1 3434 170 HYPER-METHYLATED HUB GENES OF T-CELL RECEPTOR SIGNALING PREDICT A POOR CLINICAL OUTCOME IN LUNG ADENOCARCINOMA. BACKGROUND: IMMUNE CHECKPOINT INHIBITORS (ICIS) EMERGE AS THE FIRST-LINE TREATMENT OF LUNG ADENOCARCINOMA (LUAD); SELECTION OF SUBPOPULATIONS ACQUIRING CLINICAL BENEFIT IS REQUIRED. ASSOCIATIONS BETWEEN EPIGENETIC MODULATION OF TUMOR MICROENVIRONMENT (TME) AND CLINICAL OUTCOME ARE FAR FROM CLEAR. WE FOCUSED ON IMMUNE-RELATED GENES CLOSELY REGULATED BY DNA METHYLATION TO IDENTIFY THE POTENTIAL CLINICAL OUTCOME INDICATORS. METHODS: WE SYSTEMATICALLY CALCULATED IMMUNOPHENOTYPE SCORE (IMPS) AND CLASSIFIED IMMUNOPHENOTYPES BASED ON SEVEN TME FEATURES IN THREE INDEPENDENT COHORTS. THE OVERLAPPING OF DIFFERENTIAL EXPRESSED GENES AND METHYLATED PROBES TARGETED GENES WAS REGARDED AS GENES CLOSELY REGULATED BY DNA METHYLATION. THEN, PROBE/GENE PAIRS WHICH HIGHLY CORRELATED WITH EACH OTHER AND IMPS WERE IDENTIFIED AND NAMED AS IMMUNE-RELATED PROBE/GENE PAIRS (MIMG). PROGNOSTIC MIMG WERE SELECTED AND VERIFIED IN SEVEN INDEPENDENT VALIDATION COHORTS. RESULTS: THREE IMMUNE PHENOTYPES WERE CLUSTERED, AND SIMILAR RESULTS WERE OBTAINED IN THE THREE INDEPENDENT TRAINING COHORTS. C2 DISPLAYED AS AN IMMUNOLOGICALLY HOT PHENOTYPE, WHEREAS C3 CORRESPONDED WITH IMMUNOLOGICALLY COLD PHENOTYPE. AVERAGE METHYLATION LEVEL WAS DECREASED FROM C2 TO C3 (C2 > C1 > C3). SIMILARLY, ICIS NONRESPONDERS SHOWED GLOBAL HYPO-METHYLATION COMPARED WITH RESPONDERS. GENES IN MIMG WERE MAINLY ENRICHED, ESPECIALLY IN T-CELL RECEPTOR ACTIVATION, AND REPRESSED IN NONINFLAMED TME BY HYPER-METHYLATION. AMONG MIMG, LOW EXPRESSION AND HYPER-METHYLATION OF CD247, LCK, AND PSTPIP1 WERE RISK FACTORS OF OVERALL SURVIVAL (OS). ICIS NONRESPONDERS WERE MORE LIKELY TO BE HYPER-METHYLATED IN THE THREE GENES. BY INTEGRATING WITH THE ONCOGENES STATUS, WE DEMONSTRATED THAT EGFR WT AND SRGN OVEREXPRESSED PATIENTS WERE ASSOCIATED WITH CHRONIC INFLAMMATION AND IMMUNE EVASION, SHOWING AN IMMUNOLOGICALLY HOT PHENOTYPE, WHICH MIGHT LEAD TO THE SHORT OS BUT DERIVE CLINICAL BENEFIT FROM ICIS. CONCLUSIONS: THIS STUDY IDENTIFIES HYPER-METHYLATION AND CONCURRENT REPRESSION OF CD247, LCK, PSTPIP1 AS IMMUNE NEGATIVE INDICATORS AND RISK FACTORS FOR PROGNOSIS IN LUAD. MOREOVER, EGFR/SRGN AXIS MAY PARTICIPATE IN IMMUNE MODIFICATION TO INFLUENCE ICIS RESPONSE AND CLINICAL OUTCOME IN LUAD. 2022 2 2831 38 FOCUS ON T CELL EXHAUSTION: NEW ADVANCES IN TRADITIONAL CHINESE MEDICINE IN INFECTION AND CANCER. IN CHRONIC INFECTIONS AND CANCERS, T LYMPHOCYTES (T CELLS) ARE EXPOSED TO PERSISTENT ANTIGEN OR INFLAMMATORY SIGNALS. THE CONDITION IS OFTEN ASSOCIATED WITH A DECLINE IN T-CELL FUNCTION: A STATE CALLED "EXHAUSTION". T CELL EXHAUSTION IS A STATE OF T CELL DYSFUNCTION CHARACTERIZED BY INCREASED EXPRESSION OF A SERIES OF INHIBITORY RECEPTORS (IRS), DECREASED EFFECTOR FUNCTION, AND DECREASED CYTOKINE SECRETION, ACCOMPANIED BY TRANSCRIPTIONAL AND EPIGENETIC CHANGES AND METABOLIC DEFECTS. THE RISE OF IMMUNOTHERAPY, PARTICULARLY THE USE OF IMMUNE CHECKPOINT INHIBITORS (ICIS), HAS DRAMATICALLY CHANGED THE CLINICAL TREATMENT PARADIGM FOR