1 5703 166 SINGLE-CELL MULTIOMICS REVEAL THE SCALE OF MULTILAYERED ADAPTATIONS ENABLING CLL RELAPSE DURING VENETOCLAX THERAPY. VENETOCLAX (VEN) INHIBITS THE PROSURVIVAL PROTEIN BCL2 TO INDUCE APOPTOSIS AND IS A STANDARD THERAPY FOR CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), DELIVERING HIGH COMPLETE REMISSION RATES AND PROLONGED PROGRESSION-FREE SURVIVAL IN RELAPSED CLL BUT WITH EVENTUAL LOSS OF EFFICACY. A SPECTRUM OF SUBCLONAL GENETIC CHANGES ASSOCIATED WITH VEN RESISTANCE HAS NOW BEEN DESCRIBED. TO FULLY UNDERSTAND CLINICAL RESISTANCE TO VEN, WE COMBINED SINGLE-CELL SHORT- AND LONG-READ RNA-SEQUENCING TO REVEAL THE PREVIOUSLY UNAPPRECIATED SCALE OF GENETIC AND EPIGENETIC CHANGES UNDERPINNING ACQUIRED VEN RESISTANCE. THESE APPEAR TO BE MULTILAYERED. ONE LAYER COMPRISES CHANGES IN THE BCL2 FAMILY OF APOPTOSIS REGULATORS, ESPECIALLY THE PROSURVIVAL FAMILY MEMBERS. THIS INCLUDES PREVIOUSLY DESCRIBED MUTATIONS IN BCL2 AND AMPLIFICATION OF THE MCL1 GENE BUT IS HETEROGENEOUS ACROSS AND WITHIN INDIVIDUAL PATIENT LEUKEMIAS. CHANGES IN THE PROAPOPTOTIC GENES ARE NOTABLY UNCOMMON, EXCEPT FOR SINGLE CASES WITH SUBCLONAL LOSSES OF BAX OR NOXA. MUCH MORE PROMINENT WAS UNIVERSAL MCL1 GENE UPREGULATION. THIS WAS DRIVEN BY AN OVERLYING LAYER OF EMERGENT NF-KAPPAB (NUCLEAR FACTOR KAPPA B) ACTIVATION, WHICH PERSISTED IN CIRCULATING CELLS DURING VEN THERAPY. WE DISCOVERED THAT MCL1 COULD BE A DIRECT TRANSCRIPTIONAL TARGET OF NF-KAPPAB. BOTH THE SWITCH TO ALTERNATIVE PROSURVIVAL FACTORS AND NF-KAPPAB ACTIVATION LARGELY DISSIPATE FOLLOWING VEN DISCONTINUATION. OUR STUDIES REVEAL THE EXTENT OF PLASTICITY OF CLL CELLS IN THEIR ABILITY TO EVADE VEN-INDUCED APOPTOSIS. IMPORTANTLY, THESE FINDINGS PINPOINT NEW APPROACHES TO CIRCUMVENT VEN RESISTANCE AND PROVIDE A SPECIFIC BIOLOGICAL JUSTIFICATION FOR THE STRATEGY OF VEN DISCONTINUATION ONCE A MAXIMAL RESPONSE IS ACHIEVED RATHER THAN MAINTAINING LONG-TERM SELECTIVE PRESSURE WITH THE DRUG. 2022 2 1253 30 CURRENT PROBLEMS AND FUTURE DIRECTIONS OF TRANSFUSION-INDUCED ALLOIMMUNIZATION: SUMMARY OF AN NHLBI WORKING GROUP. IN APRIL 2010, A WORKING GROUP SPONSORED BY THE NATIONAL HEART, LUNG, AND BLOOD INSTITUTE WAS ASSEMBLED TO IDENTIFY RESEARCH STRATEGIES TO IMPROVE OUR UNDERSTANDING OF ALLOIMMUNIZATION CAUSED BY THE TRANSFUSION OF ALLOGENEIC BLOOD COMPONENTS AND TO EVALUATE POTENTIAL APPROACHES TO BOTH REDUCE ITS OCCURRENCE AND MANAGE ITS EFFECTS. SIGNIFICANT SEQUELAE OF ALLOIMMUNIZATION WERE DISCUSSED AND IDENTIFIED, INCLUDING DIFFICULTIES IN MAINTAINING CHRONIC TRANSFUSION OF RED BLOOD CELLS AND PLATELETS, HEMOLYTIC DISEASE OF THE NEWBORN, NEONATAL ALLOIMMUNE THROMBOCYTOPENIA, AND REJECTION OF