUALLY IMPORTANT, THE EPIGENETIC REPROGRAMMING OF AN IMMUNE-EVASIVE PHENOTYPE THAT ACTIVATES THE IMMUNE SYSTEM IN A SYNERGISTIC MANNER CAN IMPROVE IMMUNOTHERAPY OUTCOMES. THESE ADVANCES HAVE LED TO COMBINATIONS OF EPIGENETIC- AND IMMUNE-BASED THERAPEUTICS. WE PREVIOUSLY DEMONSTRATED THAT PORPHYROMONAS GINGIVALIS ISOLATED FROM ESOPHAGEAL SQUAMOUS CELL CARCINOMA (ESCC) LESIONS REPRESENTS A MAJOR PATHOGEN ASSOCIATED WITH THIS DEADLY DISEASE. IN THIS STUDY, WE EXAMINED THE MECHANISMS ASSOCIATED WITH HOST IMMUNITY DURING P. GINGIVALIS INFECTION AND DEMONSTRATED THAT EXPERIMENTALLY INFECTED ESCC RESPONDS BY INCREASING THE EXPRESSION OF B7-H4 AND LYSINE DEMETHYLASE 5B, WHICH ALLOWED SUBSEQUENT IN VIVO ANALYSIS OF THE IMMUNOTHERAPEUTIC EFFECTS OF ANTI-B7-H4 AND HISTONE DEMETHYLASE INHIBITORS IN MODELS OF CHRONIC INFECTION AND IMMUNITY AGAINST XENOGRAFTED HUMAN TUMORS. USING THREE DIFFERENT PRECLINICAL MOUSE MODELS RECEIVING COMBINED THERAPY, WE SHOWED THAT MICE MOUNTED STRONG RESISTANCE AGAINST P. GINGIVALIS INFECTION AND TUMOR CHALLENGE. THIS MAY HAVE OCCURRED VIA GENERATION OF A T CELL-MEDIATED RESPONSE IN THE MICROENVIRONMENT AND FORMATION OF IMMUNE MEMORY. IN ESCC SUBJECTS, COEXPRESSION OF B7-H4 AND KDM5B CORRELATED MORE SIGNIFICANTLY WITH BACTERIAL LOAD THAN WITH THE EXPRESSION OF EITHER MOLECULE ALONE. THESE RESULTS HIGHLIGHT THE UNIQUE ABILITY OF P. GINGIVALIS TO EVADE IMMUNITY AND DEFINE POTENTIAL TARGETS THAT CAN BE EXPLOITED THERAPEUTICALLY TO IMPROVE THE CONTROL OF P. GINGIVALIS INFECTION AND THE DEVELOPMENT OF ASSOCIATED NEOPLASIA. 2019 9 1479 27 DIVERSE TARGETS OF THE TRANSCRIPTION FACTOR STAT3 CONTRIBUTE TO T CELL PATHOGENICITY AND HOMEOSTASIS. STAT3, AN ESSENTIAL TRANSCRIPTION FACTOR WITH PLEIOTROPIC FUNCTIONS, PLAYS CRITICAL ROLES IN THE PATHOGENESIS OF AUTOIMMUNITY. DESPITE RECENT DATA LINKING STAT3 WITH INFLAMMATORY BOWEL DISEASE, EXACTLY HOW IT CONTRIBUTES TO CHRONIC INTESTINAL INFLAMMATION IS NOT KNOWN. USING A T CELL TRANSFER MODEL OF COLITIS, WE FOUND THAT STAT3 EXPRESSION IN T CELLS WAS ESSENTIAL FOR THE INDUCTION OF BOTH COLITIS AND SYSTEMIC INFLAMMATION. STAT3 WAS CRITICAL IN MODULATING THE BALANCE OF T HELPER 17 (TH17) AND REGULATORY T (TREG) CELLS, AS WELL AS IN PROMOTING CD4(+) T CELL PROLIFERATION. WE USED CHROMATIN IMMUNOPRECIPITATION AND MASSIVE PARALLEL SEQUENCING (CHIP-SEQ) TO DEFINE THE GENOME-WIDE TARGETS OF STAT3 IN CD4(+) T CELLS. WE FOUND THAT STAT3 BOUND TO MULTIPLE GENES INVOLVED IN TH17 CELL DIFFERENTIATION, CELL ACTIVATION, PROLIFERATION, AND SURVIVAL, REGULATING BOTH EXPRESSION AND EPIGENETIC MODIFICATIONS. THUS, STAT3 ORCHESTRATES MULTIPLE CRITICAL ASPECTS OF T CELL FUNCTION IN INFLAMMATION AND HOMEOSTASIS. 