1 2443 89 EPIGENETIC STABILITY OF EXHAUSTED T CELLS LIMITS DURABILITY OF REINVIGORATION BY PD-1 BLOCKADE. BLOCKING PROGRAMMED DEATH-1 (PD-1) CAN REINVIGORATE EXHAUSTED CD8 T CELLS (T(EX)) AND IMPROVE CONTROL OF CHRONIC INFECTIONS AND CANCER. HOWEVER, WHETHER BLOCKING PD-1 CAN REPROGRAM T(EX) INTO DURABLE MEMORY T CELLS (T(MEM)) IS UNCLEAR. WE FOUND THAT REINVIGORATION OF T(EX) IN MICE BY PD-L1 BLOCKADE CAUSED MINIMAL MEMORY DEVELOPMENT. AFTER BLOCKADE, REINVIGORATED T(EX) BECAME REEXHAUSTED IF ANTIGEN CONCENTRATION REMAINED HIGH AND FAILED TO BECOME T(MEM) UPON ANTIGEN CLEARANCE. T(EX) ACQUIRED AN EPIGENETIC PROFILE DISTINCT FROM THAT OF EFFECTOR T CELLS (T(EFF)) AND T(MEM) CELLS THAT WAS MINIMALLY REMODELED AFTER PD-L1 BLOCKADE. THIS FINDING SUGGESTS THAT T(EX) ARE A DISTINCT LINEAGE OF CD8 T CELLS. NEVERTHELESS, PD-1 PATHWAY BLOCKADE RESULTED IN TRANSCRIPTIONAL REWIRING AND REENGAGEMENT OF EFFECTOR CIRCUITRY IN THE T(EX) EPIGENETIC LANDSCAPE. THESE DATA INDICATE THAT EPIGENETIC FATE INFLEXIBILITY MAY LIMIT CURRENT IMMUNOTHERAPIES. 2016 2 6482 34 TOX TRANSCRIPTIONALLY AND EPIGENETICALLY PROGRAMS CD8(+) T CELL EXHAUSTION. EXHAUSTED CD8(+) T (T(EX)) CELLS IN CHRONIC INFECTIONS AND CANCER HAVE LIMITED EFFECTOR FUNCTION, HIGH CO-EXPRESSION OF INHIBITORY RECEPTORS AND EXTENSIVE TRANSCRIPTIONAL CHANGES COMPARED WITH EFFECTOR (T(EFF)) OR MEMORY (T(MEM)) CD8(+) T CELLS. T(EX) CELLS ARE IMPORTANT CLINICAL TARGETS OF CHECKPOINT BLOCKADE AND OTHER IMMUNOTHERAPIES. EPIGENETICALLY, T(EX) CELLS ARE A DISTINCT IMMUNE SUBSET, WITH A UNIQUE CHROMATIN LANDSCAPE COMPARED WITH T(EFF) AND T(MEM) CELLS. HOWEVER, THE MECHANISMS THAT GOVERN THE TRANSCRIPTIONAL AND EPIGENETIC DEVELOPMENT OF T(EX) CELLS REMAIN UNKNOWN. HERE WE IDENTIFY THE HMG-BOX TRANSCRIPTION FACTOR TOX AS A CENTRAL REGULATOR OF T(EX) CELLS IN MICE. TOX IS LARGELY DISPENSABLE FOR THE FORMATION OF T(EFF) AND T(MEM) CELLS, BUT IT IS CRITICAL FOR EXHAUSTION: IN THE ABSENCE OF TOX, T(EX) CELLS DO NOT FORM. TOX IS INDUCED BY CALCINEURIN AND NFAT2, AND OPERATES IN A FEED-FORWARD LOOP IN WHICH IT BECOMES CALCINEURIN-INDEPENDENT AND SUSTAINED IN T(EX) CELLS. ROBUST EXPRESSION OF TOX THEREFORE RESULTS IN COMMITMENT TO T(EX) CELLS BY TRANSLATING PERSISTENT STIMULATION INTO A DISTINCT T(EX) CELL TRANSCRIPTIONAL AND EPIGENETIC DEVELOPMENTAL PROGRAM. 