TRANSPLANTED CELLS AND TISSUES. THE DISCUSSIONS RESULTED IN A CONSENSUS THAT IDENTIFIED KEY AREAS OF FUTURE RESEARCH AND DEVELOPMENTAL AREAS, INCLUDING GENETIC AND EPIGENETIC RECIPIENT FACTORS THAT REGULATE ALLOIMMUNIZATION, BIOCHEMICAL SPECIFICS OF TRANSFUSED PRODUCTS THAT AFFECT ALLOIMMUNIZATION, AND NOVEL TECHNOLOGIES FOR HIGH-THROUGHPUT GENOTYPING TO FACILITATE EXTENSIVE AND EFFICIENT ANTIGEN MATCHING BETWEEN DONOR AND RECIPIENT. ADDITIONAL AREAS OF IMPORTANCE INCLUDED ANALYSIS OF UNAPPRECIATED MEDICAL SEQUELAE OF ALLOIMMUNIZATION, SUCH AS CELLULAR IMMUNITY AND ITS EFFECT UPON TRANSPLANT AND AUTOIMMUNITY. IN ADDITION, SUPPORT FOR RESEARCH INFRASTRUCTURE WAS DISCUSSED, WITH AN EMPHASIS ON ENCOURAGING COLLABORATION AND SYNERGY OF ANIMAL MODELS BIOLOGY AND HUMAN CLINICAL RESEARCH. FINALLY, TRAINING FUTURE INVESTIGATORS WAS IDENTIFIED AS AN AREA OF IMPORTANCE. IN AGGREGATE, THIS COMMUNICATION PROVIDES A SYNOPSIS OF THE OPINIONS OF THE WORKING GROUP ON THE ABOVE ISSUES AND PRESENTS BOTH A LIST OF SUGGESTED PRIORITIES AND THE RATIONALE FOR THE TOPICS OF FOCUS. THE AREAS OF RESEARCH IDENTIFIED IN THIS REPORT REPRESENT POTENTIAL FERTILE GROUND FOR THE MEDICAL ADVANCEMENT OF PREVENTING AND MANAGING ALLOIMMUNIZATION IN ITS DIFFERENT FORMS AND MITIGATING THE CLINICAL PROBLEMS IT PRESENTS TO MULTIPLE PATIENT POPULATIONS. 2011 3 3171 35 GUT MICROBIAL GABAERGIC SIGNALING IMPROVES STRESS-ASSOCIATED INNATE IMMUNITY TO RESPIRATORY VIRAL INFECTION. INTRODUCTION: EPIDEMIOLOGICAL EVIDENCES REVEAL THAT POPULATIONS WITH PSYCHOLOGICAL STRESS HAVE AN INCREASED LIKELIHOOD OF RESPIRATORY VIRAL INFECTION INVOLVING INFLUENZA A VIRUS (IAV) AND SARS-COV-2. OBJECTIVES: THIS STUDY AIMS TO EXPLORE THE POTENTIAL CORRELATION BETWEEN PSYCHOLOGICAL STRESS AND INCREASED SUSCEPTIBILITY TO RESPIRATORY VIRAL INFECTIONS AND HOW THIS MAY CONTRIBUTE TO A MORE SEVERE DISEASE PROGRESSION. METHODS: A CHRONIC RESTRAINT STRESS (CRS) MOUSE MODEL WAS USED TO INFECT IAV AND ESTIMATE LUNG INFLAMMATION. ALVEOLAR MACROPHAGES (AMS) WERE OBSERVED IN THE NUMBERS, FUNCTION AND METABOLIC-EPIGENETIC PROPERTIES. TO CONFIRM THE CENTRAL IMPORTANCE OF THE GUT MICROBIOME IN STRESS-EXACERBATED VIRAL PNEUMONIA, MICE WERE CONDUCTED THROUGH MICROBIOME DEPLETION AND GUT MICROBIOME TRANSPLANTATION. RESULTS: STRESS EXPOSURE INDUCED A DECLINE IN LACTOBACILLACEAE ABUNDANCE AND HENCE GAMMA-AMINOBUTYRIC ACID (GABA) LEVEL IN MICE. MICROBIAL-DERIVED GABA WAS RELEASED IN THE PERIPHERAL AND SENSED BY AMS VIA GABA(A)R, LEADING TO ENHANCED MITOCHONDRIAL METABOLISM AND ALPHA-KETOGLUTARATE (ALPHAKG) GENERATION. THE METABOLIC INTERMEDIATOR IN TURN SERVED AS THE COFACTOR FOR THE EPIGENETIC REGULATOR TET2 TO CATALYZE