1 3861 101 ISOLATION OF HUMAN ANTIGEN-SPECIFIC REGULATORY T CELLS WITH HIGH SUPPRESSIVE FUNCTION. ADOPTIVE TRANSFER OF REGULATORY T (TREG) CELLS COULD BE AN ALTERNATIVE TO CHRONIC IMMUNOSUPPRESSION FOR PREVENTION OF ALLOGENEIC GRAFT REJECTION. WHILE POLYSPECIFIC TREG CELLS CAN PREVENT IMMUNE RESPONSES UNDER LYMPHOPENIC CONDITIONS, AG-SPECIFIC TREG CELLS ARE NEEDED TO TREAT AUTOIMMUNITY AND GRAFT REJECTION. YET, RELIABLE MARKERS FOR AG-SPECIFIC TREG CELLS ARE MISSING. WE REPORT THAT LATENCY-ASSOCIATED PEPTIDE (LAP) AND GLYCOPROTEIN A REPETITIONS PREDOMINANT (GARP) CAN IDENTIFY HUMAN AG-SPECIFIC TREG CELLS. IN ADDITION, WE SHOW THAT THE DEPLETION OF CD154(+) CELLS FROM LAP(+) OR GARP(+) TREG CELLS INCREASES THE TREG-CELL PURITY TO OVER 90%, AS ASSESSED BY EPIGENETIC ANALYSIS. THESE AG-SPECIFIC TREG CELLS CAN BE ISOLATED MAGNETICALLY AND MIGHT CONTRIBUTE TO THE DEVELOPMENT OF GMP-BASED PROTOCOLS. IN ADDITION, AG-SPECIFIC TREG CELLS ARE FUNCTIONALLY FAR SUPERIOR TO CD4(+) CD25(HIGH) OR CD4(+) CD25(HIGH) CD127(LOW) TREG CELLS IN VITRO AND IN PREVENTING STRONG ALLOREACTIONS IN HUMANIZED MICE. THEY COULD, THEREFORE, HAVE A HIGH THERAPEUTIC POTENTIAL FOR THE CONTROL OF ALLOIMMUNE, AUTOIMMUNE, AND ALLERGIC IMMUNE RESPONSES IN PATIENTS. 2014 2 407 32 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 3 3662 37 INDUCTION OF STABLE HUMAN FOXP3(+) TREGS BY A PARASITE-DERIVED TGF-BETA MIMIC. IMMUNE HOMEOSTASIS IN THE INTESTINE IS TIGHTLY CONTROLLED BY FOXP3(+) REGULATORY T CELLS (TREGS), DEFECTS OF WHICH ARE LINKED TO THE DEVELOPMENT OF CHRONIC CONDITIONS, SUCH AS INFLAMMATORY BOWEL DISEASE (IBD). AS A MECHANISM OF IMMUNE EVASION, SEVERAL SPECIES OF INTESTINAL PARASITES BOOST TREG ACTIVITY. THE PARASITE HELIGMOSOMOIDES POLYGYRUS IS KNOWN TO SECRETE A MOLECULE (HP-TGM) THAT MIMICS THE ABILITY OF TGF-BETA TO INDUCE FOXP3 EXPRESSION IN CD4(+) T CELLS. THE STUDY AIMED TO INVESTIGATE WHETHER HP-TGM COULD INDUCE HUMAN FOXP3(+) TREGS AS A POTENTIAL THERAPEUTIC APPROACH FOR INFLAMMATORY DISEASES. CD4(+) T CELLS FROM HEALTHY VOLUNTEERS WERE EXPANDED IN THE PRESENCE OF HP-TGM OR TGF-BETA. TREG INDUCTION WAS MEASURED BY FLOW CYTOMETRIC DETECTION OF FOXP3 AND OTHER TREG MARKERS, SUCH AS CD25 AND CTLA-4. EPIGENETIC CHANGES WERE DETECTED USING CHIP-SEQ AND PYROSEQUENCING OF FOXP3. TREG PHENOTYPE STABILITY WAS ASSESSED FOLLOWING INFLAMMATORY CYTOKINE CHALLENGE AND TREG FUNCTION WAS EVALUATED BY CELLULAR CO-CULTURE SUPPRESSION ASSAYS AND CYTOMETRIC BEAD ARRAYS FOR SECRETED CYTOKINES. HP-TGM EFFICIENTLY INDUCED FOXP3 EXPRESSION (> 60%), IN ADDITION TO CD25 AND CTLA-4, AND CAUSED EPIGENETIC MODIFICATION OF THE FOXP3 LOCUS TO A GREATER EXTENT THAN TGF-BETA. HP-TGM-INDUCED TREGS HAD SUPERIOR SUPPRESSIVE FUNCTION COMPARED WITH TGF-BETA-INDUCED TREGS, AND RETAINED THEIR PHENOTYPE FOLLOWING EXPOSURE TO INFLAMMATORY CYTOKINES. FURTHERMORE, HP-TGM INDUCED A TREG-LIKE PHENOTYPE IN IN VIVO DIFFERENTIATED TH1 AND TH17 CELLS, INDICATING ITS POTENTIAL TO RE-PROGRAM MEMORY CELLS TO ENHANCE IMMUNE TOLERANCE. THESE DATA INDICATE HP-TGM HAS POTENTIAL TO BE USED TO GENERATE STABLE HUMAN FOXP3(+) TREGS TO TREAT IBD AND OTHER INFLAMMATORY DISEASES. 