1 6121 73 THE EPIGENETIC LANDSCAPE OF T CELL EXHAUSTION. EXHAUSTED T CELLS IN CANCER AND CHRONIC VIRAL INFECTION EXPRESS DISTINCTIVE PATTERNS OF GENES, INCLUDING SUSTAINED EXPRESSION OF PROGRAMMED CELL DEATH PROTEIN 1 (PD-1). HOWEVER, THE REGULATION OF GENE EXPRESSION IN EXHAUSTED T CELLS IS POORLY UNDERSTOOD. HERE, WE DEFINE THE ACCESSIBLE CHROMATIN LANDSCAPE IN EXHAUSTED CD8(+) T CELLS AND SHOW THAT IT IS DISTINCT FROM FUNCTIONAL MEMORY CD8(+) T CELLS. EXHAUSTED CD8(+) T CELLS IN HUMANS AND A MOUSE MODEL OF CHRONIC VIRAL INFECTION ACQUIRE A STATE-SPECIFIC EPIGENETIC LANDSCAPE ORGANIZED INTO FUNCTIONAL MODULES OF ENHANCERS. GENOME EDITING SHOWS THAT PD-1 EXPRESSION IS REGULATED IN PART BY AN EXHAUSTION-SPECIFIC ENHANCER THAT CONTAINS ESSENTIAL RAR, T-BET, AND SOX3 MOTIFS. FUNCTIONAL ENHANCER MAPS MAY OFFER TARGETS FOR GENOME EDITING THAT ALTER GENE EXPRESSION PREFERENTIALLY IN EXHAUSTED CD8(+) T CELLS. 2016 2 3054 23 GENOME-WIDE CRISPR SCREENS OF T CELL EXHAUSTION IDENTIFY CHROMATIN REMODELING FACTORS THAT LIMIT T CELL PERSISTENCE. T CELL EXHAUSTION LIMITS ANTITUMOR IMMUNITY, BUT THE MOLECULAR DETERMINANTS OF THIS PROCESS REMAIN POORLY UNDERSTOOD. USING A CHRONIC STIMULATION ASSAY, WE PERFORMED GENOME-WIDE CRISPR-CAS9 SCREENS TO SYSTEMATICALLY DISCOVER REGULATORS OF T CELL EXHAUSTION, WHICH IDENTIFIED AN ENRICHMENT OF EPIGENETIC FACTORS. IN VIVO CRISPR SCREENS IN MURINE AND HUMAN TUMOR MODELS DEMONSTRATED THAT PERTURBATION OF THE INO80 AND BAF CHROMATIN REMODELING COMPLEXES IMPROVED T CELL PERSISTENCE IN TUMORS. IN VIVO PERTURB-SEQ REVEALED DISTINCT TRANSCRIPTIONAL ROLES OF EACH COMPLEX AND THAT DEPLETION OF CANONICAL BAF COMPLEX MEMBERS, INCLUDING ARID1A, RESULTED IN THE MAINTENANCE OF AN EFFECTOR PROGRAM AND DOWNREGULATION OF EXHAUSTION-RELATED GENES IN TUMOR-INFILTRATING T CELLS. FINALLY, ARID1A DEPLETION LIMITED THE ACQUISITION OF EXHAUSTION-ASSOCIATED CHROMATIN ACCESSIBILITY AND LED TO IMPROVED ANTITUMOR IMMUNITY. IN SUMMARY, WE PROVIDE AN ATLAS OF THE GENETIC REGULATORS OF T CELL EXHAUSTION AND DEMONSTRATE THAT MODULATION OF EPIGENETIC STATE CAN IMPROVE T CELL RESPONSES IN CANCER IMMUNOTHERAPY. 2022 3 2421 33 EPIGENETIC SIGNATURE OF PD-1+ TCF1+ CD8 T CELLS THAT ACT AS RESOURCE CELLS DURING CHRONIC VIRAL INFECTION AND RESPOND TO PD-1 BLOCKADE. WE HAVE RECENTLY DEFINED A NOVEL POPULATION OF PD-1 (PROGRAMMED CELL DEATH 1)+ TCF1 (T CELL FACTOR 1)+ VIRUS-SPECIFIC CD8 T CELLS THAT FUNCTION AS RESOURCE CELLS DURING CHRONIC LCMV INFECTION AND PROVIDE THE PROLIFERATIVE BURST SEEN AFTER PD-1 BLOCKADE. SUCH CD8 T CELLS HAVE BEEN FOUND IN OTHER CHRONIC INFECTIONS AND ALSO IN CANCER IN MICE AND HUMANS. THESE CD8 T CELLS EXHIBIT STEM-LIKE PROPERTIES UNDERGOING SELF-RENEWAL AND ALSO DIFFERENTIATING INTO THE TERMINALLY EXHAUSTED CD8 T CELLS. HERE WE COMPARED THE EPIGENETIC SIGNATURE OF STEM-LIKE CD8 T CELLS WITH EXHAUSTED CD8 T CELLS. ATAC-SEQ ANALYSIS SHOWED THAT STEM-LIKE CD8 T CELLS