DNA HYDROXYMETHYLATION AND PROMOTED THE PPARGAMMA-CENTERED GENE PROGRAM UNDERPINNING SURVIVAL, SELF-RENEWING, AND IMMUNOREGULATION OF AMS. THUS, WE UNCOVER AN UNAPPRECIATED GABA/TET2/PPARGAMMA REGULATORY CIRCUITRY INITIATED BY THE GUT MICROBIOME TO INSTRUCT DISTANT IMMUNE CELLS THROUGH A METABOLIC-EPIGENETIC PROGRAM. ACCORDINGLY, RECONSTITUTION WITH GABA-PRODUCING PROBIOTICS, ADOPTIVE TRANSFERRING OF GABA-CONDITIONED AMS, OR RESUMPTION OF PULMONARY ALPHAKG LEVEL REMARKABLY IMPROVED AMS HOMEOSTASIS AND ALLEVIATED SEVERE PNEUMONIA IN STRESSED MICE. CONCLUSION: TOGETHER, OUR STUDY IDENTIFIES MICROBIOME-DERIVED TONIC SIGNALING TUNED BY PSYCHOLOGICAL STRESS TO IMPRINT RESIDENT IMMUNE CELLS AND DEFENSIVE RESPONSE IN THE LUNGS. FURTHER STUDIES ARE WARRANTED TO TRANSLATE THESE FINDINGS, BASICALLY FROM MURINE MODELS, INTO THE INDIVIDUALS WITH PSYCHIATRIC STRESS DURING RESPIRATORY VIRAL INFECTION. 2023 4 1333 44 DEREGULATION AND EPIGENETIC MODIFICATION OF BCL2-FAMILY GENES CAUSE RESISTANCE TO VENETOCLAX IN HEMATOLOGIC MALIGNANCIES. THE BCL2 INHIBITOR VENETOCLAX HAS BEEN APPROVED TO TREAT DIFFERENT HEMATOLOGICAL MALIGNANCIES. BECAUSE THERE IS NO COMMON GENETIC ALTERATION CAUSING RESISTANCE TO VENETOCLAX IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND B-CELL LYMPHOMA, WE ASKED IF EPIGENETIC EVENTS MIGHT BE INVOLVED IN VENETOCLAX RESISTANCE. THEREFORE, WE EMPLOYED WHOLE-EXOME SEQUENCING, METHYLATED DNA IMMUNOPRECIPITATION SEQUENCING, AND GENOME-WIDE CLUSTERED REGULARLY INTERSPACED SHORT PALINDROMIC REPEATS (CRISPR)/CRISPR-ASSOCIATED PROTEIN 9 SCREENING TO INVESTIGATE VENETOCLAX RESISTANCE IN AGGRESSIVE LYMPHOMA AND HIGH-RISK CLL PATIENTS. WE IDENTIFIED A REGULATORY CPG ISLAND WITHIN THE PUMA PROMOTER THAT IS METHYLATED UPON VENETOCLAX TREATMENT, MEDIATING PUMA DOWNREGULATION ON TRANSCRIPT AND PROTEIN LEVEL. PUMA EXPRESSION AND SENSITIVITY TOWARD VENETOCLAX CAN BE RESTORED BY INHIBITION OF METHYLTRANSFERASES. WE CAN DEMONSTRATE THAT LOSS OF PUMA RESULTS IN METABOLIC REPROGRAMMING WITH HIGHER OXIDATIVE PHOSPHORYLATION AND ADENOSINE TRIPHOSPHATE PRODUCTION, RESEMBLING THE METABOLIC PHENOTYPE THAT IS SEEN UPON VENETOCLAX RESISTANCE. ALTHOUGH PUMA LOSS IS SPECIFIC FOR ACQUIRED VENETOCLAX RESISTANCE BUT NOT FOR ACQUIRED MCL1 RESISTANCE AND IS NOT SEEN IN CLL PATIENTS AFTER CHEMOTHERAPY-RESISTANCE, BAX IS ESSENTIAL FOR SENSITIVITY TOWARD BOTH VENETOCLAX AND MCL1 INHIBITION. AS WE FOUND LOSS OF BAX IN RICHTER'S SYNDROME PATIENTS AFTER VENETOCLAX FAILURE, WE DEFINED BAX-MEDIATED APOPTOSIS TO BE CRITICAL FOR DRUG RESISTANCE BUT NOT FOR DISEASE PROGRESSION OF CLL INTO AGGRESSIVE DIFFUSE LARGE B-CELL LYMPHOMA IN VIVO. A COMPOUND SCREEN REVEALED TRAIL-MEDIATED APOPTOSIS AS A TARGET TO OVERCOME BAX DEFICIENCY. FURTHERMORE, ANTIBODY OR CAR T CELLS ELIMINATED VENETOCLAX RESISTANT LYMPHOMA CELLS, PAVING A CLINICALLY APPLICABLE WAY TO OVERCOME VENETOCLAX RESISTANCE. 