2010 10 5908 47 TARGETED DE-METHYLATION OF THE FOXP3-TSDR IS SUFFICIENT TO INDUCE PHYSIOLOGICAL FOXP3 EXPRESSION BUT NOT A FUNCTIONAL TREG PHENOTYPE. CD4+ REGULATORY T CELLS (TREGS) ARE KEY MEDIATORS OF IMMUNOLOGICAL TOLERANCE AND PROMISING EFFECTOR CELLS FOR IMMUNO-SUPPRESSIVE ADOPTIVE CELLULAR THERAPY TO FIGHT AUTOIMMUNITY AND CHRONIC INFLAMMATION. THEIR FUNCTIONAL STABILITY IS CRITICAL FOR THEIR CLINICAL UTILITY AND HAS BEEN CORRELATED TO THE DEMETHYLATED STATE OF THE TSDR/CNS2 ENHANCER ELEMENT IN THE TREG LINEAGE TRANSCRIPTION FACTOR FOXP3. HOWEVER, PROOF FOR A CAUSAL CONTRIBUTION OF THE TSDR DE-METHYLATION TO FOXP3 STABILITY AND TREG INDUCTION IS SO FAR LACKING. WE HERE ESTABLISHED A POWERFUL TRANSIENT-TRANSFECTION CRISPR-CAS9-BASED EPIGENETIC EDITING METHOD FOR THE SELECTIVE DE-METHYLATION OF THE TSDR WITHIN THE ENDOGENOUS CHROMATIN ENVIRONMENT OF A LIVING CELL. THE INDUCED DE-METHYLATED STATE WAS STABLE OVER WEEKS IN CLONAL T CELL PROLIFERATION CULTURES EVEN AFTER EXPRESSION OF THE EDITING COMPLEX HAD CEASED. EPIGENETIC EDITING OF THE TSDR RESULTED IN FOXP3 EXPRESSION, EVEN IN ITS PHYSIOLOGICAL ISOFORM DISTRIBUTION, PROVING A CAUSAL ROLE FOR THE DE-METHYLATED TSDR IN FOXP3 REGULATION. HOWEVER, SUCCESSFUL FOXP3 INDUCTION WAS NOT ASSOCIATED WITH A SWITCH TOWARDS A FUNCTIONAL TREG PHENOTYPE, IN CONTRAST TO WHAT HAS BEEN REPORTED FROM FOXP3 OVEREXPRESSION APPROACHES. THUS, TSDR DE-METHYLATION IS REQUIRED, BUT NOT SUFFICIENT FOR A STABLE TREG PHENOTYPE INDUCTION. THEREFORE, TARGETED DEMETHYLATION OF THE TSDR MAY BE A CRITICAL ADDITION TO PUBLISHED IN VITRO TREG INDUCTION PROTOCOLS WHICH SO FAR LACK FOXP3 STABILITY. 2020 11 2055 30 EPIGENETIC CONTROL DURING LYMPHOID DEVELOPMENT AND IMMUNE RESPONSES: ABERRANT REGULATION, VIRUSES, AND CANCER. METHYLATION OF CYTOSINES CONTROLS A NUMBER OF BIOLOGIC PROCESSES SUCH AS IMPRINTING AND X CHROMOSOMAL INACTIVATION. DNA HYPERMETHYLATION IS CLOSELY ASSOCIATED WITH TRANSCRIPTIONAL SILENCING, WHILE DNA HYPOMETHYLATION IS ASSOCIATED WITH TRANSCRIPTIONAL ACTIVATION. HYPOACETYLATION OF HISTONES LEADS TO COMPACT CHROMATIN WITH REDUCED ACCESSIBILITY TO THE TRANSCRIPTIONAL MACHINERY. METHYL-CPG BINDING PROTEINS CAN RECRUIT COREPRESSORS AND HISTONE DEACETYLASES; THUS, THE INTERPLAY BETWEEN THESE