1 2660 115 EPITHERAPY AND IMMUNE CHECKPOINT BLOCKADE: USING EPIGENETIC REINVIGORATION OF EXHAUSTED AND DYSFUNCTIONAL T CELLS TO REIMBURSE IMMUNOTHERAPY RESPONSE. BACKGROUND: CANCER CELLS SUBVERT NATURAL IMMUNOSUPPRESSION BY UPREGULATING THE EXPRESSION OF CHECKPOINT PROTEINS AND THEIR LIGANDS. FOR EXAMPLE, TUMOR CELLS EXPRESSING PROGRAMMED DEATH-LIGAND 1 (PD-L1) INDUCE IMMUNE CELL TOLERANCE TO CANCERS, THEREBY FACILITATING TUMOR PROGRESSION. THE RECENT CLINICAL SUCCESS OF IMMUNOTHERAPY, PARTICULARLY CHECKPOINT BLOCKADE, REPRESENTS A SIGNIFICANT ADVANCE IN CANCER THERAPY. HOWEVER, MANY CANCERS DEVELOP RESISTANCE TO IMMUNOTHERAPIES, AND THE UNDERLYING MECHANISMS AND HOW THESE MIGHT BE EXPLOITED TO OVERCOME RESISTANCE STILL NEED TO BE DETERMINED. METHODS: T CELL DYSFUNCTION, IN PART CAUSED BY CHRONIC T CELL RECEPTOR STIMULATION, DIMINISHES THE CAPACITY FOR DURABLE RESPONSES TO CHECKPOINT BLOCKADE. FURTHERMORE, T CELL POPULATIONS ARE PHENOTYPICALLY AND FUNCTIONALLY HETEROGENEOUS, RESULTING IN VARYING RESPONSES TO CHECKPOINT BLOCKADE. RECENT MOLECULAR STUDIES OF T CELL HETEROGENEITY HAVE SHOWN THAT CHECKPOINT BLOCKADE ON ITS OWN DOES NOT ALTER THE EPIGENETIC LANDSCAPE OF T CELLS, DESPITE EPIGENETIC CHANGES GOVERNING T CELL PHENOTYPE. CONCLUSION: HERE WE ARGUE THAT EPIGENETIC MODIFIERS CAN BE USED TO PRIME AND SENSITIZE T CELLS TO IMMUNOTHERAPY. ADMINISTERING EPITHERAPY IN CONJUNCTION WITH CHECKPOINT BLOCKADE COULD DECREASE T CELL EXHAUSTION AND IMMUNOTHERAPY RESISTANCE IN MANY CANCER TYPES. 2020 2 2443 27 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 3 5853 37 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 4 3731 27 INNATE AND ADAPTIVE IMMUNE REGULATION DURING CHRONIC VIRAL INFECTIONS. CHRONIC VIRAL INFECTIONS REPRESENT A UNIQUE CHALLENGE TO THE INFECTED HOST. PERSISTENTLY REPLICATING VIRUSES OUTCOMPETE OR SUBVERT THE INITIAL ANTIVIRAL RESPONSE, ALLOWING THE ESTABLISHMENT OF CHRONIC INFECTIONS THAT RESULT IN CONTINUOUS STIMULATION OF BOTH THE INNATE AND ADAPTIVE IMMUNE COMPARTMENTS. THIS CAUSES A PROFOUND REPROGRAMMING OF THE HOST IMMUNE SYSTEM, INCLUDING ATTENUATION AND PERSISTENT LOW LEVELS OF TYPE I INTERFERONS, PROGRESSIVE LOSS (OR EXHAUSTION) OF CD8(+) T CELL FUNCTIONS, AND SPECIALIZATION OF CD4(+) T CELLS TO PRODUCE INTERLEUKIN-21 AND PROMOTE ANTIBODY-MEDIATED IMMUNITY AND IMMUNE REGULATION. EPIGENETIC, TRANSCRIPTIONAL, POSTTRANSCRIPTIONAL, AND METABOLIC CHANGES UNDERLIE THIS ADAPTATION OR RECALIBRATION OF IMMUNE CELLS TO THE EMERGING NEW ENVIRONMENT IN ORDER TO STRIKE AN OFTEN IMPERFECT BALANCE BETWEEN THE HOST AND THE INFECTIOUS PATHOGEN. IN THIS REVIEW WE DISCUSS THE COMMON IMMUNOLOGICAL HALLMARKS OBSERVED ACROSS A RANGE OF DIFFERENT PERSISTENTLY REPLICATING VIRUSES AND HOST SPECIES, THE UNDERLYING MOLECULAR MECHANISMS, AND THE BIOLOGICAL AND CLINICAL IMPLICATIONS. 