2022 5 2409 22 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 6 6481 36 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 7 3616 25 IN VITRO MODELING OF CD8 T CELL EXHAUSTION ENABLES CRISPR SCREENING TO REVEAL A ROLE FOR BHLHE40. IDENTIFYING NOVEL MOLECULAR MECHANISMS OF EXHAUSTED CD8 T CELLS (T (EX) ) IS A KEY GOAL OF IMPROVING IMMUNOTHERAPY OF CANCER AND OTHER DISEASES. HOWEVER, HIGH-THROUGHPUT INTERROGATION OF IN VIVO T (EX) CAN BE COSTLY AND INEFFICIENT. IN VITRO MODELS OF T (EX) ARE EASILY CUSTOMIZABLE AND QUICKLY GENERATE HIGH CELLULAR YIELD, OFFERING AN OPPORTUNITY TO PERFORM CRISPR SCREENING AND OTHER HIGH-THROUGHPUT ASSAYS. WE ESTABLISHED AN IN VITRO MODEL OF CHRONIC STIMULATION AND BENCHMARKED KEY PHENOTYPIC, FUNCTIONAL, TRANSCRIPTIONAL, AND EPIGENETIC FEATURES AGAINST BONA FIDE IN VIVO T (EX) . WE LEVERAGED THIS MODEL OF IN VITRO CHRONIC STIMULATION IN COMBINATION WITH POOLED CRISPR SCREENING TO UNCOVER TRANSCRIPTIONAL REGULATORS OF T CELL EXHAUSTION. THIS APPROACH IDENTIFIED SEVERAL TRANSCRIPTION FACTORS, INCLUDING BHLHE40. IN VITRO AND IN VIVO VALIDATION DEFINED A ROLE FOR BHLHE40 IN REGULATING A KEY DIFFERENTIATION CHECKPOINT BETWEEN PROGENITOR AND INTERMEDIATE SUBSETS OF T (EX) . BY DEVELOPING AND BENCHMARKING AN IN VITRO MODEL OF T (EX) , WE DEMONSTRATE THE UTILITY OF MECHANISTICALLY ANNOTATED IN VITRO MODELS OF T (EX) , IN COMBINATION WITH HIGH-THROUGHPUT APPROACHES, AS A DISCOVERY PIPELINE TO UNCOVER NOVEL T (EX) BIOLOGY. 2023 8 3617 25 IN VITRO MODELING OF CD8(+) T CELL EXHAUSTION ENABLES CRISPR SCREENING TO REVEAL A ROLE FOR BHLHE40. IDENTIFYING MOLECULAR MECHANISMS OF EXHAUSTED CD8 T CELLS (T(EX)) IS A KEY GOAL OF IMPROVING IMMUNOTHERAPY OF CANCER AND OTHER DISEASES. HOWEVER, HIGH-THROUGHPUT INTERROGATION OF IN VIVO T(EX) CAN BE COSTLY AND INEFFICIENT. IN VITRO MODELS OF T(EX) ARE EASILY CUSTOMIZABLE AND QUICKLY GENERATE HIGH CELLULAR YIELD, ENABLING CRISPR SCREENING AND OTHER HIGH-THROUGHPUT ASSAYS. WE ESTABLISHED AN IN VITRO MODEL OF CHRONIC STIMULATION AND BENCHMARKED KEY PHENOTYPIC, FUNCTIONAL, TRANSCRIPTIONAL, AND EPIGENETIC FEATURES AGAINST BONA FIDE IN VIVO T(EX). WE LEVERAGED THIS MODEL OF IN VITRO CHRONIC STIMULATION IN COMBINATION WITH CRISPR SCREENING TO IDENTIFY TRANSCRIPTIONAL REGULATORS OF T CELL EXHAUSTION. THIS APPROACH IDENTIFIED SEVERAL TRANSCRIPTION FACTORS, INCLUDING BHLHE40. IN VITRO AND IN VIVO VALIDATION DEFINED A ROLE FOR BHLHE40 IN REGULATING A KEY DIFFERENTIATION CHECKPOINT BETWEEN PROGENITOR AND INTERMEDIATE T(EX) SUBSETS. BY DEVELOPING AND BENCHMARKING AN IN VITRO MODEL OF T(EX), THEN APPLYING HIGH-THROUGHPUT CRISPR SCREENING, WE DEMONSTRATE THE UTILITY OF MECHANISTICALLY ANNOTATED IN VITRO MODELS OF T(EX). 