EPIGENETIC MECHANISMS REGULATES GENE ACTIVATION. METHYLATION HAS BEEN IMPLICATED AS AN IMPORTANT MECHANISM DURING IMMUNE DEVELOPMENT, CONTROLLING VDJ RECOMBINATION, LINEAGE-SPECIFIC EXPRESSION OF CELL SURFACE ANTIGENS, AND TRANSCRIPTIONAL REGULATION OF CYTOKINE GENES DURING IMMUNE RESPONSES. ABERRATIONS IN EPIGENETIC MACHINERY, EITHER BY GENETIC MUTATIONS OR BY SOMATIC CHANGES SUCH AS VIRAL INFECTIONS, ARE ASSOCIATED WITH EARLY ALTERATIONS IN CHRONIC DISEASES SUCH AS IMMUNODEFICIENCY AND CANCER. 2003 12 3527 36 IL-6 ENHANCES THE NUCLEAR TRANSLOCATION OF DNA CYTOSINE-5-METHYLTRANSFERASE 1 (DNMT1) VIA PHOSPHORYLATION OF THE NUCLEAR LOCALIZATION SEQUENCE BY THE AKT KINASE. THE EPIGENETIC PROGRAMMING OF GENOMIC DNA IS ACCOMPLISHED, IN PART, BY SEVERAL DNA CYTOSINE-5-METHYLTRANSFERASES THAT ACT BY COVALENTLY MODIFYING CYTOSINES WITH THE ADDITION OF A METHYL GROUP. THIS COVALENT MODIFICATION IS MAINTAINED BY THE DNA CYTOSINE-5-METHYLTRANSFERASE-1 ENZYME (DNMT1), WHICH IS CAPABLE OF ACTING IN CONCERT WITH OTHER SIMILAR ENZYMES TO SILENCE IMPORTANT TUMOR SUPPRESSOR GENES. IL-6 IS A MULTIFUNCTIONAL MEDIATOR OF INFLAMMATION, ACTING THROUGH SEVERAL MAJOR SIGNALING CASCADES, INCLUDING THE PHOSPHATIDYLINOSITOL-3-KINASE PATHWAY (PI-3-K), WHICH ACTIVATES PROTEIN KINASE B (AKT/PKB) DOWNSTREAM. HERE, WE SHOW THAT THE SUBCELLULAR LOCALIZATION OF DNMT1 CAN BE ALTERED BY THE ADDITION OF IL-6, INCREASING THE RATE OF NUCLEAR TRANSLOCATION OF THE ENZYME FROM THE CYTOSOLIC COMPARTMENT. THE MECHANISM OF NUCLEAR TRANSLOCATION OF DNMT1 IS GREATLY ENHANCED BY PHOSPHORYLATION OF THE DNMT1 NUCLEAR LOCALIZATION SIGNAL (NLS) BY PKB/AKT KINASE. MUTAGENIC ALTERATION OF THE TWO AKT TARGET AMINO ACIDS WITHIN THE NLS RESULTS IN A MAJOR LOSS OF DNMT1 NUCLEAR TRANSLOCATION, WHILE THE CREATION OF A "PHOSPHO-MIMIC" AMINO ACID (MUTATION TO ACIDIC RESIDUES) RESTORES THIS COMPARTMENTATION ABILITY. THESE OBSERVATIONS SUGGEST AN INTERESTING HYPOTHESIS REGARDING HOW MEDIATORS OF CHRONIC INFLAMMATION MAY DISTURB THE DELICATE BALANCE OF CELLULAR COMPARTMENTALIZATION OF IMPORTANT PROTEINS, AND REVEALS A POTENTIAL MECHANISM FOR THE INDUCTION OR ENHANCEMENT OF TUMOR GROWTH VIA ALTERATION OF THE COMPONENTS INVOLVED IN THE EPIGENETIC PROGRAMMING OF A CELL. 2007 13 2022 40 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 14 1542 38 DNA METHYLATION IN HAEMATOLOGICAL MALIGNANCIES: THE ROLE OF DECITABINE. NORMAL CELL DEVELOPMENT AND FUNCTION IS DEPENDENT UPON CONTROLLED GENE EXPRESSION. DNA