2021 4 4967 31 PATHOLOGICAL CONDITIONS RE-SHAPE PHYSIOLOGICAL TREGS INTO PATHOLOGICAL TREGS. CD4(+)FOXP3(+) REGULATORY T CELLS (TREGS) ARE A SUBSET OF CD4 T CELLS THAT PLAY AN ESSENTIAL ROLE IN MAINTAINING PERIPHERAL IMMUNE TOLERANCE, CONTROLLING ACUTE AND CHRONIC INFLAMMATION, ALLERGY, AUTOIMMUNE DISEASES, AND ANTI-CANCER IMMUNE RESPONSES. OVER THE PAST 20 YEARS, SIGNIFICANT PROGRESS HAS BEEN MADE SINCE TREGS WERE FIRST CHARACTERIZED IN 1995. MANY CONCEPTS AND PRINCIPLES REGARDING TREGS GENERATION, PHENOTYPIC FEATURES, SUBSETS (TTREGS, PTREGS, ITREGS, AND ITREG35), TISSUE SPECIFICITY (CENTRAL TREGS, EFFECTOR TREGS, AND TISSUE RESIDENT TREGS), HOMEOSTASIS (HIGHLY DYNAMIC AND APOPTOTIC), REGULATION OF TREGS BY RECEPTORS FOR PAMPS AND DAMPS, TREG PLASTICITY (RE-DIFFERENTIATION TO OTHER CD4 T HELPER CELL SUBSETS, TH1, TH2, TFH AND TH17), AND EPIGENETIC REGULATION OF TREGS PHENOTYPES AND FUNCTIONS HAVE BEEN INNOVATED. IN THIS CONCISE REVIEW, WE WANT TO BRIEFLY ANALYZE THESE EIGHT NEW PROGRESSES IN THE STUDY OF TREGS. WE HAVE ALSO PROPOSED FOR THE FIRST TIME A NOVEL CONCEPT THAT "PHYSIOLOGICAL TREGS" HAVE BEEN RE-SHAPED INTO "PATHOLOGICAL TREGS" IN VARIOUS PATHOLOGICAL ENVIRONMENTS. CONTINUING OF THE IMPROVEMENT IN OUR UNDERSTANDING ON THIS IMPORTANT CELLULAR COMPONENT ABOUT THE IMMUNE TOLERANCE AND IMMUNE SUPPRESSION, WOULD LEAD TO THE FUTURE DEVELOPMENT OF NOVEL THERAPEUTICS APPROACHES FOR ACUTE AND CHRONIC INFLAMMATORY DISEASES, ALLERGY, ALLOGENEIC TRANSPLANTATION-RELATED IMMUNITY, SEPSIS, AUTOIMMUNE DISEASES, AND CANCERS. 2015 5 2146 27 EPIGENETIC MANIPULATION RESTORES FUNCTIONS OF DEFECTIVE CD8(+) T CELLS FROM CHRONIC VIRAL INFECTION. FUNCTIONAL EXHAUSTION OF ANTIGEN-SPECIFIC T CELLS IS A DEFINING CHARACTERISTIC OF MANY CHRONIC INFECTIONS, BUT THE UNDERLYING MECHANISMS OF T CELL DYSFUNCTION ARE NOT WELL UNDERSTOOD. EPIGENETICS PLAYS AN IMPORTANT ROLE IN THE CONTROL OF T CELL DEVELOPMENT, DIFFERENTIATION, AND FUNCTION. TO EXAMINE IF EPIGENETICS ALSO PLAYS A ROLE IN T CELL EXHAUSTION, WE ANALYZED CHROMATIN REMODELING IN CD8(+) T CELLS FROM MICE WITH CHRONIC LYMPHOCYTIC CHORIOMENINGITIS VIRUS INFECTION. WE OBSERVED DOWNREGULATION OF DIACETYLATED HISTONE H3 IN BOTH VIRUS-SPECIFIC AND TOTAL CD8(+) T CELLS, AND FUNCTIONAL DEFECTS NOT ONLY IN VIRUS-SPECIFIC CD8(+) T CELLS BUT ALSO WITHIN THE TOTAL CD8(+) T CELL POPULATION. IN VITRO TREATMENT OF THESE EXHAUSTED CD8(+) T CELLS WITH HISTONE DEACETYLASE INHIBITORS RESTORED DIACETYLATED HISTONE H3 LEVELS, AND IMPROVED THEIR IMMUNE FUNCTIONS. UPON ADOPTIVE TRANSFER, THESE TREATED CD8(+) T CELLS DEVELOPED INTO FUNCTIONAL MEMORY T CELLS IN VIVO THAT ENHANCED PROTECTIVE IMMUNITY. THESE RESULTS DEFINE A ROLE OF EPIGENETICS IN T CELL EXHAUSTION AND SUGGEST EPIGENETIC MANIPULATION AS A NOVEL MOLECULAR THERAPY TO RESTORE IMMUNE FUNCTIONS. 