1 6757 173 WNT SIGNALING IN LIVER FIBROSIS: PROGRESS, CHALLENGES AND POTENTIAL DIRECTIONS. LIVER FIBROSIS IS A COMMON WOUND-HEALING RESPONSE TO CHRONIC LIVER INJURIES, INCLUDING ALCOHOLIC OR DRUG TOXICITY, PERSISTENT VIRAL INFECTION, AND GENETIC FACTORS. MYOFIBROBLASTIC TRANSDIFFERENTIATION (MTD) IS THE PIVOTAL EVENT DURING LIVER FIBROGENESIS, AND RESEARCH IN THE PAST FEW YEARS HAS IDENTIFIED KEY MEDIATORS AND MOLECULAR MECHANISMS RESPONSIBLE FOR MTD OF HEPATIC STELLATE CELLS (HSCS). HSCS ARE UNDIFFERENTIATED CELLS WHICH PLAY AN IMPORTANT ROLE IN LIVER REGENERATION. RECENT EVIDENCE DEMONSTRATES THAT HSCS DERIVE FROM MESODERM AND AT LEAST IN PART VIA SEPTUM TRANSVERSUM AND MESOTHELIUM, AND HSCS EXPRESS MARKERS FOR DIFFERENT CELL TYPES WHICH DERIVE FROM MULTIPOTENT MESENCHYMAL PROGENITORS. THERE IS A REGULATORY COMMONALITY BETWEEN DIFFERENTIATION OF ADIPOCYTES AND THAT OF HSC, AND THE SHIFT FROM ADIPOGENIC TO MYOGENIC OR NEURONAL PHENOTYPE CHARACTERIZES HSC MTD. CENTRAL OF THIS SHIFT IS A LOSS OF EXPRESSION OF THE MASTER ADIPOGENIC REGULATOR PEROXISOME PROLIFERATOR ACTIVATED RECEPTOR GAMMA (PPARGAMMA). RESTORED EXPRESSION OF PPARGAMMA AND/OR OTHER ADIPOGENIC TRANSCRIPTION GENES CAN REVERSE MYOFIBROBLASTIC HSCS TO DIFFERENTIATED CELLS. VERTEBRATE WNT AND DROSOPHILA WINGLESS ARE HOMOLOGOUS GENES, AND THEIR TRANSLATED PROTEINS HAVE BEEN SHOWN TO PARTICIPATE IN THE REGULATION OF CELL PROLIFERATION, CELL POLARITY, CELL DIFFERENTIATION, AND OTHER BIOLOGICAL ROLES. MORE RECENTLY, WNT SIGNALING IS IMPLICATED IN HUMAN FIBROSING DISEASES, SUCH AS PULMONARY FIBROSIS, RENAL FIBROSIS, AND LIVER FIBROSIS. BLOCKING THE CANONICAL WNT SIGNAL PATHWAY WITH THE CO-RECEPTOR ANTAGONIST DICKKOPF-1 (DKK1) ABROGATES THESE EPIGENETIC REPRESSIONS AND RESTORES THE GENE PPARGAMMA EXPRESSION AND HSC DIFFERENTIATION. THE IDENTIFIED MORPHOGEN MEDIATED EPIGENETIC REGULATION OF PPARGAMMA AND HSC DIFFERENTIATION ALSO SERVES AS NOVEL THERAPEUTIC TARGETS FOR LIVER FIBROSIS AND LIVER REGENERATION. IN CONCLUSION, THE WNT SIGNALING PROMOTES LIVER FIBROSIS BY ENHANCING HSC ACTIVATION AND SURVIVAL, AND WE HEREIN DISCUSS WHAT WE CURRENTLY KNOW AND WHAT WE EXPECT WILL COME IN THIS FIELD IN THE NEXT FUTURE. 2013 2 1306 48 DEFINING 'T CELL EXHAUSTION'. 