METHYLATION IS AN EPIGENETIC MODIFICATION THAT CAN PLAY AN IMPORTANT ROLE IN THE CONTROL OF GENE EXPRESSION. DNA METHYLATION AT CYTOSINE RESIDUES IN GENE PROMOTER CPG SEQUENCES IS KNOWN TO INHIBIT GENE TRANSCRIPTION. INAPPROPRIATE INHIBITION OF THE TRANSCRIPTION OF TUMOUR SUPPRESSOR GENES, GENES THAT INHIBIT ANGIOGENESIS AND METASTASIS AND GENES INVOLVED IN DNA REPAIR BY UNCONTROLLED METHYLATION, CAN LEAD TO UNREGULATED GROWTH AND PROLIFERATION OF A CELL AND CARCINOGENESIS. PROMOTER HYPERMETHYLATION AFFECTING THE P16 GENE, RESULTING IN GENE SILENCING, HAS BEEN SHOWN TO OCCUR IN MANY HUMAN SOLID TUMOURS AND A 'HYPERMETHYLATION PROFILE' IN SOME LEUKAEMIAS HAS BEEN DEFINED. THE MOLECULAR MECHANISMS BY WHICH ABERRANT DNA METHYLATION TAKES PLACE DURING CARCINOGENESIS ARE STILL NOT CLEAR. HOWEVER, THE LARGE NUMBER OF TARGET GENES (INVOLVED IN TUMORIGENESIS) THAT ARE SILENCED BY ABERRANT METHYLATION SUGGESTS THAT INHIBITION OF THIS PROCESS MAY HAVE POTENTIAL AS CANCER THERAPY. DECITABINE (NSC-127716, DACOGEN; SUPERGEN) IS A POTENT AND SPECIFIC HYPOMETHYLATING AGENT AND AN INHIBITOR OF THE DNA METHYLTRANSFERASE ACTIVITY THAT MEDIATES DNA METHYLATION. DECITABINE HAS BEEN SHOWN TO HAVE A BROAD RANGE OF ANTINEOPLASTIC ACTIVITY IN PRECLINICAL STUDIES. THIS AGENT HAS EXHIBITED SIGNIFICANT ACTIVITY IN THE TREATMENT OF PATIENTS WITH MYELODYSPLASTIC SYNDROME, CHRONIC MYELOID LEUKAEMIA AND ACUTE MYELOID LEUKAEMIA, ALTHOUGH CLINICAL PHASE I AND II STUDIES WITH SOLID TUMOURS HAVE NOT BEEN VERY PROMISING. PHASE II AND III STUDIES ARE CURRENTLY ONGOING TO EVALUATE DECITABINE, BOTH ALONE AND IN COMBINATION, IN VARIOUS STAGES OF THESE HAEMATOLOGICAL MALIGNANCIES. 2003 15 1994 36 EPIGENETIC AND GENE EXPRESSION ALTERATIONS OF FOXP3 IN THE T CELLS OF EAE MOUSE MODEL OF MULTIPLE SCLEROSIS. MULTIPLE SCLEROSIS (MS) IS A CHRONIC AUTOIMMUNE DISEASE WITH DEMYELINATION AND NEURODEGENERATION OF THE CENTRAL NERVOUS SYSTEM. IT HAS BEEN SHOWN THAT THE REGULATORY T (TREG) CELLS ARE RESPONSIBLE FOR MAINTAINING TOLERANCE TO SELF-ANTIGENS AND CAN SUPPRESS THE AUTOIMMUNE PROCESS IN SEVERAL ANIMAL MODELS SUCH AS EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS (EAE), A MOUSE MODEL OF MS. RECENT BASIC STUDIES HAVE DEMONSTRATED THAT FORKHEAD BOX P (FOXP3) AND BTB DOMAIN AND CNC HOMOLOG 2 (BACH2) ARE THE MASTER TRANSCRIPTION FACTORS OF THESE CELLS PLAYING A PIVOTAL ROLE IN THE POLARIZATION OF NAIVE T CELLS INTO TREG CELLS. IN THE CURRENT STUDY, THE EXPRESSION OF FOXP3 