2014 6 5509 32 RHPLD2 INHIBITS AIRWAY INFLAMMATION IN AN ASTHMATIC MURINE MODEL THROUGH INDUCTION OF STABLE CD25(+) FOXP3(+) TREGS. OUR PREVIOUS STUDIES HAVE SHOWN THAT RECOMBINANT HUMAN PHOSPHOLIPASE D2 (RHPLD2) PLAYS A MODULATOR ROLE ON NF-KAPPAB AND PKC SIGNALING PATHWAYS. IT ALSO INHIBITS IL-5-INDUCED INFLAMMATORY RESPONSE IN CHRONIC ASTHMATIC GUINEA PIGS. ADDITIONALLY, INCREASING EVIDENCE ALSO HAS REVEALED THAT THE ADOPTIVE TRANSFER OF INDUCED REGULATORY T CELLS (TREGS) MAY BE A THERAPEUTIC SOLUTION TO AIRWAY ALLERGIC DISEASES. TO INVESTIGATE THE EPIGENETIC, TRANSCRIPTOMIC AND PHENOTYPIC VARIABILITY OF TREG POPULATION IN AN OVALBUMIN (OVA)-INDUCED AIRWAY INFLAMMATION MODEL DERIVED FROM THE INDUCTION OF RHPLD2, OVA-INDUCED ASTHMATIC MURINE MODEL IS USED IN THIS STUDY. THE LUNG INFLAMMATION, EOSINOPHIL INFILTRATION, THE DIFFERENTIATION AND PROLIFERATION OF T HELPER CELLS AND THE AMPLIFICATION OF TREGS WERE EXAMINED IN THIS MOUSE MODEL WITH AND WITHOUT RHPLD2 INDUCTION. OUR DATA SHOWED THAT RHPLD2 ADMINISTRATION IN ASTHMATIC MICE SIGNIFICANTLY INCREASES CD4(+)CD25(+) FOXP3(+) TREG CELL NUMBERS AND ALLEVIATES LUNG INFLAMMATION. THE ADDITION OF RHPLD2 IN VITRO ENHANCED THE DEMETHYLATION OF TREG-SPECIFICDEMETHYLATED REGION (TSDR) IN ITREGS, SUGGESTING THAT RHPLD2 PROTEIN MAY BE INVOLVED IN IMPROVING THE QUALITY AND QUANTITY OF TREG CELLS THAT EVENTUALLY SIGNIFICANTLY REDUCES LUNG INFLAMMATION IN ASTHMATIC MURINE MODEL. THESE RESULTS SUGGEST THAT RHPLD2 COULD HAVE A CLINICAL IMPACT TREATING PATIENTS WITH ALLERGIC AIRWAY INFLAMMATION VIA PROMOTING AND STABILIZING ITREG DIFFERENTIATION AND FUNCTION. 2018 7 556 34 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 8 1763 22 EARLY TRANSCRIPTIONAL AND EPIGENETIC DIVERGENCE OF CD8+ T CELLS RESPONDING TO ACUTE VERSUS CHRONIC INFECTION. DURING A MICROBIAL INFECTION, RESPONDING CD8+ T CELLS GIVE RISE TO EFFECTOR CELLS THAT PROVIDE ACUTE HOST DEFENSE AND MEMORY CELLS THAT PROVIDE SUSTAINED PROTECTION. AN ALTERNATIVE OUTCOME IS EXHAUSTION, A STATE OF T CELL DYSFUNCTION THAT OCCURS IN THE CONTEXT OF CHRONIC INFECTIONS AND CANCER. ALTHOUGH IT IS EVIDENT THAT EXHAUSTED CD8+ T (TEX) CELLS ARE PHENOTYPICALLY AND MOLECULARLY DISTINCT FROM EFFECTOR AND MEMORY CD8+ T CELLS, THE FACTORS REGULATING THE EARLIEST EVENTS IN THE DIFFERENTIATION PROCESS OF TEX CELLS REMAIN INCOMPLETELY UNDERSTOOD. HERE, WE PERFORMED SINGLE-CELL RNA-SEQUENCING AND SINGLE-CELL ATAC-SEQUENCING OF CD8+ T CELLS RESPONDING TO LCMV-ARMSTRONG (LCMV-ARM) OR LCMV-CLONE 13 (LCMV-CL13), WHICH RESULT IN ACUTE OR CHRONIC INFECTIONS, RESPECTIVELY. COMPARED TO CD8+ T CELLS THAT HAD UNDERGONE THEIR FIRST DIVISION IN RESPONSE TO LCMV-ARM (DIV1ARM) CELLS, CD8+ T CELLS THAT HAD UNDERGONE THEIR FIRST DIVISION IN RESPONSE TO LCMV-CL13 (DIV1CL13) EXPRESSED HIGHER LEVELS OF GENES ENCODING TRANSCRIPTION FACTORS PREVIOUSLY ASSOCIATED WITH EXHAUSTION, ALONG WITH HIGHER LEVELS OF EZH2, THE CATALYTIC COMPONENT OF THE POLYCOMB REPRESSIVE COMPLEX 2 (PRC2) COMPLEX, WHICH MEDIATES EPIGENETIC SILENCING. MODULATION OF EZH2 RESULTED IN ALTERED EXPRESSION OF EXHAUSTION-ASSOCIATED MOLECULES BY CD8+ T CELLS RESPONDING TO LCMV-CL13, THOUGH THE SPECIFIC CELLULAR AND INFECTIOUS CONTEXTS, RATHER THAN SIMPLY THE LEVEL OF EZH2 EXPRESSION, LIKELY DETERMINE THE EVENTUAL OUTCOME. TAKEN TOGETHER, THESE FINDINGS SUGGEST THAT THE DIFFERENTIATION PATHS OF CD8+ T CELLS RESPONDING TO ACUTE VERSUS CHRONIC INFECTIONS MAY DIVERGE EARLIER THAN PREVIOUSLY APPRECIATED. 