PATIENTS. HOWEVER, ITS LOW RESPONSE RATE, SINGLE TARGET AND HIGH IMMUNOTOXICITY LIMIT ITS CLINICAL APPLICATION. THE MULTIPLE IMMUNOMODULATORY POTENTIAL OF TRADITIONAL CHINESE MEDICINE (TCM) PROVIDES A NEW DIRECTION FOR IMPROVING THE TREATMENT OF T CELL EXHAUSTION. HERE, WE REVIEW RECENT ADVANCES THAT HAVE PROVIDED A CLEARER MOLECULAR UNDERSTANDING OF T CELL EXHAUSTION, REVEALING THE CHARACTERISTICS AND CAUSES OF T CELL EXHAUSTION IN PERSISTENT INFECTIONS AND CANCERS. IN ADDITION, THIS PAPER SUMMARIZES RECENT ADVANCES IN IMPROVING T CELL EXHAUSTION IN INFECTIOUS DISEASES AND CANCER WITH THE AIM OF PROVIDING A COMPREHENSIVE AND VALUABLE SOURCE OF INFORMATION ON TCM AS AN EXPERIMENTAL STUDY AND THEIR ROLE IN COLLABORATION WITH ICIS THERAPY. 2023 3 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 4 6522 30 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 5 771 30 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 6 2660 32 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 7 6851 30 [MOLECULAR PROFILES OF EXHAUSTED T CELLS AND THEIR IMPACT ON RESPONSE TO IMMUNE CHECKPOINT BLOCKADE]. T CELL EXHAUSTION IS INDUCED IN THE CONTEXT OF CHRONIC VIRUS INFECTION AND TUMOR MICROENVIRONMENT, IN WHICH CYTOTOXIC T CELLS ARE REPEATEDLY EXPOSED TO THE TARGET ANTIGEN AND DEPRIVED OF THEIR EFFECTOR FUNCTIONS. MULTIPLE STUDIES HAVE ALREADY SHOWN THE SIGNIFICANT IMPACT OF IMMUNE CHECKPOINT MOLECULES SUCH AS PD1 ON FUNCTIONAL PROPERTIES OF EXHAUSTED T CELLS. IN ADDITION TO THESE SIGNALS, EXHAUSTED T CELLS POSSESS DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROFILES COMPARED WITH CONVENTIONAL EFFECTOR AND MEMORY T CELLS. IMPORTANTLY, MOST OF THESE FEATURES ARE NOT AFFECTED BY IMMUNE CHECKPOINT BLOCKADE, SUGGESTING THAT GENETIC AND EPIGENETIC REMODELING OF T CELLS IS AN UNDERLYING MOLECULAR MECHANISM ESSENTIAL FOR T CELL EXHAUSTION. MOREOVER, IT HAS NOW BEEN EVIDENT THAT EXHAUSTED T CELLS ARE A HETEROGENEOUS CELL POPULATION COMPOSED OF DISTINCT T CELL SUBSETS, AND THESE FUNCTIONAL DIFFERENCES PROFOUNDLY AFFECT THERAPEUTIC EFFICACY OF CANCER IMMUNOTHERAPY. IN THIS REVIEW, I WILL DISCUSS RECENT STUDIES INVESTIGATING MOLECULAR MECHANISMS OF T CELL EXHAUSTION, INCLUDING NOVEL KEY MOLECULES ESSENTIALLY ASSOCIATED WITH T CELL EXHAUSTION. THESE FINDINGS ARE POTENTIALLY APPLICABLE TO REINVIGORATE EFFECTOR FUNCTIONS OF EXHAUSTED T CELLS. 2022 8 2879 37 FUNDAMENTALS TO THERAPEUTICS: EPIGENETIC MODULATION OF CD8(+) T CELL EXHAUSTION IN THE TUMOR MICROENVIRONMENT. IN THE SETTING OF CHRONIC ANTIGEN EXPOSURE IN THE TUMOR MICROENVIRONMENT (TME), CYTOTOXIC CD8(+) T CELLS (CTLS) LOSE THEIR IMMUNE SURVEILLANCE CAPABILITIES AND ABILITY TO CLEAR TUMOR CELLS AS A RESULT OF THEIR DIFFERENTIATION INTO TERMINALLY EXHAUSTED CD8(+) T CELLS. IMMUNE CHECKPOINT BLOCKADE (ICB) THERAPIES REINVIGORATE EXHAUSTED CD8(+) T CELLS BY TARGETING SPECIFIC INHIBITORY RECEPTORS, THUS PROMOTING THEIR CYTOLYTIC ACTIVITY TOWARDS TUMOR CELLS. DESPITE EXCITING RESULTS WITH ICB THERAPIES, MANY PATIENTS WITH SOLID TUMORS STILL FAIL TO RESPOND TO SUCH THERAPIES AND PATIENTS WHO INITIALLY RESPOND CAN DEVELOP