2019 3 2409 40 EPIGENETIC SCARRING OF EXHAUSTED T CELLS HINDERS MEMORY DIFFERENTIATION UPON ELIMINATING CHRONIC ANTIGENIC STIMULATION. EXHAUSTED CD8 T CELLS (T(EX)) ARE A DISTINCT STATE OF T CELL DIFFERENTIATION ASSOCIATED WITH FAILURE TO CLEAR CHRONIC VIRUSES AND CANCER. IMMUNOTHERAPIES SUCH AS PD-1 BLOCKADE CAN REINVIGORATE T(EX) CELLS, BUT REINVIGORATION IS NOT DURABLE. A MAJOR UNANSWERED QUESTION IS WHETHER T(EX) CELLS DIFFERENTIATE INTO FUNCTIONAL DURABLE MEMORY T CELLS (T(MEM)) UPON ANTIGEN CLEARANCE. HERE, USING A MOUSE MODEL, WE FOUND THAT UPON ELIMINATING CHRONIC ANTIGENIC STIMULATION, T(EX) CELLS PARTIALLY (RE)ACQUIRE PHENOTYPIC AND TRANSCRIPTIONAL FEATURES OF T(MEM) CELLS. THESE 'RECOVERING' T(EX) CELLS ORIGINATED FROM THE T CELL FACTOR (TCF-1(+)) T(EX) PROGENITOR SUBSET. NEVERTHELESS, THE RECALL CAPACITY OF THESE RECOVERING T(EX) CELLS REMAINED COMPROMISED AS COMPARED TO T(MEM) CELLS. CHROMATIN-ACCESSIBILITY PROFILING REVEALED A FAILURE TO RECOVER CORE MEMORY EPIGENETIC CIRCUITS AND MAINTENANCE OF A LARGELY EXHAUSTED OPEN CHROMATIN LANDSCAPE. THUS, DESPITE SOME PHENOTYPIC AND TRANSCRIPTIONAL RECOVERY UPON ANTIGEN CLEARANCE, EXHAUSTION LEAVES DURABLE EPIGENETIC SCARS CONSTRAINING FUTURE IMMUNE RESPONSES. THESE RESULTS SUPPORT EPIGENETIC REMODELING INTERVENTIONS FOR T(EX) CELL-TARGETED IMMUNOTHERAPIES. 2021 4 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 5 6481 32 TOX IS EXPRESSED BY EXHAUSTED AND POLYFUNCTIONAL HUMAN EFFECTOR MEMORY CD8(+) T CELLS. CD8(+) T CELL EXHAUSTION IS A HALLMARK OF MANY CANCERS AND CHRONIC INFECTIONS. IN MICE, T CELL FACTOR 1 (TCF-1) MAINTAINS EXHAUSTED CD8(+) T CELL RESPONSES, WHEREAS THYMOCYTE SELECTION-ASSOCIATED HMG BOX (TOX) IS REQUIRED FOR THE EPIGENETIC REMODELING AND SURVIVAL OF EXHAUSTED CD8(+) T CELLS. HOWEVER, IT HAS REMAINED UNCLEAR TO WHAT EXTENT THESE TRANSCRIPTION FACTORS PLAY ANALOGOUS ROLES IN HUMANS. IN THIS STUDY, WE MAPPED THE EXPRESSION OF TOX AND TCF-1 AS A FUNCTION OF DIFFERENTIATION AND SPECIFICITY IN THE HUMAN CD8(+) T CELL LANDSCAPE. HERE, WE DEMONSTRATE THAT CIRCULATING TOX(+) CD8(+) T CELLS EXIST IN MOST HUMANS, BUT THAT TOX IS NOT EXCLUSIVELY ASSOCIATED WITH EXHAUSTION. EFFECTOR MEMORY CD8(+) T CELLS GENERALLY EXPRESSED TOX, WHEREAS NAIVE AND EARLY-DIFFERENTIATED MEMORY CD8(+) T CELLS GENERALLY EXPRESSED TCF-1. CYTOLYTIC GENE AND PROTEIN EXPRESSION SIGNATURES WERE ALSO DEFINED BY THE EXPRESSION OF TOX. IN THE CONTEXT OF A RELENTLESS IMMUNE CHALLENGE, EXHAUSTED HIV-SPECIFIC CD8(+) T CELLS COMMONLY EXPRESSED TOX, OFTEN IN CLUSTERS WITH VARIOUS ACTIVATION MARKERS AND INHIBITORY RECEPTORS, AND EXPRESSED LESS TCF-1. HOWEVER, POLYFUNCTIONAL