2023 9 3454 37 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 10 4990 32 PD-1-CIS IL-2R AGONISM YIELDS BETTER EFFECTORS FROM STEM-LIKE CD8(+) T CELLS. EXPANSION AND DIFFERENTIATION OF ANTIGEN-EXPERIENCED PD-1(+)TCF-1(+) STEM-LIKE CD8(+) T CELLS INTO EFFECTOR CELLS IS CRITICAL FOR THE SUCCESS OF IMMUNOTHERAPIES BASED ON PD-1 BLOCKADE(1-4). HASHIMOTO ET AL. HAVE SHOWN THAT, IN CHRONIC INFECTIONS, ADMINISTRATION OF THE CYTOKINE INTERLEUKIN (IL)-2 TRIGGERS AN ALTERNATIVE DIFFERENTIATION PATH OF STEM-LIKE T CELLS TOWARDS A DISTINCT POPULATION OF 'BETTER EFFECTOR' CD8(+) T CELLS SIMILAR TO THOSE GENERATED IN AN ACUTE INFECTION(5). IL-2 BINDING TO THE IL-2 RECEPTOR ALPHA-CHAIN (CD25) WAS ESSENTIAL IN TRIGGERING THIS ALTERNATIVE DIFFERENTIATION PATH AND EXPANDING BETTER EFFECTORS WITH DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROFILES. HOWEVER, CONSTITUTIVE EXPRESSION OF CD25 ON REGULATORY T CELLS AND SOME ENDOTHELIAL CELLS ALSO CONTRIBUTES TO UNWANTED SYSTEMIC EFFECTS FROM IL-2 THERAPY. THEREFORE, ENGINEERED IL-2 RECEPTOR BETA- AND GAMMA-CHAIN (IL-2RBETAGAMMA)-BIASED AGONISTS ARE CURRENTLY BEING DEVELOPED(6-10). HERE WE SHOW THAT IL-2RBETAGAMMA-BIASED AGONISTS ARE UNABLE TO PREFERENTIALLY EXPAND BETTER EFFECTOR T CELLS IN CANCER MODELS AND DESCRIBE PD1-IL2V, A NEW IMMUNOCYTOKINE THAT OVERCOMES THE NEED FOR CD25 BINDING BY DOCKING IN CIS TO PD-1. CIS BINDING OF PD1-IL2V TO PD-1 AND IL-2RBETAGAMMA ON THE SAME CELL RECOVERS THE ABILITY TO DIFFERENTIATE STEM-LIKE CD8(+) T CELLS INTO BETTER EFFECTORS IN THE ABSENCE OF CD25 BINDING IN BOTH CHRONIC INFECTION AND CANCER MODELS AND PROVIDES SUPERIOR EFFICACY. BY CONTRAST, PD-1- OR PD-L1-BLOCKING ANTIBODIES ALONE, OR THEIR COMBINATION WITH CLINICALLY RELEVANT DOSES OF NON-PD-1-TARGETED IL2V, CANNOT EXPAND THIS UNIQUE SUBSET OF BETTER EFFECTOR T CELLS AND INSTEAD LEAD TO THE ACCUMULATION OF TERMINALLY DIFFERENTIATED, EXHAUSTED T CELLS. THESE FINDINGS PROVIDE THE BASIS FOR THE DEVELOPMENT OF A NEW GENERATION OF PD-1 CIS-TARGETED IL-2R AGONISTS WITH ENHANCED THERAPEUTIC POTENTIAL FOR THE TREATMENT OF CANCER AND CHRONIC INFECTIONS. 2022 11 3998 25 LOSS OF EPIGENETIC MODIFICATION DRIVEN BY THE FOXP3 TRANSCRIPTION FACTOR LEADS TO REGULATORY T CELL INSUFFICIENCY. REGULATORY T (TREG) CELLS, DRIVEN BY THE FOXP3 TRANSCRIPTION FACTOR, ARE RESPONSIBLE FOR LIMITING AUTOIMMUNITY AND CHRONIC INFLAMMATION. WE SHOWED THAT A WELL-CHARACTERIZED FOXP3(GFP) REPORTER MOUSE, WHICH EXPRESSES AN N-TERMINAL GFP-FOXP3 FUSION PROTEIN, IS A HYPOMORPH THAT CAUSES PROFOUNDLY ACCELERATED AUTOIMMUNE DIABETES ON A NOD BACKGROUND. ALTHOUGH NATURAL TREG CELL DEVELOPMENT AND IN VITRO FUNCTION ARE NOT MARKEDLY ALTERED IN FOXP3(GFP) NOD AND C57BL/6 MICE, TREG CELL FUNCTION IN INFLAMMATORY ENVIRONMENTS WAS PERTURBED AND TGF-BETA-INDUCED TREG CELL DEVELOPMENT WAS REDUCED. FOXP3(GFP) WAS UNABLE TO INTERACT WITH THE HISTONE ACETYLTRANSFERASE TIP60, THE HISTONE DEACETYLASE HDAC7, AND THE IKAROS FAMILY ZINC FINGER 4, EOS, WHICH LED TO REDUCED FOXP3 ACETYLATION AND ENHANCED K48-LINKED POLYUBIQUITYLATION. COLLECTIVELY THIS RESULTS IN AN ALTERED TRANSCRIPTIONAL LANDSCAPE AND REDUCED FOXP3-MEDIATED GENE REPRESSION, NOTABLY AT THE HALLMARK IL-2 PROMOTER. LOSS OF CONTROLLED FOXP3-DRIVEN EPIGENETIC MODIFICATION LEADS TO TREG CELL INSUFFICIENCY THAT ENABLES AUTOIMMUNITY IN SUSCEPTIBLE ENVIRONMENTS. 