HAD A UNIQUE SIGNATURE IMPLICATING ACTIVITY OF HMG (TCF) AND RHD (NF-KAPPAB) TRANSCRIPTION FACTOR FAMILY MEMBERS IN CONTRAST TO HIGHER ACCESSIBILITY TO ETS AND RUNX MOTIFS IN EXHAUSTED CD8 T CELLS. IN ADDITION, REGULATORY REGIONS OF THE TRANSCRIPTION FACTORS TCF7 AND ID3 WERE MORE ACCESSIBLE IN STEM-LIKE CELLS WHEREAS PRDM1 AND ID2 WERE MORE ACCESSIBLE IN EXHAUSTED CD8 T CELLS. WE ALSO COMPARED THE EPIGENETIC SIGNATURES OF THE 2 CD8 T CELL SUBSETS FROM CHRONICALLY INFECTED MICE WITH EFFECTOR AND MEMORY CD8 T CELLS GENERATED AFTER AN ACUTE LCMV INFECTION. BOTH CD8 T CELL SUBSETS GENERATED DURING CHRONIC INFECTION WERE STRIKINGLY DIFFERENT FROM CD8 T CELL SUBSETS FROM ACUTE INFECTION. INTERESTINGLY, THE STEM-LIKE CD8 T CELL SUBSET FROM CHRONIC INFECTION, DESPITE SHARING KEY FUNCTIONAL PROPERTIES WITH MEMORY CD8 T CELLS, HAD A VERY DISTINCT EPIGENETIC PROGRAM. THESE RESULTS SHOW THAT THE CHRONIC STEM-LIKE CD8 T CELL PROGRAM REPRESENTS A SPECIFIC ADAPTATION OF THE T CELL RESPONSE TO PERSISTENT ANTIGENIC STIMULATION. 2019 4 2410 30 EPIGENETIC SCARS OF CD8(+) T CELL EXHAUSTION PERSIST AFTER CURE OF CHRONIC INFECTION IN HUMANS. T CELL EXHAUSTION IS AN INDUCED STATE OF DYSFUNCTION THAT ARISES IN RESPONSE TO CHRONIC INFECTION AND CANCER. EXHAUSTED CD8(+) T CELLS ACQUIRE A DISTINCT EPIGENETIC STATE, BUT IT IS NOT KNOWN WHETHER THAT CHROMATIN LANDSCAPE IS FIXED OR PLASTIC FOLLOWING THE RESOLUTION OF A CHRONIC INFECTION. HERE WE SHOW THAT THE EPIGENETIC STATE OF EXHAUSTION IS LARGELY IRREVERSIBLE, EVEN AFTER CURATIVE THERAPY. ANALYSIS OF CHROMATIN ACCESSIBILITY IN HCV- AND HIV-SPECIFIC RESPONSES IDENTIFIES A CORE EPIGENETIC PROGRAM OF EXHAUSTION IN CD8(+) T CELLS, WHICH UNDERGOES ONLY LIMITED REMODELING BEFORE AND AFTER RESOLUTION OF INFECTION. MOREOVER, CANONICAL FEATURES OF EXHAUSTION, INCLUDING SUPER-ENHANCERS NEAR THE GENES TOX AND HIF1A, REMAIN 'EPIGENETICALLY SCARRED.' T CELL EXHAUSTION IS THEREFORE A CONSERVED EPIGENETIC STATE THAT BECOMES FIXED AND PERSISTS INDEPENDENT OF CHRONIC ANTIGEN STIMULATION AND INFLAMMATION. THERAPEUTIC EFFORTS TO REVERSE T CELL EXHAUSTION MAY REQUIRE NEW APPROACHES THAT INCREASE THE EPIGENETIC PLASTICITY OF EXHAUSTED T CELLS. 2021 5 438 25 ANTIGEN-DRIVEN EGR2 EXPRESSION IS REQUIRED FOR EXHAUSTED CD8(+) T CELL STABILITY AND MAINTENANCE. CHRONIC STIMULATION OF CD8(+) T CELLS TRIGGERS EXHAUSTION, A DISTINCT DIFFERENTIATION STATE WITH DIMINISHED EFFECTOR FUNCTION. EXHAUSTED CELLS EXIST IN MULTIPLE DIFFERENTIATION STATES, FROM STEM-LIKE PROGENITORS THAT ARE THE KEY MEDIATORS OF THE RESPONSE TO CHECKPOINT BLOCKADE, THROUGH TO TERMINALLY EXHAUSTED CELLS. DUE TO ITS CLINICAL RELEVANCE, THERE IS SUBSTANTIAL INTEREST IN DEFINING THE PATHWAYS THAT CONTROL DIFFERENTIATION AND MAINTENANCE OF THESE SUBSETS. HERE, WE SHOW THAT CHRONIC ANTIGEN INDUCES THE ANERGY-ASSOCIATED TRANSCRIPTION FACTOR EGR2 SELECTIVELY WITHIN PROGENITOR EXHAUSTED CELLS IN BOTH CHRONIC LCMV AND TUMOURS. EGR2 ENABLES TERMINAL EXHAUSTION AND STABILIZES THE EXHAUSTED TRANSCRIPTIONAL STATE BY BOTH DIRECT EGR2-DEPENDENT CONTROL OF KEY EXHAUSTION-ASSOCIATED GENES, AND INDIRECT MAINTENANCE OF THE EXHAUSTED EPIGENETIC STATE. WE SHOW THAT EGR2 IS A REGULATOR OF EXHAUSTION THAT EPIGENETICALLY AND TRANSCRIPTIONALLY MAINTAINS THE DIFFERENTIATION COMPETENCY OF PROGENITOR EXHAUSTED CELLS. 