MEMORY CD8(+) T CELLS SPECIFIC FOR CYTOMEGALOVIRUS (CMV) OR EPSTEIN-BARR VIRUS (EBV) ALSO EXPRESSED TOX, EITHER WITH OR WITHOUT TCF-1. A SIMILAR PHENOTYPE WAS OBSERVED AMONG HIV-SPECIFIC CD8(+) T CELLS FROM INDIVIDUALS WHO MAINTAINED EXCEPTIONAL IMMUNE CONTROL OF VIRAL REPLICATION. COLLECTIVELY, THESE DATA DEMONSTRATE THAT TOX IS EXPRESSED BY MOST CIRCULATING EFFECTOR MEMORY CD8(+) T CELL SUBSETS AND NOT EXCLUSIVELY LINKED TO EXHAUSTION. 2020 6 5853 26 SUBSETS OF EXHAUSTED CD8(+) T CELLS DIFFERENTIALLY MEDIATE TUMOR CONTROL AND RESPOND TO CHECKPOINT BLOCKADE. T CELL DYSFUNCTION IS A HALLMARK OF MANY CANCERS, BUT THE BASIS FOR T CELL DYSFUNCTION AND THE MECHANISMS BY WHICH ANTIBODY BLOCKADE OF THE INHIBITORY RECEPTOR PD-1 (ANTI-PD-1) REINVIGORATES T CELLS ARE NOT FULLY UNDERSTOOD. HERE WE SHOW THAT SUCH THERAPY ACTS ON A SPECIFIC SUBPOPULATION OF EXHAUSTED CD8(+) TUMOR-INFILTRATING LYMPHOCYTES (TILS). DYSFUNCTIONAL CD8(+) TILS POSSESS CANONICAL EPIGENETIC AND TRANSCRIPTIONAL FEATURES OF EXHAUSTION THAT MIRROR THOSE SEEN IN CHRONIC VIRAL INFECTION. EXHAUSTED CD8(+) TILS INCLUDE A SUBPOPULATION OF 'PROGENITOR EXHAUSTED' CELLS THAT RETAIN POLYFUNCTIONALITY, PERSIST LONG TERM AND DIFFERENTIATE INTO 'TERMINALLY EXHAUSTED' TILS. CONSEQUENTLY, PROGENITOR EXHAUSTED CD8(+) TILS ARE BETTER ABLE TO CONTROL TUMOR GROWTH THAN ARE TERMINALLY EXHAUSTED T CELLS. PROGENITOR EXHAUSTED TILS CAN RESPOND TO ANTI-PD-1 THERAPY, BUT TERMINALLY EXHAUSTED TILS CANNOT. PATIENTS WITH MELANOMA WHO HAVE A HIGHER PERCENTAGE OF PROGENITOR EXHAUSTED CELLS EXPERIENCE A LONGER DURATION OF RESPONSE TO CHECKPOINT-BLOCKADE THERAPY. THUS, APPROACHES TO EXPAND THE POPULATION OF PROGENITOR EXHAUSTED CD8(+) T CELLS MIGHT BE AN IMPORTANT COMPONENT OF IMPROVING THE RESPONSE TO CHECKPOINT BLOCKADE. 2019 7 2421 30 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 8 5620 29 SCHRODINGER'S T CELLS: MOLECULAR INSIGHTS INTO STEMNESS AND EXHAUSTION. T CELL STEMNESS AND EXHAUSTION COEXIST AS TWO KEY CONTRASTING PHENOMENA DURING CHRONIC ANTIGEN STIMULATION, SUCH AS INFECTION, TRANSPLANT, CANCER, AND AUTOIMMUNITY. T CELL EXHAUSTION REFERS TO THE PROGRESSIVE LOSS OF EFFECTOR FUNCTION CAUSED BY CHRONIC ANTIGEN EXPOSURE. EXHAUSTED T (T(EX)) CELLS HIGHLY EXPRESS MULTIPLE INHIBITORY RECEPTORS AND EXHIBIT SEVERE DEFECTS IN CELL PROLIFERATION AND CYTOKINE PRODUCTION. THE TERM T CELL STEMNESS DESCRIBES THE STEM CELL-LIKE BEHAVIORS OF T CELLS, INCLUDING SELF-RENEWAL, MULTIPOTENCY, AND FUNCTIONAL