2012 12 5431 26 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 13 6071 31 THE DNA METHYLATION INHIBITOR 5-AZACYTIDINE INCREASES REGULATORY T CELLS AND ALLEVIATES AIRWAY INFLAMMATION IN OVALBUMIN-SENSITIZED MICE. BACKGROUND: ASTHMA IS CHARACTERIZED AS A CHRONIC INFLAMMATORY DISORDER OF THE AIRWAYS ASSOCIATED WITH AN ENHANCED TH2 RESPONSE TO INHALED ALLERGENS. CD4+ T REGULATORY (TREG) CELLS ARE CONTROLLED BY THE MASTER TRANSCRIPTION FACTOR FOXP3 AND STRICTLY MAINTAIN PERIPHERAL IMMUNOTOLERANCE. EPIGENETIC REGULATION OF FOXP3 BY DNA METHYLTRANSFERASE INHIBITORS, SUCH AS 5-AZACYTIDINE (AZA), CAN GENERATE A STEADY SUPPLY OF FUNCTIONAL TREG CELLS. THEREFORE, WE PROPOSE THAT AZA CAN AUGMENT TREG CELLS IN VIVO TO PREVENT THE PATHOGENESIS OF ASTHMA. METHODS: BALB/C MICE WERE SENSITIZED WITH CHICKEN OVALBUMIN (OVA) AND TREATED WITH DIFFERENT DOSES OF AZA. AIRWAY HYPERRESPONSIVENESS TO METHACHOLINE, EOSINOPHILIA IN BRONCHOALVEOLAR LAVAGE FLUID, CIRCULATING TITERS OF OVA-SPECIFIC IGG1 AND IGE, AND STIMULATING LEVELS OF TH2 CYTOKINES FROM SPLENOCYTES WERE THEN DETERMINED. CELLULAR POPULATIONS WERE EXAMINED BY FLOW CYTOMETRY. PC61 ANTIBODY, WHICH DEPLETES CD25+ CELLS, WAS USED TO VERIFY THE ROLE OF CD25+ CELLS IN AZA-INDUCED TOLERANCE. RESULTS: ADMINISTRATION OF AZA TO OVA-SENSITIZED MICE DIMINISHED AIRWAY HYPERREACTIVITY, PULMONARY EOSINOPHILIA, LEVELS OF OVA-SPECIFIC IGG1 AND IGE IN SERUM, AND SECRETION OF TH2 CYTOKINES FROM OVA-STIMULATED SPLENOCYTES IN A DOSE-DEPENDENT MANNER. PERCENTAGES OF CD25+ AND FOXP3+ CELLS IN THE CD4+ CELL POPULATION WERE NOTABLY INCREASED IN AZA-TREATED MICE COMPARED TO SENSITIZED CONTROL MICE. FURTHERMORE, THE MAJOR SYMPTOMS OF ASTHMA WERE EXACERBATED BY DEPLETING CD25+ CELLS IN AZA-TREATED MICE. CONCLUSIONS: AZA MAY HAVE APPLICATIONS AS A NOVEL CLINICAL STRATEGY TO INCREASE THE PRODUCTION OF TREG CELLS IN ORDER TO MODULATE THE AIRWAY INFLAMMATION ASSOCIATED WITH ASTHMA. 2013 14 2389 31 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 15 3948 31 LNCRNA-CD160 DECREASES THE IMMUNITY OF CD8(+) T CELLS THROUGH EPIGENETIC MECHANISMS IN HEPATITIS B VIRUS INFECTION. THE TRANSFER AND DEVELOPMENT OF CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS ASSOCIATED WITH THE T CELL IMMUNE RESPONSE, THEREFORE INVESTIGATING THE KEY REGULATORS OF CELL IMMUNE RESPONSE IS NEEDED TO IMPROVE CHRONIC HBV TREATMENT. BLOOD SAMPLES FROM PATIENTS WITH CHRONIC HBV INFECTION WERE USED TO CONFIRM THE CORRELATION BETWEEN HBV INFECTION STAGE AND CD160 RECEPTOR EXPRESSION LEVELS IN CD8(+) T CELLS, THE CD8(+) T CELLS ARE USED TO RESEARCH THE MECHANISM OF T CELL IMMUNE RESPONSE MODULATION, MOREOVER, C3H/HEN MICE WITH REDUCED CD160 EXPRESSION LEVELS WERE USED TO INVESTIGATE THE ASSOCIATION BETWEEN LONG NON-CODING (LNC)RNA-CD160 AND HBV INFECTION. LONG NON-CODING (LNC)RNA-CD160 AND HISTONE-MODIFICATION ENZYME GENE HISTONE DEACETYLASE 11 (HDAC11) EXPRESSION LEVELS WERE NEGATIVELY ASSOCIATED WITH CD160 EXPRESSION. LNCRNA-CD160 CAN INHIBIT THE SECRETION OF IFN-GAMMA AND TNF-ALPHA THROUGH HDAC11 RECRUITMENT AND BIND TO HDAC11 TO FORM A COMPLEX ON THE PROMOTERS OF IFN-GAMMA AND TNF-ALPHA. THE HDAC11, IFN-GAMMA AND TNF-ALPHA FORM A COMPLEX AND ENHANCE THE METHYLATION OF H3K9ME1, CHROMATIN CHANGES INTO THE HETEROCHROMATIN AND THE TRANSCRIPTION OF IFN-GAMMA AND TNF-ALPHA IS BLOCKED; MOREOVER, THE HDAC11/IFN-GAMMA/TNF-ALPHA COMPLEX CAN ALSO INHIBIT THE SECRETION OF IFN-GAMMA AND TNF-ALPHA IN CD160(-) CD8(+) T CELLS AND SUPPRESSES THE FUNCTION OF CD8(+) T CELLS. FURTHERMORE, SMALL INTERFERING RNA TARGETING LNCRNA-CD160 CAN BLOCK HBV INFECTION PROGRESSION. LNCRNA-CD160 ACTS AS AN IMMUNE SUPPRESSIVE FACTOR AND IS EXPRESSED AT A HIGH LEVEL IN PERIPHERAL BLOOD CD8(+) T CELLS OF HBV INFECTED PATIENTS. FURTHERMORE, HIGH EXPRESSION LEVELS OF LNCRNA-CD160 CAN CONTRIBUTE TO THE INHIBITION OF IFN-GAMMA AND TNF-ALPHA SECRETION IN CD8(+) T CELLS AND DECREASE THE IMMUNE RESPONSE OF CD8(+) T CELLS. THEREFORE, LNCRNA-CD160 MAY BECOME A NEW TARGET FOR IMMUNOTHERAPY OF CHRONIC HBV INFECTION IN THE FUTURE AND MAY PROVIDE A NEW THERAPEUTIC STRATEGY FOR THE TREATMENT OF HBV INFECTION. 2020 16 198 29 ACQUIRED TRANSCRIPTIONAL PROGRAMMING IN FUNCTIONAL AND EXHAUSTED VIRUS-SPECIFIC CD8 T CELLS. PURPOSE OF REVIEW: FAILURE TO CONTROL VIRAL INFECTIONS SUCH AS HIV RESULTS IN T-CELL RECEPTOR (TCR) AND INHIBITORY RECEPTOR DRIVEN EXHAUSTION OF ANTIGEN-SPECIFIC T CELLS. PERSISTENT SIGNALING BY THESE RECEPTORS DURING CHRONIC VIRAL INFECTION SCULPTS THE TRANSCRIPTIONAL REGULATORY PROGRAMS OF VIRUS-SPECIFIC T CELLS. THE RESULTING GENE EXPRESSION PROFILE IS TAILORED TO TEMPER THE POTENTIALLY DAMAGING EFFECTOR FUNCTIONS OF CYTOTOXIC T CELLS AND ADAPT THEM TO AN ANTIGEN-RICH AND INFLAMMATION-RICH ENVIRONMENT. HERE WE REVIEW RECENT STUDIES INVESTIGATING MECHANISMS OF TRANSCRIPTIONAL REGULATION OF EFFECTOR, FUNCTIONAL MEMORY, AND EXHAUSTED T-CELL FUNCTIONS DURING ACUTE VERSUS CHRONIC INFECTIONS. RECENT FINDINGS: PATTERNS OF GENE EXPRESSION IN VIRUS-SPECIFIC CD8 T CELLS ARE A RESULT OF A COMBINATION OF PRO AND INHIBITORY SIGNALS FROM ANTIGEN PRESENTATION (TCR-MEDIATED) AND CO-INHIBITORY RECEPTOR LIGATION (PD-1, 2B4). FURTHER, MEMORY-SPECIFIC TRANSCRIPTIONAL REGULATION OF 2B4 EXPRESSION AND SIGNALING IMPOSE A SELF-LIMITING SECONDARY EFFECTOR RESPONSE TO A PROLONGED VIRAL INFECTION. ADDITIONALLY, DIFFERENTIATION OF FUNCTIONAL MEMORY CD8 T CELLS IS COUPLED WITH ACQUISITION OF A REPRESSIVE EPIGENETIC PROGRAM FOR PD-1 EXPRESSION. HOWEVER, CHRONIC INFECTION PROVIDES A SIGNAL THAT BLOCKS THE ACQUISITION OF THESE EPIGENETIC MODIFICATIONS REINFORCING THE SUPPRESSION OF CYTOTOXIC LYMPHOCYTE (CTL) FUNCTIONS IN EXHAUSTED CELLS. SUMMARY: CURRENT FINDINGS SUGGEST THAT THE MECHANISM(S) THAT DELINEATE FUNCTIONAL MEMORY VERSUS EXHAUSTION ARE COUPLED WITH ACQUISITION OF TRANSCRIPTIONAL PROGRAMS AT THE EFFECTOR STAGE OF DIFFERENTIATION, REINFORCED BY CESSATION OR PERSISTENCE OF TCR SIGNALING. 