2021 6 833 14 CHARTING A SHARED EPIGENETIC PATHWAY TO CD8(+) T CELL DYSFUNCTION IN INFECTION AND CANCER. PRITYKIN ET AL. (2021) ESTABLISH A COMPREHENSIVE CHROMATIN ATLAS OF CD8(+) T CELL DYSFUNCTION IN CHRONIC VIRAL INFECTION AND CANCER VIA ANALYSIS OF BULK AND SINGLE-CELL ATAC-SEQ DATASETS ACROSS IMMUNE CHALLENGES. THESE RESULTS UNIFY THE CLASSIFICATION SCHEME AND MOLECULAR PROGRAMS DRIVING CD8(+) T CELL DYSFUNCTION ACROSS DISEASE SETTINGS AND WILL FACILITATE BASIC DISCOVERY AND TRANSLATIONAL EFFORTS IN T CELL IMMUNITY. 2021 7 4049 28 MAKING MEMORIES THAT LAST A LIFETIME: HERITABLE FUNCTIONS OF SELF-RENEWING MEMORY CD8 T CELLS. CLONAL EXPANSION OF VIRUS-SPECIFIC NAIVE T CELLS DURING AN ACUTE VIRAL INFECTION RESULTS IN THE FORMATION OF MEMORY CD8 T CELLS THAT PROVIDE THE HOST WITH LONG-TERM PROTECTIVE IMMUNITY AGAINST THE PATHOGEN. MEMORY CD8 T CELLS DISPLAY ENHANCED EFFECTOR FUNCTIONS COMPARED WITH THEIR NAIVE PRECURSORS, ALLOWING THEM TO RESPOND MORE RAPIDLY AND EFFECTIVELY TO ANTIGEN RE-ENCOUNTER. THE ENHANCED FUNCTIONS OF MEMORY CD8 T CELLS ARE MEDIATED BY HERITABLE CHANGES IN GENE REGULATION. EXPRESSION OF SELECT TRANSCRIPTION FACTORS ALONG WITH LOCUS-SPECIFIC EPIGENETIC MODIFICATIONS ARE COUPLED TO AND ARE ESSENTIAL IN THE FORMATION OF MEMORY-SPECIFIC GENE EXPRESSION PATTERNS. HERE, WE WILL REVIEW THE CHANGES IN GENE EXPRESSION THAT ACCOMPANY DEVELOPMENT OF MEMORY CD8 T CELLS AND DISCUSS CHROMATIN MODIFICATIONS AS A POTENTIAL MEANS FOR HERITABLE PROPAGATION OF THESE CHANGES DURING HOMEOSTATIC CELL DIVISION OF SELF-RENEWING MEMORY CD8 T CELLS. ALSO, WE WILL DISCUSS THERAPIES THAT MANIPULATE HERITABLE GENE REGULATION AS A POTENTIAL MECHANISM TO RESTORE FUNCTION TO NON-FUNCTIONAL MEMORY CD8 T CELLS TO COMBAT CHRONIC VIRAL INFECTION. 2010 8 5704 30 SINGLE-CELL RNA-SEQ REVEALS TOX AS A KEY REGULATOR OF CD8(+) T CELL PERSISTENCE IN CHRONIC INFECTION. PROGENITOR-LIKE CD8(+) T CELLS MEDIATE LONG-TERM IMMUNITY TO CHRONIC INFECTION AND CANCER AND RESPOND POTENTLY TO IMMUNE CHECKPOINT BLOCKADE. THESE CELLS SHARE TRANSCRIPTIONAL REGULATORS WITH MEMORY PRECURSOR CELLS, INCLUDING T CELL-SPECIFIC TRANSCRIPTION FACTOR 1 (TCF1), BUT IT IS UNCLEAR WHETHER THEY ADOPT DISTINCT PROGRAMS TO ADAPT TO THE IMMUNOSUPPRESSIVE ENVIRONMENT. BY COMPARING THE SINGLE-CELL TRANSCRIPTOMES AND EPIGENETIC PROFILES OF CD8(+) T CELLS RESPONDING TO ACUTE AND CHRONIC VIRAL INFECTIONS, WE FOUND THAT PROGENITOR-LIKE CD8(+) T CELLS BECAME DISTINCT FROM MEMORY PRECURSOR CELLS BEFORE THE PEAK OF THE T CELL RESPONSE. WE DISCOVERED A