PERSISTENCE. IT IS WELL ACCEPTED THAT NAIVE AND SOME MEMORY T CELL SUBSETS HAVE STEM CELL-LIKE PROPERTIES. WHEN INVESTIGATING THE EXHAUSTIVE DIFFERENTIATION OF T CELLS IN CHRONIC INFECTION AND CANCER, RECENT STUDIES HIGHLIGHTED THE STEMNESS OF "PRECURSORS OF EXHAUSTED" T (T(PEX)) CELLS PRIOR TO THEIR TERMINAL DIFFERENTIATION TO T(EX) CELLS. CLINICALLY SUCCESSFUL CHECKPOINT BLOCKADES FOR CANCER TREATMENT APPEAR TO INVIGORATE ANTITUMOR T(PEX) CELLS BUT NOT T(EX) CELLS. HERE WE DISCUSS THE TRANSCRIPTIONAL AND EPIGENETIC REGULATIONS OF T CELL STEMNESS AND EXHAUSTION, WITH A FOCUS ON HOW SYSTEMS IMMUNOLOGY WAS AND WILL BE UTILIZED TO DEFINE THE MOLECULAR BASIS UNDERLYING THE TRANSITION OF T(PEX) TO T(EX) CELLS. WE SUGGEST A "STEPWISE MODEL" OF T CELL STEMNESS AND EXHAUSTION, IN WHICH LOSS OF STEMNESS AND EXHAUSTION PROGRESSION ARE GRADUAL MULTI-STEP PROCESSES. WE PROVIDE PERSPECTIVES ON THE RESEARCH NEEDED TO DEFINE T CELL STEMNESS AND EXHAUSTION IN THE TRANSPLANTATION SETTING, IN WHICH ALLOGENIC T CELLS ARE ALSO CHRONICALLY EXPOSED TO ALLOANTIGENS. A BETTER UNDERSTANDING OF T CELL STEMNESS AND EXHAUSTION WILL SHED LIGHT ON DEVELOPING NOVEL STRATEGIES FOR IMMUNOTHERAPIES. 2021 9 1278 28 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 10 1379 31 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 11 6121 27 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 12 6319 31 THE ROAD LESS TAKEN: LESS APPRECIATED PATHWAYS FOR MANIPULATING CD8(+) T CELL EXHAUSTION. EXHAUSTED CD8(+) T (TEX) CELLS ARE A DISTINCT CELL POPULATION THAT ARISE DURING PERSISTENT ANTIGEN EXPOSURE IN THE CONTEXT OF CHRONIC INFECTIONS AND CANCERS. ALTHOUGH CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS, HIGH AND SUSTAINED INHIBITORY RECEPTOR EXPRESSION AND DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS, TEX CELLS ARE HETEROGENEOUS. AMONG THESE, A SELF-RENEWING TCF-1(+) TEX POPULATION, HAVING UNIQUE CHARACTERISTICS AND THE ABILITY TO RESPOND TO IMMUNE-CHECKPOINT BLOCKADE, GIVES RISE TO TCF-1(-) TERMINALLY TEX CELLS. THESE TCF-1(+) CELLS HAVE STEM CELL-LIKE PROPERTIES SIMILAR TO MEMORY T CELL POPULATIONS, BUT THE SIGNALS THAT REGULATE THE DEVELOPMENTAL PATHWAYS AND RELATIONSHIPS AMONG EXHAUSTED CELL POPULATIONS ARE STILL UNCLEAR. HERE, WE REVIEW OUR CURRENT UNDERSTANDING OF TEX CELL BIOLOGY, AND DISCUSS SOME LESS APPRECIATED MOLECULES AND PATHWAYS AFFECTING T CELL EXHAUSTION. WE HIGHLIGHT TWO CO-STIMULATORY RECEPTORS, CD226 AND CD137, AND THEIR ROLE IN INDUCING OR