RESISTANCE. RECENTLY, THROUGH NEW SEQUENCING TECHNOLOGIES SUCH AS THE ASSAY FOR TRANSPOSASE-ACCESSIBLE CHROMATIN WITH SEQUENCING (ATAC-SEQ), EPIGENETICS HAS BEEN APPRECIATED AS A CONTRIBUTING FACTOR THAT ENFORCES T CELL DIFFERENTIATION TOWARD EXHAUSTION IN THE TME. IMPORTANTLY, SPECIFIC EPIGENETIC ALTERATIONS AND EPIGENETIC FACTORS HAVE BEEN FOUND TO CONTROL CD8(+) T CELL EXHAUSTION PHENOTYPES. IN THIS REVIEW, WE WILL EXPLAIN THE BACKGROUND OF T CELL DIFFERENTIATION AND VARIOUS EXHAUSTION STATES AND DISCUSS HOW EPIGENETICS PLAY AN IMPORTANT ROLE IN THESE PROCESSES. THEN WE WILL OUTLINE SPECIFIC EPIGENETIC CHANGES AND CERTAIN EPIGENETIC AND TRANSCRIPTION FACTORS THAT ARE KNOWN TO CONTRIBUTE TO CD8(+) T CELL EXHAUSTION. WE WILL ALSO DISCUSS THE MOST RECENT METHODOLOGIES THAT ARE USED TO STUDY AND DISCOVER SUCH EPIGENETIC MODULATIONS. FINALLY, WE WILL EXPLAIN HOW EPIGENETIC REPROGRAMMING IS A PROMISING APPROACH THAT MIGHT FACILITATE THE DEVELOPMENT OF NOVEL EXHAUSTED T CELL-TARGETING IMMUNOTHERAPIES. 2022 9 1313 34 DELETING DNMT3A IN CAR T CELLS PREVENTS EXHAUSTION AND ENHANCES ANTITUMOR ACTIVITY. CHIMERIC ANTIGEN RECEPTOR (CAR) T CELL THERAPY IS REVOLUTIONIZING CANCER IMMUNOTHERAPY FOR PATIENTS WITH B CELL MALIGNANCIES AND IS NOW BEING DEVELOPED FOR SOLID TUMORS AND CHRONIC VIRAL INFECTIONS. ALTHOUGH CLINICAL TRIALS HAVE DEMONSTRATED THE CURATIVE POTENTIAL OF CAR T CELL THERAPY, A SUBSTANTIAL AND WELL-ESTABLISHED LIMITATION IS THE HEIGHTENED CONTRACTION AND TRANSIENT PERSISTENCE OF CAR T CELLS DURING PROLONGED ANTIGEN EXPOSURE. THE UNDERLYING MECHANISM(S) FOR THIS DYSFUNCTIONAL STATE, OFTEN TERMED CAR T CELL EXHAUSTION, REMAINS POORLY DEFINED. HERE, WE REPORT THAT EXHAUSTION OF HUMAN CAR T CELLS OCCURS THROUGH AN EPIGENETIC REPRESSION OF THE T CELL'S MULTIPOTENT DEVELOPMENTAL POTENTIAL. DELETION OF THE DE NOVO DNA METHYLTRANSFERASE 3 ALPHA (DNMT3A) IN T CELLS EXPRESSING FIRST- OR SECOND-GENERATION CARS UNIVERSALLY PRESERVED THE CELLS' ABILITY TO PROLIFERATE AND MOUNT AN ANTITUMOR RESPONSE DURING PROLONGED TUMOR EXPOSURE. THE INCREASED FUNCTIONALITY OF THE EXHAUSTION-RESISTANT DNMT3A KNOCKOUT CAR T CELLS WAS COUPLED TO AN UP-REGULATION OF INTERLEUKIN-10, AND GENOME-WIDE DNA METHYLATION PROFILING DEFINED AN ATLAS OF GENES TARGETED FOR EPIGENETIC SILENCING. THIS ATLAS PROVIDES A MOLECULAR DEFINITION OF CAR T CELL EXHAUSTION, WHICH INCLUDES MANY TRANSCRIPTIONAL REGULATORS THAT LIMIT THE "STEMNESS" OF IMMUNE CELLS, INCLUDING CD28, CCR7, TCF7, AND LEF1. LAST, WE DEMONSTRATE THAT THIS EPIGENETICALLY REGULATED MULTIPOTENCY PROGRAM IS FIRMLY COUPLED TO THE CLINICAL OUTCOME OF PRIOR CAR T CELL THERAPIES. THESE DATA DOCUMENT THE CRITICAL ROLE EPIGENETIC MECHANISMS PLAY IN LIMITING THE FATE POTENTIAL OF HUMAN T CELLS AND PROVIDE A ROAD MAP FOR LEVERAGING THIS INFORMATION FOR IMPROVING CAR T CELL EFFICACY. 