COEXPRESSION GENE MODULE CONTAINING TOX THAT EXHIBITED HIGHER TRANSCRIPTIONAL ACTIVITY ASSOCIATED WITH MORE ABUNDANT ACTIVE HISTONE MARKS IN PROGENITOR-LIKE CELLS THAN MEMORY PRECURSOR CELLS. MOREOVER, THYMOCYTE SELECTION-ASSOCIATED HIGH MOBILITY GROUP BOX PROTEIN TOX (TOX) PROMOTED THE PERSISTENCE OF ANTIVIRAL CD8(+) T CELLS AND WAS REQUIRED FOR THE PROGRAMMING OF PROGENITOR-LIKE CD8(+) T CELLS. THUS, LONG-TERM CD8(+) T CELL IMMUNITY TO CHRONIC VIRAL INFECTION REQUIRES UNIQUE TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS ASSOCIATED WITH THE TRANSCRIPTION FACTOR TOX. 2019 9 568 30 BATF REGULATES PROGENITOR TO CYTOLYTIC EFFECTOR CD8(+) T CELL TRANSITION DURING CHRONIC VIRAL INFECTION. DURING CHRONIC VIRAL INFECTION, CD8(+) T CELLS DEVELOP INTO THREE MAJOR PHENOTYPICALLY AND FUNCTIONALLY DISTINCT SUBSETS: LY108(+)TCF-1(+) PROGENITORS, LY108(-)CX(3)CR1(-) TERMINALLY EXHAUSTED CELLS AND THE RECENTLY IDENTIFIED CX(3)CR1(+) CYTOTOXIC EFFECTOR CELLS. NEVERTHELESS, HOW CX(3)CR1(+) EFFECTOR CELL DIFFERENTIATION IS TRANSCRIPTIONALLY AND EPIGENETICALLY REGULATED REMAINS ELUSIVE. HERE, WE IDENTIFY DISTINCT GENE REGULATORY NETWORKS AND EPIGENETIC LANDSCAPES UNDERPINNING THE FORMATION OF THESE SUBSETS. NOTABLY, OUR DATA DEMONSTRATE THAT CX(3)CR1(+) EFFECTOR CELLS BEAR A STRIKING SIMILARITY TO SHORT-LIVED EFFECTOR CELLS DURING ACUTE INFECTION. GENETIC DELETION OF TBX21 SIGNIFICANTLY DIMINISHED FORMATION OF THE CX(3)CR1(+) SUBSET. IMPORTANTLY, WE FURTHER IDENTIFY A PREVIOUSLY UNAPPRECIATED ROLE FOR THE TRANSCRIPTION FACTOR BATF IN MAINTAINING A PERMISSIVE CHROMATIN STRUCTURE THAT ALLOWS THE TRANSITION FROM TCF-1(+) PROGENITORS TO CX(3)CR1(+) EFFECTOR CELLS. BATF DIRECTLY BOUND TO REGULATORY REGIONS NEAR TBX21 AND KLF2, MODULATING THEIR ENHANCER ACCESSIBILITY TO FACILITATE THE TRANSITION. THESE MECHANISTIC INSIGHTS CAN POTENTIALLY BE HARNESSED TO OVERCOME T CELL EXHAUSTION DURING CHRONIC INFECTION AND CANCER. 2021 10 5671 36 SHARED AND DISTINCT BIOLOGICAL CIRCUITS IN EFFECTOR, MEMORY AND EXHAUSTED CD8(+) T CELLS REVEALED BY TEMPORAL SINGLE-CELL TRANSCRIPTOMICS AND EPIGENETICS. NAIVE CD8(+) T CELLS CAN DIFFERENTIATE INTO EFFECTOR (T(EFF)), MEMORY (T(MEM)) OR EXHAUSTED (T(EX)) T CELLS. THESE DEVELOPMENTAL PATHWAYS ARE ASSOCIATED WITH DISTINCT TRANSCRIPTIONAL AND EPIGENETIC CHANGES THAT ENDOW CELLS WITH DIFFERENT FUNCTIONAL CAPACITIES AND THEREFORE THERAPEUTIC POTENTIAL. THE MOLECULAR CIRCUITRY UNDERLYING THESE DEVELOPMENTAL TRAJECTORIES AND THE EXTENT OF HETEROGENEITY WITHIN T(EFF), T(MEM) AND T(EX) POPULATIONS REMAIN POORLY UNDERSTOOD. HERE, WE USED THE LYMPHOCYTIC CHORIOMENINGITIS VIRUS MODEL OF ACUTE-RESOLVING AND CHRONIC INFECTION TO ADDRESS THESE GAPS BY APPLYING LONGITUDINAL SINGLE-CELL RNA-SEQUENCING (SCRNA-SEQ) AND SINGLE-CELL ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN SEQUENCING (SCATAC-SEQ) ANALYSES. THESE ANALYSES UNCOVERED NEW SUBSETS, INCLUDING A SUBPOPULATION OF