2015 5 5806 44 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 6 6482 35 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 7 3288 34 HIERARCHICAL TRANSCRIPTIONAL NETWORK GOVERNING HETEROGENEOUS T CELL EXHAUSTION AND ITS IMPLICATIONS FOR IMMUNE CHECKPOINT BLOCKADE. THE FUNDAMENTAL PRINCIPLE OF IMMUNE CHECKPOINT BLOCKADE (ICB) IS TO PROTECT TUMOR-INFILTRATING T CELLS FROM BEING EXHAUSTED. DESPITE THE REMARKABLE SUCCESS ACHIEVED BY ICB TREATMENT, ONLY A SMALL GROUP OF PATIENTS BENEFIT FROM IT. CHARACTERIZED BY A HYPOFUNCTIONAL STATE WITH THE EXPRESSION OF MULTIPLE INHIBITORY RECEPTORS, EXHAUSTED T (TEX) CELLS ARE A MAJOR OBSTACLE IN IMPROVING ICB. T CELL EXHAUSTION IS A PROGRESSIVE PROCESS WHICH ADAPTS TO PERSISTENT ANTIGEN STIMULATION IN CHRONIC INFECTIONS AND CANCERS. IN THIS REVIEW, WE ELUCIDATE THE HETEROGENEITY OF TEX CELLS AND OFFER NEW INSIGHTS INTO THE HIERARCHICAL TRANSCRIPTIONAL REGULATION OF T CELL EXHAUSTION. FACTORS AND SIGNALING PATHWAYS THAT INDUCE AND PROMOTE EXHAUSTION ARE ALSO SUMMARIZED. MOREOVER, WE REVIEW THE EPIGENETIC AND METABOLIC ALTERATIONS OF TEX CELLS AND DISCUSS HOW PD-1 SIGNALING AFFECTS THE BALANCE BETWEEN T CELL ACTIVATION AND EXHAUSTION, AIMING TO PROVIDE MORE THERAPEUTIC TARGETS FOR APPLICATIONS OF COMBINATIONAL IMMUNOTHERAPIES. 2023 8 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 9 790 28 CELLULAR AND MOLECULAR MECHANISMS OF CD8(+) T CELL DIFFERENTIATION, DYSFUNCTION AND EXHAUSTION. T CELLS FOLLOW A TRIPHASIC DISTINCT PATHWAY OF ACTIVATION, PROLIFERATION AND DIFFERENTIATION BEFORE BECOMING FUNCTIONALLY AND PHENOTYPICALLY "EXHAUSTED" IN SETTINGS OF CHRONIC INFECTION, AUTOIMMUNITY AND IN CANCER. EXHAUSTED T CELLS PROGRESSIVELY LOSE CANONICAL EFFECTOR FUNCTIONS, EXHIBIT ALTERED TRANSCRIPTIONAL NETWORKS AND EPIGENETIC SIGNATURES AND GAIN CONSTITUTIVE EXPRESSION OF A BROAD COINHIBITORY RECEPTOR SUITE. THIS REVIEW OUTLINES RECENT ADVANCES IN OUR UNDERSTANDING OF EXHAUSTED T CELL BIOLOGY AND EXAMINES CELLULAR AND MOLECULAR MECHANISMS BY WHICH A STATE OF DYSFUNCTION OR EXHAUSTION IS ESTABLISHED, AND MECHANISMS BY WHICH EXHAUSTED T CELLS MAY STILL CONTRIBUTE TO PATHOGEN OR TUMOUR CONTROL. FURTHER, THIS REVIEW DESCRIBES OUR UNDERSTANDING OF EXHAUSTED T CELL HETEROGENEITY AND OUTLINES THE MECHANISMS BY WHICH CHECKPOINT BLOCKADE DIFFERENTIALLY ENGAGES EXHAUSTED T CELL SUBSETS TO OVERCOME EXHAUSTION AND RECOVER T CELL FUNCTION. 2020 10 769 36 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 11 2409 34 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 12 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 13 559 21 BACH2 ENFORCES THE TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS OF STEM-LIKE CD8(+) T CELLS. DURING CHRONIC INFECTION AND CANCER, A SELF-RENEWING CD8(+) T CELL SUBSET MAINTAINS LONG-TERM IMMUNITY AND IS CRITICAL TO THE EFFECTIVENESS OF IMMUNOTHERAPY. THESE STEM-LIKE CD8(+) T CELLS DIVERGE FROM OTHER CD8(+) SUBSETS EARLY AFTER CHRONIC VIRAL INFECTION. HOWEVER, PATHWAYS