2021 10 1061 40 CLINICAL REMISSION OF SIGHT-THREATENING NON-INFECTIOUS UVEITIS IS CHARACTERIZED BY AN UPREGULATION OF PERIPHERAL T-REGULATORY CELL POLARIZED TOWARDS T-BET AND TIGIT. BACKGROUND: NON-INFECTIOUS UVEITIS CAN CAUSE CHRONIC RELAPSING AND REMITTING OCULAR INFLAMMATION, WHICH MAY REQUIRE HIGH DOSE SYSTEMIC IMMUNOSUPPRESSION TO PREVENT SEVERE SIGHT LOSS. IT HAS BEEN CLASSICALLY DESCRIBED AS AN AUTOIMMUNE DISEASE, MEDIATED BY PRO-INFLAMMATORY TH1 AND TH17 T-CELL SUBSETS. STUDIES SUGGEST THAT NATURAL IMMUNOSUPPRESSIVE CD4(+)CD25(+)FOXP3(+) T-REGULATORY CELLS (TREGS) ARE INVOLVED IN RESOLUTION OF INFLAMMATION AND MAY BE INVOLVED IN THE MAINTENANCE OF CLINICAL REMISSION. OBJECTIVE: TO INVESTIGATE WHETHER THERE IS A PERIPHERAL BLOOD IMMUNOREGULATORY PHENOTYPE ASSOCIATED WITH CLINICAL REMISSION OF SIGHT-THREATENING NON-INFECTIOUS UVEITIS BY COMPARING PERIPHERAL BLOOD LEVELS OF TREG, TH1, AND TH17, AND ASSOCIATED DNA METHYLATION AND CYTOKINE LEVELS IN PATIENTS WITH ACTIVE UVEITIC DISEASE, CONTROL SUBJECTS AND PATIENTS (WITH PREVIOUSLY ACTIVE DISEASE) IN CLINICAL REMISSION INDUCED BY IMMUNOSUPPRESSIVE DRUGS. METHODS: ISOLATED PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) FROM PERIPHERAL BLOOD SAMPLES FROM PROSPECTIVELY RECRUITED SUBJECTS WERE ANALYZED BY FLOW CYTOMETRY FOR CD3, CD4, FOXP3, TIGIT, T-BET, AND RELATED ORPHAN RECEPTOR GAMMAT. EPIGENETIC DNA METHYLATION LEVELS OF FOXP3 TREG-SPECIFIC DEMETHYLATED REGION (TSDR), FOXP3 PROMOTER, TBX21, RORC2, AND TIGIT LOCI WERE DETERMINED IN CRYOPRESERVED PBMC USING A NEXT-GENERATION SEQUENCING APPROACH. RELATED CYTOKINES WERE MEASURED IN BLOOD SERA. FUNCTIONAL SUPPRESSIVE CAPACITY OF TREG WAS ASSESSED USING T-CELL PROLIFERATION ASSAYS. RESULTS: FIFTY PATIENTS WITH UVEITIS (INTERMEDIATE, POSTERIOR, AND PANUVEITIS) AND 10 CONTROL SUBJECTS WERE RECRUITED. THE FREQUENCY OF CD4(+)CD25(+)FOXP3(+) TREG, TIGIT(+) TREG, AND T-BET(+) TREG AND THE RATIO OF TREG TO TH1 WERE SIGNIFICANTLY HIGHER IN REMISSION PATIENTS COMPARED WITH PATIENTS WITH ACTIVE UVEITIC DISEASE; AND TIGIT(+) TREGS WERE A SIGNIFICANT PREDICTOR OF CLINICAL REMISSION. TREG FROM PATIENTS IN CLINICAL REMISSION DEMONSTRATED A HIGH LEVEL OF IN VITRO SUPPRESSIVE FUNCTION COMPARED WITH TREG FROM CONTROL SUBJECTS AND FROM PATIENTS WITH UNTREATED ACTIVE DISEASE. PBMC FROM PATIENTS IN CLINICAL REMISSION HAD SIGNIFICANTLY LOWER METHYLATION LEVELS AT THE FOXP3 TSDR, FOXP3 PROMOTER, AND TIGIT LOCI AND HIGHER LEVELS AT RORC LOCI THAN THOSE WITH ACTIVE DISEASE. CLINICAL REMISSION WAS ALSO ASSOCIATED WITH SIGNIFICANTLY HIGHER SERUM LEVELS OF TRANSFORMING GROWTH FACTOR BETA AND IL-10, WHICH POSITIVELY CORRELATED WITH TREG LEVELS, AND LOWER SERUM LEVELS OF IFNGAMMA, IL-17A, AND IL-22 COMPARED WITH PATIENTS WITH ACTIVE DISEASE. CONCLUSION: CLINICAL REMISSION OF SIGHT-THREATENING NON-INFECTIOUS UVEITIS HAS AN IMMUNOREGULATORY PHENOTYPE CHARACTERIZED BY UPREGULATION OF PERIPHERAL TREG, POLARIZED TOWARD T-BET AND TIGIT. THESE FINDINGS MAY ASSIST WITH INDIVIDUALIZED THERAPY OF UVEITIS, BY INFORMING WHETHER DRUG THERAPY HAS INDUCED PHENOTYPICALLY STABLE TREG ASSOCIATED WITH LONG-TERM CLINICAL REMISSION. 