2012 17 942 27 CHRONIC LYMPHOCYTIC LEUKEMIA PRESENCE IMPAIRS ANTIGEN-SPECIFIC CD8(+) T-CELL RESPONSES THROUGH EPIGENETIC REPROGRAMMING TOWARDS SHORT-LIVED EFFECTORS. T-CELL DYSREGULATION IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) ASSOCIATES WITH LOW RESPONSE RATES TO AUTOLOGOUS T CELL-BASED THERAPIES. HOW CLL AFFECTS ANTIGEN-SPECIFIC T-CELL RESPONSES REMAINS LARGELY UNKNOWN. WE INVESTIGATED (EPI)GENETIC AND FUNCTIONAL CONSEQUENCES OF ANTIGEN-SPECIFIC T-CELL RESPONSES IN PRESENCE OF CLL IN VITRO AND IN AN ADOPTIVE-TRANSFER MURINE MODEL. ALREADY AT STEADY-STATE, ANTIGEN-EXPERIENCED PATIENT-DERIVED T CELLS WERE SKEWED TOWARDS SHORT-LIVED EFFECTOR CELLS (SLEC) AT THE EXPENSE OF MEMORY-PRECURSOR EFFECTOR CELLS (MPEC). STIMULATION OF THESE T CELLS IN VITRO SHOWED RAPID INDUCTION OF EFFECTOR GENES AND SUPPRESSION OF KEY MEMORY TRANSCRIPTION FACTORS ONLY IN PRESENCE OF CLL CELLS, INDICATING EPIGENETIC REGULATION. THIS WAS INVESTIGATED IN VIVO BY FOLLOWING ANTIGEN-SPECIFIC RESPONSES OF NAIVE OT-I CD8(+) CELLS TO MCMV-OVA IN PRESENCE/ABSENCE OF TCL1 B-CELL LEUKEMIA. PRESENCE OF LEUKEMIA RESULTED IN INCREASED SLEC FORMATION, WITH DISTURBED INFLAMMATORY CYTOKINE PRODUCTION. CHROMATIN AND TRANSCRIPTOME PROFILING REVEALED STRONG EPIGENETIC MODIFICATIONS, LEADING TO ACTIVATION OF AN EFFECTOR AND SILENCING OF A MEMORY PROFILE THROUGH PRESENCE OF CLL CELLS. SECONDARY CHALLENGE IN VIVO CONFIRMED DYSFUNCTIONAL MEMORY RESPONSES BY ANTIGEN-EXPERIENCED OT-I CELLS GENERATED IN PRESENCE OF CLL. ALTOGETHER, WE SHOW THAT PRESENCE OF CLL INDUCES A SHORT-LIVED EFFECTOR PHENOTYPE AND IMPAIRED MEMORY RESPONSES BY EPIGENETIC REPROGRAMMING DURING PRIMARY RESPONSES. 2023 18 4866 31 ORTHOGONAL CRISPR SCREENS TO IDENTIFY TRANSCRIPTIONAL AND EPIGENETIC REGULATORS OF HUMAN CD8 T CELL FUNCTION. THE CLINICAL RESPONSE TO ADOPTIVE T CELL THERAPIES IS STRONGLY ASSOCIATED WITH TRANSCRIPTIONAL AND EPIGENETIC STATE. THUS, TECHNOLOGIES TO DISCOVER REGULATORS OF T CELL GENE NETWORKS AND THEIR CORRESPONDING PHENOTYPES HAVE GREAT POTENTIAL TO IMPROVE THE EFFICACY OF T CELL THERAPIES. WE DEVELOPED POOLED CRISPR SCREENING APPROACHES WITH COMPACT EPIGENOME EDITORS TO SYSTEMATICALLY PROFILE THE EFFECTS OF ACTIVATION AND REPRESSION OF 120 TRANSCRIPTION FACTORS AND EPIGENETIC MODIFIERS ON HUMAN CD8+ T CELL STATE. THESE SCREENS NOMINATED KNOWN AND NOVEL REGULATORS OF T CELL PHENOTYPES WITH BATF3 EMERGING AS A HIGH CONFIDENCE GENE IN BOTH SCREENS. WE FOUND THAT BATF3 OVEREXPRESSION PROMOTED SPECIFIC FEATURES OF MEMORY T CELLS SUCH AS INCREASED IL7R EXPRESSION AND GLYCOLYTIC CAPACITY, WHILE ATTENUATING GENE PROGRAMS ASSOCIATED WITH CYTOTOXICITY, REGULATORY T CELL FUNCTION, AND T CELL EXHAUSTION. IN THE CONTEXT OF CHRONIC ANTIGEN STIMULATION, BATF3 OVEREXPRESSION COUNTERED PHENOTYPIC AND EPIGENETIC SIGNATURES OF T CELL EXHAUSTION. CAR T CELLS OVEREXPRESSING BATF3 SIGNIFICANTLY OUTPERFORMED CONTROL CAR T CELLS IN BOTH IN VITRO AND IN VIVO TUMOR MODELS. MOREOVER, WE FOUND THAT BATF3 PROGRAMMED A TRANSCRIPTIONAL PROFILE THAT CORRELATED WITH POSITIVE CLINICAL RESPONSE TO ADOPTIVE T CELL THERAPY. FINALLY, WE PERFORMED CRISPR KNOCKOUT SCREENS WITH AND WITHOUT BATF3 OVEREXPRESSION TO DEFINE CO-FACTORS AND DOWNSTREAM FACTORS OF BATF3, AS WELL AS OTHER THERAPEUTIC TARGETS. THESE SCREENS POINTED TO A MODEL WHERE BATF3 INTERACTS WITH JUNB AND IRF4 TO REGULATE GENE EXPRESSION AND ILLUMINATED SEVERAL OTHER NOVEL TARGETS FOR FURTHER INVESTIGATION. 