2023 9 6319 34 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 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 11 568 29 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 12 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 13 1759 27 EARLY PRECURSOR T CELLS ESTABLISH AND PROPAGATE T CELL EXHAUSTION IN CHRONIC INFECTION. CD8(+) T CELLS RESPONDING TO CHRONIC INFECTIONS OR TUMORS ACQUIRE AN 'EXHAUSTED' STATE ASSOCIATED WITH ELEVATED EXPRESSION OF INHIBITORY RECEPTORS, INCLUDING PD-1, AND IMPAIRED CYTOKINE PRODUCTION. EXHAUSTED T CELLS ARE CONTINUOUSLY REPLENISHED BY T CELLS WITH PRECURSOR CHARACTERISTICS THAT SELF-RENEW AND DEPEND ON THE TRANSCRIPTION FACTOR TCF1; HOWEVER, THEIR DEVELOPMENTAL REQUIREMENTS ARE POORLY UNDERSTOOD. IN THE PRESENT STUDY, WE DEMONSTRATE THAT HIGH ANTIGEN LOAD PROMOTED THE DIFFERENTIATION OF PRECURSOR T CELLS, WHICH ACQUIRED HALLMARKS OF EXHAUSTION WITHIN DAYS OF INFECTION, WHEREAS EARLY EFFECTOR CELLS RETAINED POLYFUNCTIONAL FEATURES. EARLY PRECURSOR T CELLS SHOWED EPIGENETIC IMPRINTING CHARACTERISTIC OF T CELL RECEPTOR-DEPENDENT TRANSCRIPTION FACTOR BINDING AND WERE RESTRICTED TO THE GENERATION OF CELLS DISPLAYING EXHAUSTION CHARACTERISTICS. TRANSCRIPTION FACTORS BACH2 AND BATF WERE KEY REGULATORS WITH OPPOSING FUNCTIONS IN THE GENERATION OF EARLY PRECURSOR T CELLS. OVERALL, WE DEMONSTRATE THAT EXHAUSTION MANIFESTS FIRST IN TCF1(+) PRECURSOR T CELLS AND IS PROPAGATED SUBSEQUENTLY TO THE POOL OF ANTIGEN-SPECIFIC T CELLS. 2020 14 1469 37 DISTINCT EVOLUTIONARY PATHS IN CHRONIC LYMPHOCYTIC LEUKEMIA DURING RESISTANCE TO THE GRAFT-VERSUS-LEUKEMIA EFFECT. LEUKEMIC RELAPSE REMAINS A MAJOR BARRIER TO SUCCESSFUL ALLOGENEIC HEMATOPOIETIC STEM CELL TRANSPLANTATION (ALLO-HSCT) FOR AGGRESSIVE HEMATOLOGIC MALIGNANCIES. THE BASIS FOR RELAPSE OF ADVANCED LYMPHOID MALIGNANCIES REMAINS INCOMPLETELY UNDERSTOOD AND MAY INVOLVE ESCAPE FROM THE GRAFT-VERSUS-LEUKEMIA (GVL) EFFECT. WE HYPOTHESIZED THAT FOR PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) TREATED WITH ALLO-HSCT, LEUKEMIC CELL-INTRINSIC FEATURES INFLUENCE TRANSPLANT OUTCOMES BY DIRECTING THE EVOLUTIONARY TRAJECTORIES OF CLL CELLS. INTEGRATED GENETIC, TRANSCRIPTOMIC, AND EPIGENETIC ANALYSES OF CLL CELLS FROM 10 PATIENTS REVEALED THAT THE CLINICAL KINETICS OF POST-HSCT RELAPSE ARE SHAPED BY DISTINCT MOLECULAR DYNAMICS. EARLY RELAPSES AFTER ALLO-HSCT EXHIBITED NOTABLE GENETIC STABILITY; SINGLE