2018 11 2076 31 EPIGENETIC DIFFERENCES OF CHRONIC HEPATITIS B IN DIFFERENT TCM SYNDROMES: PROTOCOL FOR A CASE-CONTROL, NON-INTERVENTIONAL, OBSERVATIONAL CLINICAL STUDY. INTRODUCTION: CHRONIC HEPATITIS B IS A SERIOUS DISEASE CAUSING SERIOUS HARM TO THE HUMAN HEALTH. CHINESE MEDICINE HAS ITS UNIQUE ADVANTAGES IN THE CLINICAL PREVENTION AND TREATMENT, WHILE THE SYNDROME OF CHINESE MEDICINE LACKS THE UNDERSTANDING AT THE MICRO LEVEL. THERE ARE SOME THEORETICAL COMMONALITIES BETWEEN THE EPIGENETICS AND TRADITIONAL CHINESE MEDICINE (TCM) SYNDROMES. THE BIOLOGICAL BASIS OF CHRONIC HEPATITIS B (CHB) SYNDROME DIFFERENTIATION FROM THE PERSPECTIVE OF EPIGENETICS IS OF GREAT SIGNIFICANCE TO DIAGNOSE AND PREVENT THE DISEASES. METHODS: THIS PROTOCOL IS A CASE-CONTROL, NONINTERVENTIONAL, OBSERVATIONAL CLINICAL STUDY. PATIENTS WITH CHB FOR SPLEEN-STOMACH DAMP HEAT AND LIVER DEPRESSION AND SPLEEN DEFICIENCY, WITH 12 EACH AND 11 HEALTHY VOLUNTEERS WERE RECRUITED. PERIPHERAL VENOUS BLOOD WAS COLLECTED FROM THE PARTICIPANTS. DNA METHYLATED TRANSFERASE, GENOMIC DNA METHYLATED SPECTRUM, METHYLATED DNA BINDING PROTEIN MECP2, CHRONIC INFECTION OF HEPATITIS B VIRUS WITH METHYLATED RELATED PROTEINS, AND MIRNA TARGET GENES WERE ANALYZED. OBJECTIVES: FROM THE PERSPECTIVE OF DNA METHYLATION EPIGENETICS, "DNA METHYLATION-MIRNA-TARGET GENE" IS THE MAIN LINE, WHICH FURTHER REVEALS THE ESSENCE OF TCM SYNDROME. TO IMPROVE THE LEVEL OF TCM CLINICAL SYNDROME DIFFERENTIATION AND THE CLINICAL EFFICACY OF TCM, ESPECIALLY IN THE STUDY OF TCM SYNDROMES OF CHB, DISCOVERING ITS UNDERLYING BIOLOGICAL SIGNATURE IS NECESSARY. TRIAL REGISTRATION: CLINICAL TRIALS REGISTRATION: CHICTR1800017365, REGISTERED 26 JULY 2018. 2018 12 2650 33 EPIGENOMIC-GUIDED MASS CYTOMETRY PROFILING REVEALS DISEASE-SPECIFIC FEATURES OF EXHAUSTED CD8 T CELLS. EXHAUSTED CD8 T (TEX) CELLS ARE IMMUNOTHERAPY TARGETS IN CHRONIC INFECTION AND CANCER, BUT A COMPREHENSIVE ASSESSMENT OF TEX CELL DIVERSITY IN HUMAN DISEASE IS LACKING. HERE, WE DEVELOPED A TRANSCRIPTOMIC- AND EPIGENETIC-GUIDED MASS CYTOMETRY APPROACH TO DEFINE CORE EXHAUSTION-SPECIFIC GENES AND DISEASE-INDUCED CHANGES IN TEX CELLS IN HIV AND HUMAN CANCER. SINGLE-CELL PROTEOMIC PROFILING IDENTIFIED 9 DISTINCT TEX CELL CLUSTERS USING PHENOTYPIC, FUNCTIONAL, TRANSCRIPTION FACTOR, AND INHIBITORY RECEPTOR CO-EXPRESSION PATTERNS. AN EXHAUSTION SEVERITY METRIC WAS DEVELOPED AND INTEGRATED WITH HIGH-DIMENSIONAL PHENOTYPES TO DEFINE TEX CELL CLUSTERS THAT WERE PRESENT IN HEALTHY SUBJECTS, COMMON ACROSS CHRONIC INFECTION AND CANCER OR ENRICHED IN EITHER DISEASE, LINKED TO DISEASE SEVERITY, AND CHANGED WITH HIV THERAPY. COMBINATORIAL PATTERNS OF IMMUNOTHERAPY TARGETS ON DIFFERENT TEX CELL CLUSTERS WERE ALSO DEFINED. THIS APPROACH AND ASSOCIATED DATASETS PRESENT A RESOURCE FOR INVESTIGATING HUMAN TEX CELL BIOLOGY, WITH IMPLICATIONS FOR IMMUNE MONITORING AND IMMUNOMODULATION IN CHRONIC INFECTIONS, AUTOIMMUNITY, AND CANCER. 