T(EX) CELLS EXPRESSING NATURAL KILLER CELL-ASSOCIATED GENES THAT IS DEPENDENT ON THE TRANSCRIPTION FACTOR ZEB2, AS WELL AS MULTIPLE DISTINCT TCF-1(+) STEM/PROGENITOR-LIKE SUBSETS IN ACUTE AND CHRONIC INFECTION. THESE DATA ALSO REVEALED INSIGHTS INTO THE RESHAPING OF T(EX) SUBSETS FOLLOWING PROGRAMMED DEATH 1 (PD-1) PATHWAY BLOCKADE AND IDENTIFIED A KEY ROLE FOR THE CELL STRESS REGULATOR, BTG1, IN ESTABLISHING THE T(EX) POPULATION. FINALLY, THESE RESULTS HIGHLIGHTED HOW THE SAME BIOLOGICAL CIRCUITS SUCH AS CYTOTOXICITY OR STEM/PROGENITOR PATHWAYS CAN BE USED BY CD8(+) T CELL SUBSETS WITH HIGHLY DIVERGENT UNDERLYING CHROMATIN LANDSCAPES GENERATED DURING DIFFERENT INFECTIONS. 2022 11 451 28 APPLICATION OF ATAC-SEQ IN TUMOR-SPECIFIC T CELL EXHAUSTION. RESEARCHES SHOW THAT CHRONIC VIRAL INFECTION AND PERSISTENT ANTIGEN AND/OR INFLAMMATORY SIGNAL EXPOSURE IN CANCER CAUSES THE FUNCTIONAL STATUS OF T CELLS TO BE ALTERED, MAINLY BY MAJOR CHANGES IN THE EPIGENETIC AND METABOLIC ENVIRONMENT, WHICH THEN LEADS TO T CELL EXHAUSTION. THE DISCOVERY OF THE IMMUNE CHECKPOINT PATHWAY IS AN IMPORTANT MILESTONE IN UNDERSTANDING AND REVERSING T CELL EXHAUSTION. ANTIBODIES TARGETING THESE PATHWAYS HAVE SHOWN SUPERIOR ABILITY TO REVERSE T CELL EXHAUSTION. HOWEVER, THERE ARE STILL SOME LIMITATIONS IN IMMUNE CHECKPOINT BLOCKING THERAPY, SUCH AS THE SHORT-TERM NATURE OF THERAPEUTIC EFFECTS AND HIGH INDIVIDUAL HETEROGENEITY. ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH SEQUENCING(ATAC-SEQ) IS A METHOD USED TO ANALYZE THE ACCESSIBILITY OF WHOLE-GENOME CHROMATIN. IT USES HYPERACTIVE TN5 TRANSPOSASE TO ASSESS CHROMATIN ACCESSIBILITY. RECENTLY, A GROWING NUMBER OF STUDIES HAVE REPORTED THAT ATAC-SEQ CAN BE USED TO CHARACTERIZE THE DYNAMIC CHANGES OF EPIGENETICS IN THE PROCESS OF T CELL EXHAUSTION. IT HAS BEEN DETERMINED THAT IMMUNE CHECKPOINT BLOCKING CAN ONLY TEMPORARILY RESTORE THE FUNCTION OF EXHAUSTED T CELLS BECAUSE OF AN IRREVERSIBLE CHANGE IN THE EPIGENETICS OF EXHAUSTED T CELLS. IN THIS STUDY, WE REVIEW THE LATEST DEVELOPMENTS, WHICH PROVIDE A CLEARER MOLECULAR UNDERSTANDING OF T CELL EXHAUSTION, REVEAL POTENTIAL NEW THERAPEUTIC TARGETS FOR PERSISTENT VIRAL INFECTION AND CANCER, AND PROVIDE NEW INSIGHTS FOR DESIGNING EFFECTIVE IMMUNOTHERAPY FOR TREATING CANCER AND CHRONIC INFECTION. 2023 12 2367 24 EPIGENETIC REGULATION OF T CELL EXHAUSTION. CHRONIC ANTIGEN STIMULATION DURING VIRAL INFECTIONS AND CANCER CAN LEAD TO T CELL EXHAUSTION, WHICH IS CHARACTERIZED BY REDUCED EFFECTOR FUNCTION AND PROLIFERATION, AND THE EXPRESSION OF INHIBITORY IMMUNE CHECKPOINT RECEPTORS. RECENT STUDIES HAVE DEMONSTRATED THAT T CELL EXHAUSTION RESULTS IN WHOLESCALE EPIGENETIC REMODELING THAT CONFERS PHENOTYPIC STABILITY TO THESE CELLS AND PREVENTS T CELL REINVIGORATION BY CHECKPOINT BLOCKADE. HERE, WE REVIEW FOUNDATIONAL TECHNOLOGIES TO PROFILE THE EPIGENOME AT MULTIPLE SCALES, INCLUDING MAPPING THE LOCATIONS OF TRANSCRIPTION