AND BACH2 GENES AND FOXP3 PROMOTER METHYLATION WERE EVALUATED IN T CELLS OF THE EAE-INDUCED MICE. THE RESULTS OF THIS STUDY SHOWED A PROMINENT AND SIGNIFICANT HYPERMETHYLATION OF THE FOXP3 GENE PROMOTER IN THE EAE-INDUCED MICE COMPARED TO THE SHAM AND CONTROL GROUPS. THE EXPRESSION OF FOXP3 AND BACH2 GENES WAS SIGNIFICANTLY DECREASED IN THE EAE GROUP IN COMPARISON WITH THE SHAM AND CONTROL GROUPS. THIS STUDY SUGGESTS THAT THE EPIGENETIC MODIFICATION OF FOXP3 GENE IS INVOLVED IN THE PATHOGENESIS OF EAE AND THIS COULD BE IMPORTANT IN THERAPY IN AN APPROPRIATE AND LOGICAL STATEMENT. 2017 16 3523 32 IL-10-PRODUCING B CELLS ARE CHARACTERIZED BY A SPECIFIC METHYLATION SIGNATURE. AMONG THE FAMILY OF REGULATORY B CELLS, THE SUBSET ABLE TO PRODUCE INTERLEUKIN-10 (IL-10) IS THE MOST STUDIED, YET ITS BIOLOGY IS STILL A MATTER OF INVESTIGATION. THE DNA METHYLATION PROFILING OF THE IL-10 GENE LOCUS REVEALED A NOVEL EPIGENETIC SIGNATURE CHARACTERIZING MURINE B CELLS READY TO RESPOND THROUGH IL-10 SYNTHESIS: A DEMETHYLATED REGION LOCATED 4.5 KB FROM THE TRANSCRIPTION STARTING SITE (TSS), THAT WE NAMED EARLY IL10 REGULATORY REGION (EIL10RR). THIS FEATURE ALLOWS TO DISTINGUISH B CELLS THAT ARE IMMEDIATELY PRONE AND DEVELOPMENTALLY COMMITTED TO IL-10 PRODUCTION FROM THOSE THAT REQUIRE A PERSISTENT STIMULATION TO EXERT AN IL-10-MEDIATED REGULATORY FUNCTION. THESE LATE IL-10 PRODUCERS ARE INSTEAD CHARACTERIZED BY A DELAYED IL10 REGULATORY REGION (DIL10RR), A PARTIALLY DEMETHYLATED DNA PORTION LOCATED 9 KB UPSTREAM FROM THE TSS. A DEMETHYLATED REGION WAS ALSO FOUND IN HUMAN IL-10-PRODUCING B CELLS AND, VERY INTERESTINGLY, IN SOME B-CELL MALIGNANCIES, SUCH AS CHRONIC LYMPHOCYTIC LEUKEMIA AND MANTLE CELL LYMPHOMA, CHARACTERIZED BY AN IMMUNOSUPPRESSIVE MICROENVIRONMENT. OUR FINDINGS DEFINE MURINE AND HUMAN REGULATORY B CELLS AS AN EPIGENETICALLY CONTROLLED FUNCTIONAL STATE OF MATURE B CELL SUBSETS AND OPEN A NEW PERSPECTIVE ON IL-10 REGULATION IN B CELLS IN HOMEOSTASIS AND DISEASE. 2019 17 6293 33 THE PRO- AND ANTI-INFLAMMATORY POTENTIAL OF IL-12: THE DUAL ROLE OF TH1 CELLS. THE DIFFERENTIATION OF T-HELPER (TH) LYMPHOCYTES INTO VARIOUS TYPES OF T-HELPER EFFECTOR AND MEMORY CELLS WITH DISTINCT FUNCTIONS DEPENDING ON THE TYPE OF CONCOMITANT SIGNALS THEY RECEIVE UPON ACTIVATION IS A CRITICAL EVENT DETERMINING THE COURSE OF AN IMMUNE REACTION. TH1 CELLS CHARACTERIZED BY THE EXPRESSION OF IFN-GAMMA AND THE RECENTLY DESCRIBED TH17 CELLS PROMOTE INFLAMMATION AND