GUARDING STEM-LIKE CD8(+) T CELLS AGAINST TERMINAL EXHAUSTION REMAIN UNCLEAR. HERE, WE SHOW THAT THE GENE ENCODING TRANSCRIPTIONAL REPRESSOR BACH2 IS TRANSCRIPTIONALLY AND EPIGENETICALLY ACTIVE IN STEM-LIKE CD8(+) T CELLS BUT NOT TERMINALLY EXHAUSTED CELLS EARLY AFTER INFECTION. BACH2 OVEREXPRESSION ENFORCED STEM-LIKE CELL FATE, WHEREAS BACH2 DEFICIENCY IMPAIRED STEM-LIKE CD8(+) T CELL DIFFERENTIATION. SINGLE-CELL TRANSCRIPTOMIC AND EPIGENOMIC APPROACHES REVEALED THAT BACH2 ESTABLISHED THE TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS OF STEM-LIKE CD8(+) T CELLS. IN ADDITION, BACH2 SUPPRESSED THE MOLECULAR PROGRAM DRIVING TERMINAL EXHAUSTION THROUGH TRANSCRIPTIONAL REPRESSION AND EPIGENETIC SILENCING. THUS, OUR STUDY REVEALS A NEW PATHWAY THAT ENFORCES COMMITMENT TO STEM-LIKE CD8(+) LINEAGE AND PREVENTS AN ALTERNATIVE TERMINALLY EXHAUSTED CELL FATE. 2021 14 6522 33 TRANSCRIPTIONAL AND EPIGENETIC REGULATION OF T CELL HYPORESPONSIVENESS. NAIVE CD8(+) T CELLS DIFFERENTIATE INTO EFFECTOR AND MEMORY CYTOLYTIC T CELLS (CTLS) DURING AN ACUTE INFECTION. IN CONTRAST, IN SCENARIOS OF PERSISTENT ANTIGEN STIMULATION, SUCH AS CHRONIC INFECTIONS AND CANCER, ANTIGEN-SPECIFIC CTLS SHOW A GRADUAL DECREASE IN EFFECTOR FUNCTION, A PHENOMENON THAT HAS BEEN TERMED CD8(+) T CELL "EXHAUSTION" OR "DYSFUNCTION." ANOTHER HYPORESPONSIVE STATE, TERMED "ANERGY", IS OBSERVED WHEN T CELLS ARE ACTIVATED IN THE ABSENCE OF POSITIVE COSTIMULATORY SIGNALS. AMONG THE MANY NEGATIVE REGULATORS INDUCED IN HYPORESPONSIVE T CELLS ARE INHIBITORY CELL-SURFACE RECEPTORS, SUCH AS PD-1, LAG-3, CTLA-4, AND TIM-3; "CHECKPOINT BLOCKADE" THERAPIES THAT INVOLVE TREATMENT OF PATIENTS WITH CANCER WITH BLOCKING ANTIBODIES TO THOSE RECEPTORS SHOW CONSIDERABLE PROMISE IN THE CLINIC BECAUSE THE BLOCKING ANTIBODIES CAN MITIGATE HYPORESPONSIVENESS AND PROMOTE TUMOR REJECTION. IN THIS REVIEW, WE DESCRIBE RECENT ADVANCES IN OUR MOLECULAR UNDERSTANDING OF THESE HYPORESPONSIVE STATES. WE REVIEW EVIDENCE FOR THE INVOLVEMENT OF DIVERSE TRANSCRIPTION FACTORS, METABOLIC PROGRAMS, AND CHROMATIN ACCESSIBILITY CHANGES IN HYPORESPONSIVE T CELLS, AND WE DISCUSS HOW CHECKPOINT BLOCKADE THERAPIES AFFECT THE MOLECULAR PROGRAM OF CD8(+) T CELL EXHAUSTION. 2017 15 568 31 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 16 4178 23 MEMORY T-CELL HETEROGENEITY AND TERMINOLOGY. IMMUNOLOGICAL MEMORY AND EXHAUSTION ARE FUNDAMENTAL FEATURES OF ADAPTIVE IMMUNITY. RECENT ADVANCES REVEAL INCREASING HETEROGENEITY AND DIVERSITY AMONG CD8 T-CELL SUBSETS, RESULTING IN NEW SUBSETS TO ANNOTATE AND UNDERSTAND. HERE, WE REVIEW OUR CURRENT KNOWLEDGE OF DIFFERENTIATION AND MAINTENANCE OF MEMORY AND EXHAUSTED CD8 T CELLS, INCLUDING PHENOTYPIC CLASSIFICATION, DEVELOPMENTAL PATHS, TRANSCRIPTIONAL AND EPIGENETIC FEATURES, AND CELL INTRINSIC AND EXTRINSIC FACTORS. ADDITIONALLY, WE USE THIS OUTLINE TO DISCUSS THE NOMENCLATURE OF EFFECTOR, MEMORY, AND EXHAUSTED CD8 T CELLS. FINALLY, WE DISCUSS HOW NEW FINDINGS ABOUT THESE CELL TYPES MAY IMPACT THE THERAPEUTIC EFFICACY AND DEVELOPMENT OF IMMUNOTHERAPIES TARGETING EFFECTOR, MEMORY, AND/OR EXHAUSTED CD8 T CELLS IN CHRONIC INFECTIONS AND CANCER. 