'T CELL EXHAUSTION' IS A BROAD TERM THAT HAS BEEN USED TO DESCRIBE THE RESPONSE OF T CELLS TO CHRONIC ANTIGEN STIMULATION, FIRST IN THE SETTING OF CHRONIC VIRAL INFECTION BUT MORE RECENTLY IN RESPONSE TO TUMOURS. UNDERSTANDING THE FEATURES OF AND PATHWAYS TO EXHAUSTION HAS CRUCIAL IMPLICATIONS FOR THE SUCCESS OF CHECKPOINT BLOCKADE AND ADOPTIVE T CELL TRANSFER THERAPIES. IN THIS VIEWPOINT ARTICLE, 18 EXPERTS IN THE FIELD TELL US WHAT EXHAUSTION MEANS TO THEM, RANGING FROM COMPLETE LACK OF EFFECTOR FUNCTION TO ALTERED FUNCTIONALITY TO PREVENT IMMUNOPATHOLOGY, WITH POTENTIAL DIFFERENCES BETWEEN CANCER AND CHRONIC INFECTION. THEIR RESPONSES HIGHLIGHT THE DICHOTOMY BETWEEN TERMINALLY DIFFERENTIATED EXHAUSTED T CELLS THAT ARE TCF1(-) AND THE SELF-RENEWING TCF1(+) POPULATION FROM WHICH THEY DERIVE. THESE TCF1(+) CELLS ARE CONSIDERED BY SOME TO HAVE STEM CELL-LIKE PROPERTIES AKIN TO MEMORY T CELL POPULATIONS, BUT THE DEVELOPMENTAL RELATIONSHIPS ARE UNCLEAR AT PRESENT. RECENT STUDIES HAVE ALSO HIGHLIGHTED AN IMPORTANT ROLE FOR THE TRANSCRIPTIONAL REGULATOR TOX IN DRIVING THE EPIGENETIC ENFORCEMENT OF EXHAUSTION, BUT KEY QUESTIONS REMAIN ABOUT THE POTENTIAL TO REVERSE THE EPIGENETIC PROGRAMME OF EXHAUSTION AND HOW THIS MIGHT AFFECT THE PERSISTENCE OF T CELL POPULATIONS. 2019 3 5966 26 TERMINAL ADDITION IN A CELLULAR WORLD. RECENT ADVANCES IN OUR UNDERSTANDING OF EVOLUTIONARY DEVELOPMENT PERMIT A REFRAMED APPRAISAL OF TERMINAL ADDITION AS A CONTINUOUS HISTORICAL PROCESS OF CELLULAR-ENVIRONMENTAL COMPLEMENTARITY. WITHIN THIS FRAME OF REFERENCE, EVOLUTIONARY TERMINAL ADDITIONS CAN BE IDENTIFIED AS ENVIRONMENTAL INDUCTION OF EPISODIC ADJUSTMENTS TO CELL-CELL SIGNALING PATTERNS THAT YIELD THE CELLULAR-MOLECULAR PATHWAYS THAT LEAD TO DIFFERING DEVELOPMENTAL FORMS. PHENOTYPES DERIVE, THEREBY, THROUGH CELLULAR MUTUALISTIC/COMPETITIVE NICHE CONSTRUCTIONS IN RECIPROCATING RESPONSIVENESS TO ENVIRONMENTAL STRESSES AND EPIGENETIC IMPACTS. IN SUCH TERMS, TERMINAL ADDITION FLOWS ACCORDING TO A LOGIC OF CELLULAR NEEDS CONFRONTING ENVIRONMENTAL CHALLENGES OVER SPACE-TIME. A RECONCILIATION OF EVOLUTIONARY DEVELOPMENT AND TERMINAL ADDITION CAN BE ACHIEVED THROUGH A COMBINED FOCUS ON CELL-CELL SIGNALING, MOLECULAR PHYLOGENIES AND A BROADER UNDERSTANDING OF EPIGENETIC PHENOMENA AMONG EUKARYOTIC ORGANISMS. WHEN UNDERSTOOD IN THIS MANNER, TERMINAL ADDITION HAS AN IMPORTANT ROLE IN EVOLUTIONARY DEVELOPMENT, AND CHRONIC DISEASE MIGHT BE CONSIDERED AS A FORM OF 'REVERSE EVOLUTION' OF THE SELF-SAME PROCESSES. 