CLL CELL TRANSCRIPTIONAL ANALYSIS DEMONSTRATED A CELLULAR HETEROGENEITY THAT WAS STATIC OVER TIME. IN CONTRAST, CLL CELLS RELAPSING LATE AFTER ALLO-HSCT DISPLAYED NOTABLE GENETIC EVOLUTION AND EVIDENCE OF NEOANTIGEN DEPLETION, CONSISTENT WITH MARKED SINGLE-CELL TRANSCRIPTIONAL SHIFTS THAT WERE UNIQUE TO EACH PATIENT. WE OBSERVED A GREATER RATE OF EPIGENETIC CHANGE FOR LATE RELAPSES NOT SEEN IN EARLY RELAPSES OR RELAPSES AFTER CHEMOTHERAPY ALONE, SUGGESTING THAT THE SELECTION PRESSURES OF THE GVL BOTTLENECK ARE UNLIKE THOSE IMPOSED BY CHEMOTHERAPY. NO SELECTIVE ADVANTAGE FOR HUMAN LEUKOCYTE ANTIGEN (HLA) LOSS WAS OBSERVED, EVEN WHEN PRESENT IN PRETRANSPLANT SUBPOPULATIONS. GAIN OF STEM CELL MODULES WAS A COMMON SIGNATURE ASSOCIATED WITH LEUKEMIA RELAPSE REGARDLESS OF POSTTRANSPLANT RELAPSE KINETICS. THESE DATA ELUCIDATE THE BIOLOGICAL PATHWAYS THAT UNDERLIE GVL RESISTANCE AND POSTTRANSPLANT RELAPSE. 2020 15 5900 33 T-CELL EXHAUSTION IN ORGAN TRANSPLANTATION. EXHAUSTION OF T CELLS OCCURS IN RESPONSE TO LONG-TERM EXPOSURE TO SELF AND FOREIGN ANTIGENS. IT LIMITS T CELL CAPACITY TO PROLIFERATE AND PRODUCE CYTOKINES, LEADING TO AN IMPAIRED ABILITY TO CLEAR CHRONIC INFECTIONS OR ERADICATE TUMORS. T-CELL EXHAUSTION IS ASSOCIATED WITH A SPECIFIC TRANSCRIPTIONAL, EPIGENETIC, AND METABOLIC PROGRAM AND CHARACTERISTIC CELL SURFACE MARKERS' EXPRESSION. RECENT STUDIES HAVE BEGUN TO ELUCIDATE THE ROLE OF T-CELL EXHAUSTION IN TRANSPLANT. HIGHER LEVELS OF EXHAUSTED T CELLS HAVE BEEN ASSOCIATED WITH BETTER GRAFT FUNCTION IN KIDNEY TRANSPLANT RECIPIENTS. IN CONTRAST, REINVIGORATING EXHAUSTED T CELLS BY IMMUNE CHECKPOINT BLOCKADE THERAPIES, WHILE PROMOTING TUMOR CLEARANCE, INCREASES THE RISK OF ACUTE REJECTION. LYMPHOCYTE DEPLETION AND HIGH ALLOANTIGEN LOAD HAVE BEEN IDENTIFIED AS MAJOR DRIVERS OF T-CELL EXHAUSTION. THIS COULD ACCOUNT, AT LEAST IN PART, FOR THE REDUCED RATES OF ACUTE REJECTION IN ORGAN TRANSPLANT RECIPIENTS INDUCED WITH THYMOGLOBULIN AND FOR THE PRO-TOLEROGENIC EFFECTS OF A LARGE ORGAN SUCH AS THE LIVER. AMONG THE DRUGS THAT ARE WIDELY USED FOR MAINTENANCE IMMUNOSUPPRESSION, CALCINEURIN INHIBITORS HAVE A CONTRASTING INHIBITORY EFFECT ON EXHAUSTION OF T CELLS, WHILE THE INFLUENCE OF MTOR INHIBITORS IS STILL UNCLEAR. HARNESSING OR ENCOURAGING THE NATURAL PROCESSES OF EXHAUSTION MAY PROVIDE A NOVEL STRATEGY TO PROMOTE GRAFT SURVIVAL AND TRANSPLANTATION TOLERANCE. 