ARE CRITICALLY INVOLVED IN THE INDUCTION AND MAINTENANCE OF AUTOIMMUNITY, WHEREAS THE SECRETION OF IL-4 IS A HALLMARK OF TH2 CELLS MEDIATING PROTECTION FROM PARASITES AND ALLERGY. ORIGINAL STIMULATION IN THE PRESENCE OF IL-12 RESULTS IN THE IMPRINTING OF TH1 MEMORY CELLS FOR THE EXPRESSION OF IFN-GAMMA BY EXPRESSION OF THE TRANSCRIPTION FACTOR T-BET AND EPIGENETIC MODIFICATION OF THE IFNGAMMA GENE. IT HAS BEEN DEMONSTRATED THAT TH1 CELLS ARE POTENT INDUCERS OF INFLAMMATION. HOWEVER, IN THE CHRONIC PHASE OF SUCH INFLAMMATION, THE REGULATORY POTENTIAL OF IL-12 AND TH1 CELLS THEMSELVES MAY PLAY AN IMPORTANT ROLE IN LIMITING IMMUNOPATHOLOGY. 2007 18 5872 31 SUSTAINED TNF-ALPHA STIMULATION LEADS TO TRANSCRIPTIONAL MEMORY THAT GREATLY ENHANCES SIGNAL SENSITIVITY AND ROBUSTNESS. TRANSCRIPTIONAL MEMORY ALLOWS CERTAIN GENES TO RESPOND TO PREVIOUSLY EXPERIENCED SIGNALS MORE ROBUSTLY. HOWEVER, WHETHER AND HOW THE KEY PROINFLAMMATORY CYTOKINE TNF-ALPHA MEDIATES TRANSCRIPTIONAL MEMORY ARE POORLY UNDERSTOOD. USING HEK293F CELLS AS A MODEL SYSTEM, WE REPORT THAT SUSTAINED TNF-ALPHA STIMULATION INDUCES TRANSCRIPTIONAL MEMORY DEPENDENT ON TET ENZYMES. THE HYPOMETHYLATED STATUS OF TRANSCRIPTIONAL REGULATORY REGIONS CAN BE INHERITED, FACILITATING NF-KAPPAB BINDING AND MORE ROBUST SUBSEQUENT ACTIVATION. A HIGH INITIAL METHYLATION LEVEL AND CPG DENSITY AROUND KAPPAB SITES ARE CORRELATED WITH THE FUNCTIONAL POTENTIAL OF TRANSCRIPTIONAL MEMORY MODULES. INTERESTINGLY, THE CALCB GENE, ENCODING THE PROVEN MIGRAINE THERAPEUTIC TARGET CGRP, EXHIBITS THE BEST TRANSCRIPTIONAL MEMORY. A NEIGHBORING PRIMATE-SPECIFIC ENDOGENOUS RETROVIRUS STIMULATES MORE RAPID, MORE STRONG, AND AT LEAST 100-FOLD MORE SENSITIVE CALCB INDUCTION IN SUBSEQUENT TNF-ALPHA STIMULATION. OUR STUDY REVEALS THAT TNF-ALPHA-MEDIATED TRANSCRIPTIONAL MEMORY IS GOVERNED BY ACTIVE DNA DEMETHYLATION AND GREATLY SENSITIZES MEMORY GENES TO MUCH LOWER DOSES OF INFLAMMATORY CUES. 2020 19 3795 36 INTERLEUKIN-6 CONTRIBUTES TO GROWTH IN CHOLANGIOCARCINOMA CELLS BY ABERRANT PROMOTER METHYLATION AND GENE EXPRESSION. THE ASSOCIATION BETWEEN CHRONIC INFLAMMATION AND THE DEVELOPMENT AND PROGRESSION OF MALIGNANCY IS EXEMPLIFIED IN THE BILIARY TRACT WHERE PERSISTENT INFLAMMATION STRONGLY PREDISPOSES TO CHOLANGIOCARCINOMA. THE INFLAMMATORY CYTOKINE INTERLEUKIN-6 (IL-6) ENHANCES TUMOR GROWTH IN CHOLANGIOCARCINOMA BY ALTERED GENE EXPRESSION VIA AUTOCRINE MECHANISMS. IL-6 CAN REGULATE THE ACTIVITY OF DNA METHYLTRANSFERASES, AND