2018 4 1533 31 DNA METHYLATION DYNAMICS DURING B CELL MATURATION UNDERLIE A CONTINUUM OF DISEASE PHENOTYPES IN CHRONIC LYMPHOCYTIC LEUKEMIA. CHARTING DIFFERENCES BETWEEN TUMORS AND NORMAL TISSUE IS A MAINSTAY OF CANCER RESEARCH. HOWEVER, CLONAL TUMOR EXPANSION FROM COMPLEX NORMAL TISSUE ARCHITECTURES POTENTIALLY OBSCURES CANCER-SPECIFIC EVENTS, INCLUDING DIVERGENT EPIGENETIC PATTERNS. USING WHOLE-GENOME BISULFITE SEQUENCING OF NORMAL B CELL SUBSETS, WE OBSERVED BROAD EPIGENETIC PROGRAMMING OF SELECTIVE TRANSCRIPTION FACTOR BINDING SITES COINCIDENT WITH THE DEGREE OF B CELL MATURATION. BY COMPARING NORMAL B CELLS TO MALIGNANT B CELLS FROM 268 PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA (CLL), WE SHOWED THAT TUMORS DERIVE LARGELY FROM A CONTINUUM OF MATURATION STATES REFLECTED IN NORMAL DEVELOPMENTAL STAGES. EPIGENETIC MATURATION IN CLL WAS ASSOCIATED WITH AN INDOLENT GENE EXPRESSION PATTERN AND INCREASINGLY FAVORABLE CLINICAL OUTCOMES. WE FURTHER UNCOVERED THAT MOST PREVIOUSLY REPORTED TUMOR-SPECIFIC METHYLATION EVENTS ARE NORMALLY PRESENT IN NON-MALIGNANT B CELLS. INSTEAD, WE IDENTIFIED A POTENTIAL PATHOGENIC ROLE FOR TRANSCRIPTION FACTOR DYSREGULATION IN CLL, WHERE EXCESS PROGRAMMING BY EGR AND NFAT WITH REDUCED EBF AND AP-1 PROGRAMMING IMBALANCES THE NORMAL B CELL EPIGENETIC PROGRAM. 2016 5 1283 36 DECIPHERING THE EPIGENETIC CODE OF T LYMPHOCYTES. THE MULTIPLE LINEAGES AND DIFFERENTIATION STATES THAT CONSTITUTE THE T-CELL COMPARTMENT ALL DERIVE FROM A COMMON THYMIC PRECURSOR. THESE DISTINCT TRANSCRIPTIONAL STATES ARE MAINTAINED BOTH IN TIME AND AFTER MULTIPLE ROUNDS OF CELL DIVISION BY THE CONCERTED ACTIONS OF A SMALL SET OF LINEAGE-DEFINING TRANSCRIPTION FACTORS THAT ACT IN CONJUNCTION WITH A SUITE OF CHROMATIN-MODIFYING ENZYMES TO ACTIVATE, REPRESS, AND FINE-TUNE GENE EXPRESSION. THESE CHROMATIN MODIFICATIONS COLLECTIVELY PROVIDE AN EPIGENETIC CODE THAT ALLOWS THE STABLE AND HERITABLE MAINTENANCE OF THE T-CELL PHENOTYPE. RECENTLY, IT HAS BECOME APPARENT THAT THE EPIGENETIC CODE REPRESENTS A THERAPEUTIC TARGET FOR A VARIETY OF IMMUNE CELL DISORDERS, INCLUDING LYMPHOMA AND ACUTE AND CHRONIC INFLAMMATORY DISEASES. HERE, WE REVIEW THE RECENT ADVANCES IN EPIGENETIC REGULATION OF GENE EXPRESSION, PARTICULARLY AS IT RELATES TO THE T-CELL DIFFERENTIATION AND FUNCTION. 2014 6 940 33 CHRONIC LYMPHOCYTIC LEUKEMIA AND MANTLE CELL LYMPHOMA: CROSSROADS OF GENETIC AND MICROENVIRONMENT INTERACTIONS. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND MANTLE CELL LYMPHOMA (MCL) ARE 2 WELL-DEFINED ENTITIES THAT DIVERGE IN THEIR BASIC PATHOGENIC MECHANISMS AND CLINICAL EVOLUTION BUT THEY SHARE EPIDEMIOLOGICAL CHARACTERISTICS, CELLS OF ORIGIN, MOLECULAR ALTERATIONS, AND CLINICAL FEATURES THAT DIFFER FROM OTHER LYMPHOID NEOPLASMS. CLL AND MCL ARE CLASSICALLY CONSIDERED INDOLENT AND AGGRESSIVE