2022 16 459 41 APPLYING SINGLE-CELL TECHNOLOGIES TO CLINICAL PATHOLOGY: PROGRESS IN NEPHROPATHOLOGY. CELLS REPRESENT THE BASIC BUILDING BLOCKS OF LIVING ORGANISMS. ACCURATE CHARACTERISATION OF CELLULAR PHENOTYPE, INTERCELLULAR SIGNALLING NETWORKS, AND THE SPATIAL ORGANISATION OF CELLS WITHIN ORGANS IS CRUCIAL TO DELIVER A BETTER UNDERSTANDING OF THE PROCESSES UNDERPINNING PHYSIOLOGY, AND THE PERTURBATIONS THAT LEAD TO DISEASE. SINGLE-CELL METHODOLOGIES HAVE INCREASED RAPIDLY IN SCALE AND SCOPE IN RECENT YEARS AND ARE SET TO GENERATE IMPORTANT INSIGHTS INTO HUMAN DISEASE. HERE, WE REVIEW CURRENT PRACTICES IN NEPHROPATHOLOGY, WHICH ARE DOMINATED BY RELATIVELY SIMPLE MORPHOLOGICAL DESCRIPTIONS OF TISSUE BIOPSIES BASED ON THEIR APPEARANCE USING LIGHT MICROSCOPY. BULK TRANSCRIPTOMICS HAVE MORE RECENTLY BEEN USED TO EXPLORE GLOMERULAR AND TUBULOINTERSTITIAL KIDNEY DISEASE, RENAL CANCER, AND THE RESPONSES TO INJURY AND ALLOIMMUNITY IN KIDNEY TRANSPLANTATION, GENERATING NOVEL DISEASE INSIGHTS AND PROGNOSTIC BIOMARKERS. THESE STUDIES SET THE STAGE FOR SINGLE-CELL TRANSCRIPTOMIC APPROACHES THAT REVEAL CELL-TYPE-SPECIFIC GENE EXPRESSION PATTERNS IN HEALTH AND DISEASE. THESE TECHNOLOGIES ALLOW GENOME-WIDE DISEASE SUSCEPTIBILITY GENES TO BE INTERPRETED WITH THE KNOWLEDGE OF THE SPECIFIC CELL POPULATIONS WITHIN ORGANS THAT EXPRESS THEM, IDENTIFYING CANDIDATE CELL TYPES FOR FURTHER STUDY. SINGLE-CELL TECHNOLOGIES ARE ALSO MOVING BEYOND ASSAYING INDIVIDUAL CELLULAR TRANSCRIPTOMES, TO MEASURING THE EPIGENETIC LANDSCAPE OF SINGLE CELLS. SINGLE-CELL ANTIGEN-RECEPTOR GENE SEQUENCING ALSO ENABLES SPECIFIC T- AND B-CELL CLONES TO BE TRACKED IN DIFFERENT TISSUES AND DISEASE STATES. IN THE COMING YEARS THESE RICH 'MULTI-OMIC' DESCRIPTIONS OF KIDNEY DISEASE WILL ENABLE HISTOPATHOLOGICAL DESCRIPTIONS TO BE COMPREHENSIVELY INTEGRATED WITH MOLECULAR PHENOTYPES, ENABLING BETTER DISEASE CLASSIFICATION AND PROGNOSTICATION AND THE APPLICATION OF PERSONALISED TREATMENT STRATEGIES. (C) 2020 THE AUTHORS. THE JOURNAL OF PATHOLOGY PUBLISHED BY JOHN WILEY & SONS LTD ON BEHALF OF PATHOLOGICAL SOCIETY OF GREAT BRITAIN AND IRELAND. 2020 17 771 29 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 18 103 29 A REHABILOMICS FRAMEWORK FOR PERSONALIZED AND TRANSLATIONAL REHABILITATION RESEARCH AND CARE FOR INDIVIDUALS WITH DISABILITIES: PERSPECTIVES AND CONSIDERATIONS FOR SPINAL CORD INJURY. DESPITE MANY PEOPLE HAVING SIMILAR CLINICAL PRESENTATION, DEMOGRAPHIC FACTORS, AND CLINICAL CARE, OUTCOME CAN DIFFER FOR THOSE SUSTAINING SIGNIFICANT INJURY SUCH AS SPINAL CORD INJURY (SCI) AND TRAUMATIC BRAIN INJURY (TBI). IN ADDITION TO TRADITIONAL DEMOGRAPHIC, SOCIAL, AND CLINICAL FACTORS, VARIABILITY ALSO MAY BE ATTRIBUTABLE TO INNATE (INCLUDING GENETIC, TRANSCRIPTOMIC PROTEOMIC, EPIGENETIC) BIOLOGICAL VARIATION THAT INDIVIDUALS BRING TO RECOVERY AND THEIR UNIQUE RESPONSE TO THEIR CARE AND ENVIRONMENT. TECHNOLOGIES COLLECTIVELY CALLED "-OMICS" ENABLE SIMULTANEOUS