2018 13 590 29 BET BROMODOMAIN PROTEIN INHIBITION REVERSES CHIMERIC ANTIGEN RECEPTOR EXTINCTION AND REINVIGORATES EXHAUSTED T CELLS IN CHRONIC LYMPHOCYTIC LEUKEMIA. CHIMERIC ANTIGEN RECEPTOR (CAR) T CELLS HAVE INDUCED REMARKABLE ANTITUMOR RESPONSES IN B CELL MALIGNANCIES. SOME PATIENTS DO NOT RESPOND BECAUSE OF T CELL DEFICIENCIES THAT HAMPER THE EXPANSION, PERSISTENCE, AND EFFECTOR FUNCTION OF THESE CELLS. WE USED LONGITUDINAL IMMUNE PROFILING TO IDENTIFY PHENOTYPIC AND PHARMACODYNAMIC CHANGES IN CD19-DIRECTED CAR T CELLS IN PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). CAR EXPRESSION MAINTENANCE WAS ALSO INVESTIGATED BECAUSE THIS CAN AFFECT RESPONSE DURABILITY. CAR T CELL FAILURE WAS ACCOMPANIED BY PREEXISTING T CELL-INTRINSIC DEFECTS OR DYSFUNCTION ACQUIRED AFTER INFUSION. IN A SMALL SUBSET OF PATIENTS, CAR SILENCING WAS OBSERVED COINCIDENT WITH LEUKEMIA RELAPSE. USING A SMALL MOLECULE INHIBITOR, WE DEMONSTRATED THAT THE BROMODOMAIN AND EXTRA-TERMINAL (BET) FAMILY OF CHROMATIN ADAPTERS PLAYS A ROLE IN DOWNREGULATING CAR EXPRESSION. BET PROTEIN BLOCKADE ALSO AMELIORATED CAR T CELL EXHAUSTION AS MANIFESTED BY INHIBITORY RECEPTOR REDUCTION, ENHANCED METABOLIC FITNESS, INCREASED PROLIFERATIVE CAPACITY, AND ENRICHED TRANSCRIPTOMIC SIGNATURES OF T CELL REINVIGORATION. BET INHIBITION DECREASED LEVELS OF THE TET2 METHYLCYTOSINE DIOXYGENASE, AND FORCED EXPRESSION OF THE TET2 CATALYTIC DOMAIN ELIMINATED THE POTENCY-ENHANCING EFFECTS OF BET PROTEIN TARGETING IN CAR T CELLS, PROVIDING A MECHANISM LINKING BET PROTEINS AND T CELL DYSFUNCTION. THUS, MODULATING BET EPIGENETIC READERS MAY IMPROVE THE EFFICACY OF CELL-BASED IMMUNOTHERAPIES. 2021 14 5243 36 PROGNOSTIC IMPACT OF EPIGENETIC CLASSIFICATION IN CHRONIC LYMPHOCYTIC LEUKEMIA: THE CASE OF SUBSET #2. BASED ON THE METHYLATION STATUS OF 5 SINGLE CPG SITES, A NOVEL EPIGENETIC CLASSIFICATION OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) WAS RECENTLY PROPOSED, CLASSIFYING CLL PATIENTS INTO 3 CLINICO-BIOLOGICAL SUBGROUPS WITH DIFFERENT OUTCOME, TERMED MEMORY LIKE CLL (M-CLL), NAIVE LIKE CLL (N-CLL), AND A THIRD INTERMEDIATE CLL SUBGROUP (I-CLL). WHILE M-CLL AND N-CLL PATIENTS AT LARGE CORRESPONDED TO PATIENTS CARRYING MUTATED AND UNMUTATED IGHV GENES, RESPECTIVELY, LIMITED INFORMATION EXISTS REGARDING THE LESS DEFINED I-CLL GROUP. USING PYROSEQUENCING, WE INVESTIGATED THE PROGNOSTIC IMPACT OF THE PROPOSED 5 CPG SIGNATURE IN A WELL-CHARACTERIZED CLL COHORT (135 CASES), INCLUDING IGHV-MUTATED AND UNMUTATED PATIENTS AS WELL AS CLINICALLY AGGRESSIVE STEREOTYPED SUBSET #2 PATIENTS. OVERALL, WE CONFIRMED THE SIGNATURE'S ASSOCIATION WITH ESTABLISHED PROGNOSTIC MARKERS. MOREOVER, IN THE PRESENCE OF THE IGHV MUTATIONAL STATUS, THE EPIGENETIC SIGNATURE REMAINED INDEPENDENTLY ASSOCIATED WITH BOTH TIME-TO-FIRST-TREATMENT AND OVERALL SURVIVAL IN MULTIVARIATE ANALYSES. AS A PRIME FINDING, WE OBSERVED THAT SUBSET #2 PATIENTS WERE PREDOMINANTLY CLASSIFIED AS I-CLL, PROBABLY REFLECTING THEIR BORDERLINE IGHV MUTATIONAL STATUS (97-99% GERMLINE IDENTITY), THOUGH HAVING A SIMILARLY POOR PROGNOSIS AS N-CLL PATIENTS. IN SUMMARY, WE VALIDATED THE EPIGENETIC CLASSIFIER AS AN INDEPENDENT FACTOR IN CLL PROGNOSTICATION AND PROVIDE FURTHER EVIDENCE THAT SUBSET #2 IS A MEMBER OF THE I-CLL GROUP, HENCE SUPPORTING THE EXISTENCE OF A THIRD, INTERMEDIATE EPIGENETIC SUBGROUP. 