RESTRAINING T CELL EXHAUSTION, AS WELL AS SIGNALING PATHWAYS THAT MAY BE AMENABLE TO PHARMACOLOGICAL INHIBITION WITH A FOCUS ON PHOSPHOINOSITIDE-3 KINASE AND IL-2 PARTIAL AGONISTS. FINALLY, WE DISCUSS NOVEL METHODS THAT MAY INCREASE TCF-1(+) POPULATIONS AND THEREFORE IMPROVE IMMUNOTHERAPY RESPONSIVENESS. UNDERSTANDING FEATURES OF AND PATHWAYS TO EXHAUSTION HAS IMPORTANT IMPLICATIONS FOR THE SUCCESS OF IMMUNOTHERAPY, INCLUDING CHECKPOINT BLOCKADE AND ADOPTIVE T-CELL TRANSFER THERAPIES. 2022 13 1262 25 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 14 769 33 CD8 T CELL EXHAUSTION DURING CHRONIC VIRAL INFECTION AND CANCER. EXHAUSTED CD8 T (TEX) CELLS ARE A DISTINCT CELL LINEAGE THAT ARISE DURING CHRONIC INFECTIONS AND CANCERS IN ANIMAL MODELS AND HUMANS. TEX CELLS ARE CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS, HIGH AND SUSTAINED INHIBITORY RECEPTOR EXPRESSION, METABOLIC DYSREGULATION, POOR MEMORY RECALL AND HOMEOSTATIC SELF-RENEWAL, AND DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS. THE ABILITY TO REINVIGORATE TEX CELLS THROUGH INHIBITORY RECEPTOR BLOCKADE, SUCH AS ALPHAPD-1, HIGHLIGHTS THE THERAPEUTIC POTENTIAL OF TARGETING THIS POPULATION. EMERGING INSIGHTS INTO THE MECHANISMS OF EXHAUSTION ARE INFORMING IMMUNOTHERAPIES FOR CANCER AND CHRONIC INFECTIONS. HOWEVER, LIKE OTHER IMMUNE CELLS, TEX CELLS ARE HETEROGENEOUS AND INCLUDE PROGENITOR AND TERMINAL SUBSETS WITH UNIQUE CHARACTERISTICS AND RESPONSES TO CHECKPOINT BLOCKADE. HERE, WE REVIEW OUR CURRENT UNDERSTANDING OF TEX CELL BIOLOGY, INCLUDING THE DEVELOPMENTAL PATHS, TRANSCRIPTIONAL AND EPIGENETIC FEATURES, AND CELL INTRINSIC AND EXTRINSIC FACTORS CONTRIBUTING TO EXHAUSTION AND HOW THIS KNOWLEDGE MAY INFORM THERAPEUTIC TARGETING OF TEX CELLS IN CHRONIC INFECTIONS, AUTOIMMUNITY, AND CANCER. 2019 15 5358 30 REBALANCING TGFBETA1/BMP SIGNALS IN EXHAUSTED T CELLS UNLOCKS RESPONSIVENESS TO IMMUNE CHECKPOINT BLOCKADE THERAPY. T CELL DYSFUNCTIONALITY PREVENTS THE CLEARANCE OF CHRONIC INFECTIONS AND CANCER. FURTHERMORE, EPIGENETIC PROGRAMMING IN DYSFUNCTIONAL CD8(+) T CELLS LIMITS THEIR RESPONSE TO IMMUNOTHERAPIES, INCLUDING IMMUNE CHECKPOINT BLOCKADE (ICB). HOWEVER, IT IS UNCLEAR WHICH UPSTREAM SIGNALS DRIVE ACQUISITION OF DYSFUNCTIONAL EPIGENETIC PROGRAMS, AND WHETHER THERAPEUTICALLY TARGETING THESE SIGNALS CAN REMODEL TERMINALLY DYSFUNCTIONAL T CELLS TO AN ICB-RESPONSIVE STATE. HERE WE INNOVATE AN IN VITRO MODEL SYSTEM OF STABLE HUMAN T CELL DYSFUNCTION AND SHOW THAT