MEASUREMENT OF AN ENORMOUS NUMBER OF BIOMOLECULES THAT CAN CAPTURE MANY POTENTIAL BIOLOGICAL CONTRIBUTORS TO HETEROGENEITY OF INJURY/DISEASE COURSE AND OUTCOME. DUE TO THE NATURE OF INJURY AND COMPLEX DISEASE, AND ITS ASSOCIATIONS WITH IMPAIRMENT, DISABILITY, AND RECOVERY, REHABILITATION DOES NOT LEND ITSELF TO A SINGULAR "PROTOCOLIZED" PLAN OF THERAPY. YET, BY NATURE AND BY NECESSITY, REHABILITATION MEDICINE OPERATES AS A FUNCTIONAL MODEL OF "PERSONALIZED CARE". THUS, THE CHALLENGE FOR SUCCESSFUL PROGRAMS OF TRANSLATIONAL REHABILITATION CARE AND RESEARCH IS TO IDENTIFY VIABLE APPROACHES TO EXAMINE BROAD POPULATIONS, WITH VARIED IMPAIRMENTS AND FUNCTIONAL LIMITATIONS, AND TO IDENTIFY EFFECTIVE TREATMENT RESPONSES THAT INCORPORATE PERSONALIZED PROTOCOLS TO OPTIMIZE FUNCTIONAL RECOVERY. THE REHABILOMICS FRAMEWORK IS A TRANSLATIONAL MODEL THAT PROVIDES AN "-OMICS" OVERLAY TO THE SCIENTIFIC STUDY OF REHABILITATION PROCESSES AND MULTIDIMENSIONAL OUTCOMES. REHABILOMICS RESEARCH PROVIDES NOVEL OPPORTUNITIES TO EVALUATE THE NEUROBIOLOGY OF COMPLEX INJURY OR CHRONIC DISEASE AND CAN BE USED TO EXAMINE METHODS AND TREATMENTS FOR PERSON-CENTERED CARE AMONG POPULATIONS WITH DISABILITIES. EXEMPLARS FOR APPLICATION IN SCI AND OTHER NEUROREHABILITATION POPULATIONS ARE DISCUSSED. 2014 19 1102 32 COMBINED CHEMOSENSITIVITY AND CHROMATIN PROFILING PRIORITIZES DRUG COMBINATIONS IN CLL. THE BRUTON TYROSINE KINASE (BTK) INHIBITOR IBRUTINIB HAS SUBSTANTIALLY IMPROVED THERAPEUTIC OPTIONS FOR CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). ALTHOUGH IBRUTINIB IS NOT CURATIVE, IT HAS A PROFOUND EFFECT ON CLL CELLS AND MAY CREATE NEW PHARMACOLOGICALLY EXPLOITABLE VULNERABILITIES. TO IDENTIFY SUCH VULNERABILITIES, WE DEVELOPED A SYSTEMATIC APPROACH THAT COMBINES EPIGENOME PROFILING (CHARTING THE GENE-REGULATORY BASIS OF CELL STATE) WITH SINGLE-CELL CHEMOSENSITIVITY PROFILING (QUANTIFYING CELL-TYPE-SPECIFIC DRUG RESPONSE) AND BIOINFORMATIC DATA INTEGRATION. BY APPLYING OUR METHOD TO A COHORT OF MATCHED PATIENT SAMPLES COLLECTED BEFORE AND DURING IBRUTINIB THERAPY, WE IDENTIFIED CHARACTERISTIC IBRUTINIB-INDUCED CHANGES THAT PROVIDE A STARTING POINT FOR THE RATIONAL DESIGN OF IBRUTINIB COMBINATION THERAPIES. SPECIFICALLY, WE OBSERVED AND VALIDATED PREFERENTIAL SENSITIVITY TO PROTEASOME, PLK1, AND MTOR INHIBITORS DURING IBRUTINIB TREATMENT. MORE GENERALLY, OUR STUDY ESTABLISHES A BROADLY APPLICABLE METHOD FOR INVESTIGATING TREATMENT-SPECIFIC VULNERABILITIES BY INTEGRATING THE COMPLEMENTARY PERSPECTIVES OF EPIGENETIC CELL STATES AND PHENOTYPIC DRUG RESPONSES IN PRIMARY PATIENT SAMPLES. 2019 20 4178 21 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