2016 15 6060 30 THE DEVELOPMENT OF CD8 T-CELL EXHAUSTION HETEROGENEITY AND THE THERAPEUTIC POTENTIALS IN CANCER. CD8(+) T CELLS ARE ESSENTIAL LYMPHOCYTES WITH CYTOTOXIC PROPERTIES FOR ANTITUMOR IMMUNOTHERAPY. HOWEVER, DURING CHRONIC INFECTION OR TUMORIGENESIS, THESE CELLS OFTEN BECOME DYSFUNCTIONAL WITH A GRADUALLY DEPLETED ABILITY TO RELEASE CYTOKINES AND THE EXHIBITION OF REDUCED CYTOTOXICITY, THE STATE REFERRED TO AS "T-CELL EXHAUSTION" (TEX). THIS UNIQUE STATE WAS CHARACTERIZED BY THE INCREASING EXPRESSION OF INHIBITORY CHECKPOINT RECEPTORS, AND INTERVENTIONS TARGETING IMMUNE CHECKPOINT BLOCKADES (ICBS) HAVE BEEN CONSIDERED AS A PROMISING STRATEGY TO STIMULATE T-CELL KILLING. RECENT INVESTIGATIONS HAVE DEMONSTRATED THAT EXHAUSTED T CELLS NOT ONLY DISPLAY FUNCTIONAL, METABOLIC, TRANSCRIPTIONAL, AND EPIGENETIC DIFFERENCES BUT ALSO COMPRISE A HETEROGENEOUS GROUP OF CELLS. IN THIS REVIEW, WE SUMMARIZE THE CURRENT FINDINGS ON DYNAMIC DIFFERENTIATION PROCESS DURING TEX HETEROGENEITY DEVELOPMENT IN CANCER AND CHRONIC INFECTION. WE DISCUSS HOW THE RESPONSES TO IMMUNOTHERAPY ARE DETERMINED BY THESE DISTINCT SUBSETS AND HIGHLIGHT PROSPECTIVE APPROACHES FOR IMPROVING THE EFFICACY OF ICB THERAPY FOR CANCER BY LEVERAGING THE HETEROGENEITY OF T CELLS. 2023 16 3616 30 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 17 451 29 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 18 1102 26 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 19 3694 45 INFLAMMATORY COMPONENTS OF THE THYROID CANCER MICROENVIRONMENT: AN AVENUE FOR IDENTIFICATION OF NOVEL BIOMARKERS. THE INCIDENCE OF THYROID CANCER IN THE UNITED STATES IS ON THE RISE WITH AN APPRECIABLY HIGH DISEASE RECURRENCE RATE OF 20-30%. ANAPLASTIC THYROID CANCER (ATC), ALTHOUGH RARE IN OCCURRENCE, IS AN AGGRESSIVE FORM OF CANCER WITH LIMITED TREATMENT OPTIONS AND BLEAK CURE RATES. THIS CHAPTER USES DISCUSSIONS OF IN VITRO MODELS THAT ARE REPRESENTATIVE OF PAPILLARY, ANAPLASTIC, AND FOLLICULAR THYROID CANCER TO EVALUATE THE CROSSTALK BETWEEN SPECIFIC CELLS OF THE TUMOR MICROENVIRONMENT (TME), WHICH SERVES AS A HIGHLY HETEROGENEOUS REALM OF SIGNALING CASCADES AND METABOLISM THAT ARE ASSOCIATED WITH TUMORIGENESIS. THE CELLULAR CONSTITUENTS OF THE TME CARRY OUT VARYING CHARACTERISTIC IMMUNOMODULATORY FUNCTIONS THAT ARE DISCUSSED THROUGHOUT THIS CHAPTER. THE AFOREMENTIONED CELL TYPES INCLUDE CANCER-ASSOCIATED FIBROBLASTS (CAFS), ENDOTHELIAL CELLS (ECS), AND CANCER STEM CELLS (CSCS), AS WELL AS SPECIFIC IMMUNE CELLS, INCLUDING NATURAL KILLER (NK) CELLS, DENDRITIC CELLS (DCS), MAST CELLS, T REGULATORY (TREG) CELLS, CD8+ T CELLS, AND TUMOR-ASSOCIATED MACROPHAGES (TAMS). TAM-MEDIATED INFLAMMATION IS ASSOCIATED WITH A POOR PROGNOSIS OF THYROID CANCER, AND THE MOLECULAR BASIS OF THE CELLULAR CROSSTALK BETWEEN MACROPHAGES AND THYROID CANCER CELLS WITH RESPECT TO INDUCING A METASTATIC PHENOTYPE IS NOT YET KNOWN. THE DYNAMIC NATURE OF THE PHYSIOLOGICAL TRANSITION TO PATHOLOGICAL METASTATIC PHENOTYPES WHEN ESTABLISHING THE TME ENCOMPASSES A WIDE RANGE OF CHARACTERISTICS THAT ARE FURTHER EXPLORED WITHIN THIS CHAPTER, INCLUDING THE ROLES OF SOMATIC MUTATIONS AND EPIGENETIC ALTERATIONS THAT DRIVE THE GENETIC HETEROGENEITY OF CANCER CELLS, ALLOWING FOR SELECTIVE ADVANTAGES THAT AID IN THEIR PROLIFERATION. INDUCTION OF THESE PROLIFERATING CELLS