MOREOVER, ABERRANT DNA METHYLATION CAN CONTRIBUTE TO CARCINOGENESIS. WE THEREFORE INVESTIGATED THE EFFECT OF CHRONIC EXPOSURE TO IL-6 ON METHYLATION-DEPENDENT GENE EXPRESSION AND TRANSFORMED CELL GROWTH IN HUMAN CHOLANGIOCARCINOMA. THE RELATIONSHIP BETWEEN AUTOCRINE IL-6 PATHWAYS, DNA METHYLATION, AND TRANSFORMED CELL GROWTH WAS ASSESSED USING MALIGNANT CHOLANGIOCYTES STABLY TRANSFECTED TO OVEREXPRESS IL-6. TREATMENT WITH THE DNA METHYLATION INHIBITOR 5-AZA-2'-DEOXYCYTIDINE DECREASED CELL PROLIFERATION, GROWTH IN SOFT AGAR, AND METHYLCYTOSINE CONTENT OF MALIGNANT CHOLANGIOCYTES. HOWEVER, THIS EFFECT WAS NOT OBSERVED IN IL-6-OVEREXPRESSING CELLS. IL-6 OVEREXPRESSION RESULTED IN THE ALTERED EXPRESSION AND PROMOTER METHYLATION OF SEVERAL GENES, INCLUDING THE EPIDERMAL GROWTH FACTOR RECEPTOR (EGFR). EGFR PROMOTER METHYLATION WAS DECREASED AND GENE AND PROTEIN EXPRESSION WAS INCREASED BY IL-6. THUS, EPIGENETIC REGULATION OF GENE EXPRESSION BY IL-6 CAN CONTRIBUTE TO TUMOR PROGRESSION BY ALTERING PROMOTER METHYLATION AND GENE EXPRESSION OF GROWTH-REGULATORY PATHWAYS, SUCH AS THOSE INVOLVING EGFR. MOREOVER, ENHANCED IL-6 EXPRESSION MAY DECREASE THE SENSITIVITY OF TUMOR CELLS TO THERAPEUTIC TREATMENTS USING METHYLATION INHIBITORS. THESE OBSERVATIONS HAVE IMPORTANT IMPLICATIONS FOR CANCER TREATMENT AND PROVIDE A MECHANISM BY WHICH PERSISTENT CYTOKINE STIMULATION CAN PROMOTE TUMOR GROWTH. 2006 20 3893 32 LACTATE INDUCES METABOLIC AND EPIGENETIC REPROGRAMMING OF PRO-INFLAMMATORY TH17 CELLS. INCREASED LACTATE LEVELS IN THE TISSUE MICROENVIRONMENT ARE A WELL-KNOWN FEATURE OF CHRONIC INFLAMMATION. HOWEVER, THE ROLE OF LACTATE IN REGULATING T CELL FUNCTION REMAINS CONTROVERSIAL. HERE, WE DEMONSTRATE THAT EXTRACELLULAR LACTATE PREDOMINANTLY INDUCES DEREGULATION OF THE TH17-SPECIFIC GENE EXPRESSION PROGRAM BY MODULATING THE METABOLIC AND EPIGENETIC STATUS OF TH17 CELLS. FOLLOWING LACTATE TREATMENT, TH17 CELLS SIGNIFICANTLY REDUCED THEIR IL-17A PRODUCTION AND UPREGULATED FOXP3 EXPRESSION THROUGH ROS-DRIVEN IL-2 SECRETION. MOREOVER, WE OBSERVED INCREASED LEVELS OF GENOME-WIDE HISTONE H3K18 LACTYLATION, A RECENTLY DESCRIBED MARKER FOR ACTIVE CHROMATIN IN MACROPHAGES, IN LACTATE-TREATED TH17 CELLS. IN ADDITION, WE SHOW THAT HIGH LACTATE CONCENTRATIONS SUPPRESS TH17 PATHOGENICITY DURING INTESTINAL INFLAMMATION IN MICE. THESE RESULTS INDICATE THAT LACTATE IS CAPABLE OF REPROGRAMMING PRO-INFLAMMATORY T CELL PHENOTYPES INTO REGULATORY T CELLS. 2022