FACTORS AND HISTONE MODIFICATIONS, DNA METHYLATION AND THREE-DIMENSIONAL GENOME CONFORMATION. WE DISCUSS HOW THESE TECHNOLOGIES HAVE ELUCIDATED THE DEVELOPMENT AND EPIGENETIC REGULATION OF EXHAUSTED T CELLS AND FUNCTIONAL IMPLICATIONS ACROSS VIRAL INFECTION, CANCER, AUTOIMMUNITY AND ENGINEERED T CELL THERAPIES. FINALLY, WE COVER EMERGING MULTI-OMIC AND GENOME ENGINEERING TECHNOLOGIES, CURRENT AND UPCOMING OPPORTUNITIES TO APPLY THESE TO T CELL EXHAUSTION, AND THERAPEUTIC OPPORTUNITIES FOR T CELL ENGINEERING IN THE CLINIC. 2022 13 1278 23 DE NOVO EPIGENETIC PROGRAMS INHIBIT PD-1 BLOCKADE-MEDIATED T CELL REJUVENATION. IMMUNE-CHECKPOINT-BLOCKADE (ICB)-MEDIATED REJUVENATION OF EXHAUSTED T CELLS HAS EMERGED AS A PROMISING APPROACH FOR TREATING VARIOUS CANCERS AND CHRONIC INFECTIONS. HOWEVER, T CELLS THAT BECOME FULLY EXHAUSTED DURING PROLONGED ANTIGEN EXPOSURE REMAIN REFRACTORY TO ICB-MEDIATED REJUVENATION. WE REPORT THAT BLOCKING DE NOVO DNA METHYLATION IN ACTIVATED CD8 T CELLS ALLOWS THEM TO RETAIN THEIR EFFECTOR FUNCTIONS DESPITE CHRONIC STIMULATION DURING A PERSISTENT VIRAL INFECTION. WHOLE-GENOME BISULFITE SEQUENCING OF ANTIGEN-SPECIFIC MURINE CD8 T CELLS AT THE EFFECTOR AND EXHAUSTION STAGES OF AN IMMUNE RESPONSE IDENTIFIED PROGRESSIVELY ACQUIRED HERITABLE DE NOVO METHYLATION PROGRAMS THAT RESTRICT T CELL EXPANSION AND CLONAL DIVERSITY DURING PD-1 BLOCKADE TREATMENT. MOREOVER, THESE EXHAUSTION-ASSOCIATED DNA-METHYLATION PROGRAMS WERE ACQUIRED IN TUMOR-INFILTRATING PD-1HI CD8 T CELLS, AND APPROACHES TO REVERSE THESE PROGRAMS IMPROVED T CELL RESPONSES AND TUMOR CONTROL DURING ICB. THESE DATA ESTABLISH DE NOVO DNA-METHYLATION PROGRAMMING AS A REGULATOR OF T CELL EXHAUSTION AND BARRIER OF ICB-MEDIATED T CELL REJUVENATION. 2017 14 6677 24 USING EPIGENETICS TO DEFINE VACCINE-INDUCED MEMORY T CELLS. MEMORY T CELLS GENERATED FROM ACUTE INFECTION OR VACCINATION HAVE THE POTENTIAL TO PROVIDE THE HOST WITH LIFE-LONG IMMUNITY AGAINST RE-INFECTION. PROTECTION BY MEMORY T CELLS IS ACHIEVED THROUGH THEIR ACQUIRED ABILITY TO PERSIST AT ANATOMICAL SITES OF THE PRIMARY INFECTION AS WELL AS MAINTAINING A HEIGHTENED ABILITY TO RECALL EFFECTOR FUNCTIONS. THE MAINTENANCE OF CD8 AND CD4 T CELL FUNCTION IN A STATE OF READINESS IS KEY TO LIFE-LONG IMMUNITY AND MANIFEST THROUGH CHANGES IN TRANSCRIPTIONAL REGULATION. YET, THE ABILITY TO IDENTIFY POISED TRANSCRIPTIONAL PROGRAMS AT THE MAINTENANCE STAGE OF THE RESPONSE IS LACKING FROM MOST TRANSCRIPTIONAL PROFILING STUDIES OF MEMORY T CELLS. EPIGENETIC PROFILING ALLOWS FOR THE ASSESSMENT OF TRANSCRIPTIONALLY POISED (PROMOTERS THAT ARE READILY ACCESSIBLE FOR TRANSCRIPTION) STATES OF ANTIGEN-SPECIFIC T CELLS WITHOUT MANIPULATION OF THE ACTIVATION STATE OF THE CELL. HERE WE REVIEW RECENT STUDIES THAT HAVE EXAMINED EPIGENETIC PROGRAMS OF EFFECTOR AND MEMORY T CELL SUBSETS. THESE REPORTS DEMONSTRATE THAT ACQUISITION OF EPIGENETIC PROGRAMS DURING MEMORY T CELL DIFFERENTIATION TO ACUTE AND CHRONIC INFECTIONS IS COUPLED TO, AND POTENTIALLY REGULATE, THE CELL'S RECALL RESPONSE. WE DISCUSS THE USEFULNESS OF EPIGENETIC PROFILING IN CHARACTERIZING T CELL DIFFERENTIATION STATE AND FUNCTION FOR PRECLINICAL EVALUATION OF VACCINES AND THE CURRENT METHODOLOGIES FOR SINGLE LOCUS VERSUS GENOME-WIDE EPIGENETIC PROFILING. 