CHRONIC TGFBETA1 SIGNALING IN POSTEFFECTOR CD8(+) T CELLS ACCELERATES THEIR TERMINAL DYSFUNCTION THROUGH STABLE EPIGENETIC CHANGES. CONVERSELY, BOOSTING BONE MORPHOGENETIC PROTEIN (BMP) SIGNALING WHILE BLOCKING TGFBETA1 PRESERVED EFFECTOR AND MEMORY PROGRAMS IN CHRONICALLY STIMULATED HUMAN CD8(+) T CELLS, INDUCING SUPERIOR RESPONSES TO TUMORS AND SYNERGIZING THE ICB RESPONSES DURING CHRONIC VIRAL INFECTION. THUS, REBALANCING TGFBETA1/BMP SIGNALS PROVIDES AN EXCITING NEW APPROACH TO UNLEASH DYSFUNCTIONAL CD8(+) T CELLS AND ENHANCE T CELL IMMUNOTHERAPIES. 2023 16 438 26 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 17 5015 27 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 18 2410 25 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 19 5806 32 STRATEGIES TO REINVIGORATE EXHAUSTED CD8(+) T CELLS IN TUMOR MICROENVIRONMENT. CD8(+) T CELL EXHAUSTION IS A STABLE DYSFUNCTIONAL STATE DRIVEN BY CHRONIC ANTIGEN STIMULATION IN THE TUMOR MICROENVIRONMENT (TME). DIFFERENTIATION OF EXHAUSTED CD8(+) T CELLS (CD8(+) TEXS) IS ACCOMPANIED BY EXTENSIVE TRANSCRIPTIONAL, EPIGENETIC AND METABOLIC REPROGRAMMING. CD8(+) TEXS ARE MAINLY CHARACTERIZED BY IMPAIRED PROLIFERATIVE AND CYTOTOXIC CAPACITY AS WELL AS THE INCREASED EXPRESSION OF MULTIPLE CO-INHIBITORY RECEPTORS. PRECLINICAL TUMOR STUDIES AND CLINICAL COHORTS HAVE DEMONSTRATED THAT T CELL EXHAUSTION IS FIRMLY ASSOCIATED WITH POOR CLINICAL OUTCOMES IN A VARIETY OF CANCERS. MORE IMPORTANTLY, CD8(+) TEXS ARE REGARDED AS THE MAIN RESPONDER TO IMMUNE CHECKPOINT BLOCKADE (ICB). HOWEVER, TO DATE, A LARGE NUMBER OF CANCER PATIENTS HAVE FAILED TO ACHIEVE DURABLE RESPONSES AFTER ICB. THEREFORE, IMPROVING CD8(+) TEXS MAY BE A BREAKTHROUGH POINT TO REVERSE THE CURRENT DILEMMA OF CANCER IMMUNOTHERAPY AND ELIMINATE CANCERS. STRATEGIES TO REINVIGORATE CD8(+) TEXS IN TME MAINLY INCLUDE ICB, TRANSCRIPTION FACTOR-BASED THERAPY, EPIGENETIC THERAPY, METABOLISM-BASED THERAPY AND CYTOKINE THERAPY, WHICH TARGET ON DIFFERENT ASPECTS OF EXHAUSTION PROGRESSION. EACH OF THEM HAS ITS ADVANTAGES AND APPLICATION SCOPE. IN THIS REVIEW, WE MAINLY FOCUS ON THE MAJOR ADVANCES OF CURRENT STRATEGIES TO REINVIGORATE CD8(+) TEXS IN TME. WE SUMMARIZE THEIR EFFICACY AND MECHANISMS, IDENTIFY THE PROMISING MONOTHERAPY AND COMBINED THERAPY AND PROPOSE SUGGESTIONS TO ENHANCE THE TREATMENT EFFICACY TO SIGNIFICANTLY BOOST ANTI-TUMOR IMMUNITY AND ACHIEVE BETTER CLINICAL OUTCOMES. 2023 20 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