2023 19 1262 21 CUTTING EDGE: PROLONGED EXPOSURE TO HIV REINFORCES A POISED EPIGENETIC PROGRAM FOR PD-1 EXPRESSION IN VIRUS-SPECIFIC CD8 T CELLS. AG-SPECIFIC CD8 T CELLS PLAY A CRITICAL ROLE IN CONTROLLING HIV INFECTION BUT EVENTUALLY LOSE ANTIVIRAL FUNCTIONS IN PART BECAUSE OF EXPRESSION AND SIGNALING THROUGH THE INHIBITORY PROGRAMMED DEATH-1 (PD-1) RECEPTOR. TO BETTER UNDERSTAND THE IMPACT OF PROLONGED TCR LIGATION ON REGULATION OF PD-1 EXPRESSION IN HIV-SPECIFIC CD8 T CELLS, WE INVESTIGATED THE CAPACITY OF VIRUS-SPECIFIC CD8 T CELLS TO MODIFY THE PD-1 EPIGENETIC PROGRAM AFTER REDUCTION IN VIRAL LOAD. WE OBSERVED THAT THE TRANSCRIPTIONAL REGULATORY REGION WAS UNMETHYLATED IN THE PD-1(HI) HIV-SPECIFIC CD8 T CELLS, WHEREAS IT REMAINED METHYLATED IN DONOR-MATCHED NAIVE CELLS AT ACUTE AND CHRONIC STAGES OF INFECTION. SURPRISINGLY, THE PD-1 PROMOTER REMAINED UNMETHYLATED IN HIV-SPECIFIC CD8 T CELLS FROM SUBJECTS WITH A VIRAL LOAD CONTROLLED BY ANTIVIRAL THERAPY FOR >2 Y OR FROM ELITE CONTROLLERS. TOGETHER, THESE DATA DEMONSTRATE THAT THE EPIGENETIC PROGRAM AT THE PD-1 LOCUS BECOMES FIXED AFTER PROLONGED EXPOSURE TO HIV VIRUS. 2013 20 5476 28 RESTORING T CELL TOLERANCE, EXPLORING THE POTENTIAL OF HISTONE DEACETYLASE INHIBITORS FOR THE TREATMENT OF JUVENILE IDIOPATHIC ARTHRITIS. JUVENILE IDIOPATHIC ARTHRITIS (JIA) IS CHARACTERIZED BY A LOSS OF IMMUNE TOLERANCE. HERE, THE BALANCE BETWEEN THE ACTIVITY OF EFFECTOR T (TEFF) CELLS AND REGULATORY T (TREG) CELLS IS DISTURBED RESULTING IN CHRONIC INFLAMMATION IN THE JOINTS. PRESENTLY, THERAPEUTIC STRATEGIES ARE PREDOMINANTLY AIMED AT SUPPRESSING IMMUNE ACTIVATION AND PRO-INFLAMMATORY EFFECTOR MECHANISMS, IGNORING THE OPPORTUNITY TO ALSO PROMOTE TOLERANCE BY BOOSTING THE REGULATORY SIDE OF THE IMMUNE BALANCE. HISTONE DEACETYLASES (HDACS) CAN DEACETYLATE BOTH HISTONE AND NON-HISTONE PROTEINS AND HAVE BEEN DEMONSTRATED TO MODULATE EPIGENETIC REGULATION AS WELL AS CELLULAR SIGNALING IN VARIOUS CELL TYPES. IMPORTANTLY, HDACS ARE POTENT REGULATORS OF BOTH TEFF CELL AND TREG CELL FUNCTION AND CAN THUS BE REGARDED AS ATTRACTIVE THERAPEUTIC TARGETS IN CHRONIC INFLAMMATORY ARTHRITIS. HDAC INHIBITORS (HDACI) HAVE PROVEN THERAPEUTIC POTENTIAL IN THE CANCER FIELD, AND ARE PRESENTLY BEING EXPLORED FOR THEIR POTENTIAL IN THE TREATMENT OF AUTOIMMUNE DISEASES. SPECIFIC HDACI HAVE ALREADY BEEN DEMONSTRATED TO REDUCE THE SECRETION OF PRO-INFLAMMATORY CYTOKINES BY TEFF CELLS, AND PROMOTE TREG NUMBERS AND SUPPRESSIVE CAPACITY IN VITRO AND IN VIVO. IN THIS REVIEW, WE OUTLINE THE ROLE OF THE DIFFERENT CLASSES OF HDACS IN BOTH TEFF CELL AND TREG CELL FUNCTION. FURTHERMORE, WE WILL REVIEW THE EFFECT OF DIFFERENT HDACI ON T CELL TOLERANCE AND EXPLORE THEIR POTENTIAL AS A THERAPEUTIC STRATEGY FOR THE TREATMENT OF OLIGOARTICULAR AND POLYARTICULAR JIA. 2019