2013 15 730 30 CANCER CELLS RESISTANT TO IMMUNE CHECKPOINT BLOCKADE ACQUIRE INTERFERON-ASSOCIATED EPIGENETIC MEMORY TO SUSTAIN T CELL DYSFUNCTION. PROLONGED INTERFERON (IFN) SIGNALING IN CANCER CELLS CAN PROMOTE RESISTANCE TO IMMUNE CHECKPOINT BLOCKADE (ICB). HOW CANCER CELLS RETAIN EFFECTS OF PROLONGED IFN STIMULATION TO COORDINATE RESISTANCE IS UNCLEAR. WE SHOW THAT, ACROSS HUMAN AND/OR MOUSE TUMORS, IMMUNE DYSFUNCTION IS ASSOCIATED WITH CANCER CELLS ACQUIRING EPIGENETIC FEATURES OF INFLAMMATORY MEMORY. HERE, INFLAMMATORY MEMORY DOMAINS, MANY OF WHICH ARE INITIATED BY CHRONIC IFN-GAMMA, ARE MAINTAINED BY SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION (STAT)1 AND IFN REGULATORY FACTOR (IRF)3 AND LINK HISTONE 3 LYSINE 4 MONOMETHYLATION (H3K4ME1)-MARKED CHROMATIN ACCESSIBILITY TO INCREASED EXPRESSION OF A SUBSET OF IFN-STIMULATED GENES (ISGS). THESE ISGS INCLUDE THE RNA SENSOR OAS1 THAT AMPLIFIES TYPE I IFN (IFN-I) AND IMMUNE INHIBITORY GENES. ABROGATING CANCER CELL IFN-I SIGNALING RESTORES ANTI-PROGRAMMED CELL DEATH PROTEIN 1 (PD1) RESPONSE BY INCREASING IFN-GAMMA IN IMMUNE CELLS, PROMOTING DENDRITIC CELL AND CD8(+) T CELL INTERACTIONS, AND EXPANDING T CELLS TOWARD EFFECTOR-LIKE STATES RATHER THAN EXHAUSTED STATES. THUS, CANCER CELLS ACQUIRE INFLAMMATORY MEMORY TO AUGMENT A SUBSET OF ISGS THAT PROMOTE AND PREDICT IFN-DRIVEN IMMUNE DYSFUNCTION. 2023 16 6530 29 TRANSCRIPTIONAL REGULATION AND T CELL EXHAUSTION. PURPOSE OF REVIEW: THIS REVIEW HIGHLIGHTS THE CONTROL OF TRANSCRIPTIONAL NETWORKS, INCLUDING INDUCTION OF INHIBITORY RECEPTORS, BY T CELL-SPECIFIC TRANSCRIPTION FACTORS IN EXHAUSTED T CELLS THAT ACCUMULATE IN CHRONIC VIRAL INFECTIONS INCLUDING HIV. RECENT FINDINGS: TRANSCRIPTIONAL PROFILING HAS ESTABLISHED DISTINCT MOLECULAR PHENOTYPES FOR EXHAUSTED CD4 AND CD8 T CELLS IN CHRONIC VIRAL INFECTION MODELS. THERE EXISTS A SUBSET OF TRANSCRIPTION FACTORS ASSOCIATED WITH EXHAUSTION, NOTABLY BLIMP-1, BASIC LEUCINE ZIPPER TRANSCRIPTION FACTOR, ATF-LIKE AND HELIOS. EPIGENETIC PHENOMENA ARE LIKELY IMPORTANT IN REGULATING GENE EXPRESSION NETWORKS DURING EXHAUSTION AS ILLUSTRATED BY PROGRAMMED DEATH 1 PROMOTER METHYLATION PATTERNS. SUMMARY: FOLLOWING CHRONIC VIRAL INFECTIONS, CD4 AND CD8 T CELLS DEFINED FUNCTIONALLY AND PHENOTYPICALLY AS EXHAUSTED HAVE DISTINCT TRANSCRIPTIONAL PROFILES. THESE STUDIES HAVE IDENTIFIED A CORE SET OF TRANSCRIPTION FACTORS THAT HAVE BEEN IMPLICATED IN PROMOTING EXHAUSTION. HOWEVER, NO SINGLE FACTOR APPEARS TO BE AN EXHAUSTION DETERMINING FACTOR, SUGGESTING THAT T CELL EXHAUSTION REFLECTS A COMBINATORIAL MECHANISM WITH MULTIPLE TRANSCRIPTION FACTORS INTERACTING TO INFLUENCE THE DEVELOPMENT OF FUNCTIONALLY EXHAUSTED T CELLS AS WELL AS DIFFERENT T EFFECTOR POPULATIONS. 