2021 17 6481 31 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 18 771 35 CD8(+) T CELL EXHAUSTION. CD8(+) T CELLS ARE IMPORTANT FOR THE PROTECTIVE IMMUNITY AGAINST INTRACELLULAR PATHOGENS AND TUMOR. IN THE CASE OF CHRONIC INFECTION OR CANCER, CD8(+) T CELLS ARE EXPOSED TO PERSISTENT ANTIGEN AND/OR INFLAMMATORY SIGNALS. THIS EXCESSIVE AMOUNT OF SIGNALS OFTEN LEADS CD8(+) T CELLS TO GRADUAL DETERIORATION OF T CELL FUNCTION, A STATE CALLED "EXHAUSTION." EXHAUSTED T CELLS ARE CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS (CYTOKINE PRODUCTION AND KILLING FUNCTION), EXPRESSION OF MULTIPLE INHIBITORY RECEPTORS (SUCH AS PD-1 AND LAG3), DYSREGULATED METABOLISM, POOR MEMORY RECALL RESPONSE, AND HOMEOSTATIC PROLIFERATION. THESE ALTERED FUNCTIONS ARE CLOSELY RELATED WITH ALTERED TRANSCRIPTIONAL PROGRAM AND EPIGENETIC LANDSCAPE THAT CLEARLY DISTINGUISH EXHAUSTED T CELLS FROM NORMAL EFFECTOR AND MEMORY T CELLS. T CELL EXHAUSTION IS OFTEN ASSOCIATED WITH INEFFICIENT CONTROL OF PERSISTING INFECTIONS AND CANCERS, BUT RE-INVIGORATION OF EXHAUSTED T CELLS WITH INHIBITORY RECEPTOR BLOCKADE CAN PROMOTE IMPROVED IMMUNITY AND DISEASE OUTCOME. ACCUMULATING EVIDENCES SUPPORT THE THERAPEUTIC POTENTIAL OF TARGETING EXHAUSTED T CELLS. HOWEVER, EXHAUSTED T CELLS COMPRISE HETEROGENOUS CELL POPULATION WITH DISTINCT RESPONSIVENESS TO INTERVENTION. UNDERSTANDING MOLECULAR MECHANISM OF T CELL EXHAUSTION IS ESSENTIAL TO ESTABLISH RATIONAL IMMUNOTHERAPEUTIC INTERVENTIONS. 2019 19 5620 39 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 20 4186 24 METABOLIC AND EPIGENETIC REGULATION OF T-CELL EXHAUSTION. CURRENT IMMUNOTHERAPIES YIELD REMARKABLE CLINICAL OUTCOMES BY BOOSTING THE POWER OF HOST IMMUNITY IN CANCER CELL ELIMINATION AND VIRAL CLEARANCE. HOWEVER, AFTER PROLONGED ANTIGEN EXPOSURE, CD8(+) T CELLS DIFFERENTIATE INTO A SPECIAL DIFFERENTIATION STATE KNOWN AS T-CELL EXHAUSTION, WHICH POSES ONE OF THE MAJOR HURDLES TO ANTIVIRAL AND ANTITUMOR IMMUNITY DURING CHRONIC VIRAL INFECTION AND TUMOUR DEVELOPMENT. GROWING EVIDENCE INDICATES THAT EXHAUSTED T CELLS UNDERGO METABOLIC INSUFFICIENCY WITH ALTERED SIGNALLING CASCADES AND EPIGENETIC LANDSCAPES, WHICH DAMPEN EFFECTOR IMMUNITY AND CAUSE POOR RESPONSIVENESS TO IMMUNE-CHECKPOINT-BLOCKADE THERAPIES. HOW METABOLIC STRESS AFFECTS T-CELL EXHAUSTION REMAINS UNCLEAR; THEREFORE, IN THIS REVIEW, WE SUMMARIZE CURRENT KNOWLEDGE OF HOW T-CELL EXHAUSTION OCCURS, AND DISCUSS HOW METABOLIC INSUFFICIENCY AND PROLONGED STRESS RESPONSES MAY AFFECT SIGNALLING CASCADES AND EPIGENETIC REPROGRAMMING, THUS LOCKING T CELLS INTO AN EXHAUSTED STATE VIA SPECIALIZED DIFFERENTIATION PROGRAMMING. 2020