IS TYPICALLY ACCOMPLISHED THROUGH INFLAMMATORY INDUCTION, WHEREBY CHRONIC INFLAMMATION SETS UP A CONSTANT PHYSIOLOGICAL STATE OF INFLAMMATORY CELL RECRUITMENT. THE SECRETIONS OF THESE INFLAMMATORY CELLS CAN ALTER THE GENETIC MAKEUP OF PROLIFERATING CELLS, WHICH CAN IN TURN, PROMOTE TUMOR GROWTH.THIS CHAPTER ALSO PRESENTS AN IN-DEPTH ANALYSIS OF MOLECULAR INTERACTIONS WITHIN THE TME, INCLUDING SECRETORY CYTOKINES AND EXOSOMES. SINCE THE EXOSOMAL CARGO OF A CELL IS A REFLECTION AND FINGERPRINT OF THE ORIGINATING PARENTAL CELLS, THE PROFILING OF EXOSOMAL MIRNA DERIVED FROM THYROID CANCER CELLS AND MACROPHAGES IN THE TME MAY SERVE AS AN IMPORTANT STEP IN BIOMARKER DISCOVERY. IDENTIFICATION OF A DISTINCT SET OF TUMOR SUPPRESSIVE MIRNAS DOWNREGULATED IN ATC-SECRETED EXOSOMES INDICATES THEIR ROLE IN THE REGULATION OF TUMOR SUPPRESSIVE GENES THAT MAY INCREASE THE METASTATIC PROPENSITY OF ATC. ADDITIONALLY, THE HIGH EXPRESSION OF PRO-INFLAMMATORY CYTOKINES IN STUDIES LOOKING AT THYROID CANCER AND ACTIVATED MACROPHAGE CONDITIONED MEDIA SUGGESTS THE EXISTENCE OF AN INFLAMMATORY TME IN THYROID CANCER. NEW FINDINGS ARE SUGGESTIVE OF THE PRESENCE OF A METASTATIC NICHE IN ATC TISSUES THAT IS INFLUENCED BY THYROID TUMOR MICROENVIRONMENT SECRETOME-INDUCED EPITHELIAL TO MESENCHYMAL TRANSITION (EMT), MEDIATED BY A RECIPROCAL INTERACTION BETWEEN THE PRO-INFLAMMATORY M1 MACROPHAGES AND THE THYROID CANCER CELLS. THUS, TARGETING THE METASTATIC THYROID CARCINOMA MICROENVIRONMENT COULD OFFER POTENTIAL THERAPEUTIC BENEFITS AND SHOULD BE EXPLORED FURTHER IN PRECLINICAL AND TRANSLATIONAL MODELS OF HUMAN METASTATIC THYROID CANCER. 2021 20 5606 42 RPPA-BASED PROTEOMICS RECOGNIZES DISTINCT EPIGENETIC SIGNATURES IN CHRONIC LYMPHOCYTIC LEUKEMIA WITH CLINICAL CONSEQUENCES. THE CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) ARMAMENTARIUM HAS EVOLVED SIGNIFICANTLY, WITH NOVEL THERAPIES THAT INHIBIT BRUTON TYROSINE KINASE, PI3K DELTA AND/OR THE BCL2 PROTEIN IMPROVING OUTCOMES. STILL, THE CLINICAL COURSE OF CLL PATIENTS IS HIGHLY VARIABLE AND MOST PREVIOUSLY RECOGNIZED PROGNOSTIC FEATURES LACK THE CAPACITY TO PREDICT RESPONSE TO MODERN TREATMENTS INDICATING THE NEED FOR NEW PROGNOSTIC MARKERS. IN THIS STUDY, WE IDENTIFIED FOUR EPIGENETICALLY DISTINCT PROTEOMIC SIGNATURES OF A LARGE COHORT OF CLL AND RELATED DISEASES DERIVED SAMPLES (N = 871) USING REVERSE PHASE PROTEIN ARRAY TECHNOLOGY. THESE SIGNATURES ARE ASSOCIATED WITH CLINICAL FEATURES INCLUDING AGE, CYTOGENETIC ABNORMALITIES [TRISOMY 12, DEL(13Q) AND DEL(17P)], IMMUNOGLOBULIN HEAVY-CHAIN LOCUS (IGHV) MUTATIONAL LOAD, ZAP-70 STATUS, BINET AND RAI STAGING AS WELL AS WITH THE OUTCOME MEASURES OF TIME TO TREATMENT AND OVERALL SURVIVAL. PROTEIN SIGNATURE MEMBERSHIP WAS IDENTIFIED AS PREDICTIVE MARKER FOR OVERALL SURVIVAL REGARDLESS OF OTHER CLINICAL FEATURES. AMONG THE ANALYZED EPIGENETIC PROTEINS, EZH2, HDAC6, AND LOSS OF H3K27ME3 LEVELS WERE THE MOST INDEPENDENTLY ASSOCIATED WITH POOR SURVIVAL. THESE FINDINGS DEMONSTRATE THAT PROTEOMIC BASED EPIGENETIC BIOMARKERS CAN BE USED TO BETTER CLASSIFY CLL PATIENTS AND PROVIDE THERAPEUTIC GUIDANCE. 2022