2014 17 198 30 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 18 5015 31 PERSISTENCE OF SELF-REACTIVE CD8+ T CELLS IN THE CNS REQUIRES TOX-DEPENDENT CHROMATIN REMODELING. SELF-REACTIVE CD8(+) T CELLS ARE IMPORTANT MEDIATORS OF PROGRESSIVE TISSUE DAMAGE IN AUTOIMMUNE DISEASES, BUT THE MOLECULAR PROGRAM UNDERLYING THESE CELLS' FUNCTIONAL ADAPTATION IS UNCLEAR. HERE WE CHARACTERIZE THE TRANSCRIPTIONAL AND EPIGENETIC LANDSCAPE OF SELF-REACTIVE CD8(+) T CELLS IN A MOUSE MODEL OF PROTRACTED CENTRAL NERVOUS SYSTEM (CNS) AUTOIMMUNITY AND COMPARE IT TO POPULATIONS OF CNS-RESIDENT MEMORY CD8(+) T CELLS EMERGING FROM ACUTE VIRAL INFECTION. WE FIND THAT AUTOIMMUNE CD8(+) T CELLS PERSISTING AT SITES OF SELF-ANTIGEN EXHIBIT CHARACTERISTIC TRANSCRIPTIONAL REGULATION TOGETHER WITH DISTINCT EPIGENETIC REMODELING. THIS SELF-REACTIVE CD8(+) T CELL FATE DEPENDS ON THE TRANSCRIPTIONAL REGULATION BY THE DNA-BINDING HMG-BOX PROTEIN TOX WHICH REMODELS MORE THAN 400 GENOMIC REGIONS INCLUDING LOCI SUCH AS TCF7, WHICH IS CENTRAL TO STEMNESS OF CD8(+) T CELLS. CONTINUOUS EXPOSURE TO CNS SELF-ANTIGEN SUSTAINS TOX LEVELS IN SELF-REACTIVE CD8(+) T CELLS, WHEREAS GENETIC ABLATION OF TOX IN CD8(+) T CELLS RESULTS IN SHORTENED PERSISTENCE OF SELF-REACTIVE CD8(+) T CELLS IN THE INFLAMED CNS. OUR STUDY ESTABLISHES AND CHARACTERIZES THE GENETIC DIFFERENTIATION PROGRAM ENABLING CHRONIC T CELL-DRIVEN IMMUNOPATHOLOGY IN CNS AUTOIMMUNITY. 2021 19 2146 26 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 20 1379 25 DEVELOPMENTAL RELATIONSHIPS OF FOUR EXHAUSTED CD8(+) T CELL SUBSETS REVEALS UNDERLYING TRANSCRIPTIONAL AND EPIGENETIC LANDSCAPE CONTROL MECHANISMS. CD8(+) T CELL EXHAUSTION IS A MAJOR BARRIER TO CURRENT ANTI-CANCER IMMUNOTHERAPIES. DESPITE THIS, THE DEVELOPMENTAL BIOLOGY OF EXHAUSTED CD8(+) T CELLS (TEX) REMAINS POORLY DEFINED, RESTRAINING IMPROVEMENT OF STRATEGIES AIMED AT "RE-INVIGORATING" TEX CELLS. HERE, WE DEFINED A FOUR-CELL-STAGE DEVELOPMENTAL FRAMEWORK FOR TEX CELLS. TWO TCF1(+) PROGENITOR SUBSETS WERE IDENTIFIED, ONE TISSUE RESTRICTED AND QUIESCENT AND ONE MORE BLOOD ACCESSIBLE, THAT GRADUALLY LOST TCF1 AS IT DIVIDED AND CONVERTED TO A THIRD INTERMEDIATE TEX SUBSET. THIS INTERMEDIATE SUBSET RE-ENGAGED SOME EFFECTOR BIOLOGY AND INCREASED UPON PD-L1 BLOCKADE BUT ULTIMATELY CONVERTED INTO A FOURTH, TERMINALLY EXHAUSTED SUBSET. BY USING TRANSCRIPTIONAL AND EPIGENETIC ANALYSES, WE IDENTIFIED THE CONTROL MECHANISMS UNDERLYING SUBSET TRANSITIONS AND DEFINED A KEY INTERPLAY BETWEEN TCF1, T-BET, AND TOX IN THE PROCESS. THESE DATA REVEAL A FOUR-STAGE DEVELOPMENTAL HIERARCHY FOR TEX CELLS AND DEFINE THE MOLECULAR, TRANSCRIPTIONAL, AND EPIGENETIC MECHANISMS THAT COULD PROVIDE OPPORTUNITIES TO IMPROVE CANCER IMMUNOTHERAPY. 2020