NEOPLASMS, RESPECTIVELY. HOWEVER, THE CLINICAL EVOLUTION OF BOTH TUMORS IS VERY HETEROGENEOUS, WITH SUBSETS OF PATIENTS HAVING STABLE DISEASE FOR A LONG TIME WHEREAS OTHERS REQUIRE IMMEDIATE INTERVENTION. BOTH CLL AND MCL INCLUDE 2 MAJOR MOLECULAR SUBTYPES THAT SEEM TO DERIVE FROM ANTIGEN-EXPERIENCED CD5(+) B CELLS THAT RETAIN A NAIVE OR MEMORY-LIKE EPIGENETIC SIGNATURE AND CARRY A VARIABLE LOAD OF IMMUNOGLOBULIN HEAVY-CHAIN VARIABLE REGION SOMATIC MUTATIONS FROM TRULY UNMUTATED TO HIGHLY MUTATED, RESPECTIVELY. THESE 2 SUBTYPES OF TUMORS DIFFER IN THEIR MOLECULAR PATHWAYS, GENOMIC ALTERATIONS, AND CLINICAL BEHAVIOR, BEING MORE AGGRESSIVE IN NAIVE-LIKE THAN MEMORY-LIKE-DERIVED TUMORS IN BOTH CLL AND MCL. THE PATHOGENESIS OF THE 2 ENTITIES INTEGRATES THE RELEVANT INFLUENCE OF B-CELL RECEPTOR SIGNALING, TUMOR CELL MICROENVIRONMENT INTERACTIONS, GENOMIC ALTERATIONS, AND EPIGENOME MODIFICATIONS THAT CONFIGURE THE EVOLUTION OF THE TUMORS AND OFFER NEW POSSIBILITIES FOR THERAPEUTIC INTERVENTION. THIS REVIEW WILL FOCUS ON THE SIMILARITIES AND DIFFERENCES OF THESE 2 TUMORS BASED ON RECENT STUDIES THAT ARE ENHANCING THE UNDERSTANDING OF THEIR PATHOGENESIS AND CREATING SOLID BASES FOR NEW MANAGEMENT STRATEGIES. 2018 7 373 42 AN EMERGING ROLE OF NEUTROPHILS AND NETOSIS IN CHRONIC INFLAMMATION AND FIBROSIS IN SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND ANCA-ASSOCIATED VASCULITIDES (AAV): IMPLICATIONS FOR THE PATHOGENESIS AND TREATMENT. NEUTROPHILS DERIVE FROM HEMATOPOIETIC STEM CELLS (HSCS) WITH SYSTEMIC INFLAMMATION DRIVING THEIR ACTIVATION AND DIFFERENTIATION TO MYELOID PROGENITORS TO ENSURE ENHANCED MYELOPOIESIS. EPIGENETIC REPROGRAMING AND RE-EDUCATION OF THESE HSCS PRODUCES NEUTROPHILS PRIMED TOWARDS ELIMINATION OF PATHOGENS AND INCREASED INFLAMMATORY RESPONSE. NEUTROPHILS -AN IMPORTANT COMPONENT OF ACUTE INFLAMMATION- ARE NOT PRESENT IN CHRONIC INFLAMMATORY TISSUES LEADING TO THE FALSE ASSUMPTION THAT THEY MAY NOT BE AS IMPORTANT FOR THE LATTER. ACTIVATED NEUTROPHILS MAY RELEASE NEUTROPHIL EXTRACELLULAR TRAPS (NETS) DURING A DISTINCT FORM OF CELL DEATH, NAMED NETOSIS; NETS ARE RICH IN BIOACTIVE MOLECULES THAT PROMOTE THROMBOSIS (INCLUDING ATHEROTHROMBOSIS), INFLAMMATION AND FIBROSIS. THUS, ALTHOUGH NEUTROPHILS MAY NOT BE PRESENT IN CHRONIC INFLAMMATORY LESIONS, THEIR REMNANTS MAY AMPLIFY THE INFLAMMATORY RESPONSE BEYOND THEIR SHORT LIFE-SPAN IN THE TISSUES. HEREIN, WE REVIEW CURRENT EVIDENCE SUPPORTING A ROLE OF NEUTROPHILS AND NETOSIS IN TISSUE INJURY AND DYSFUNCTION IN SYSTEMIC AUTOIMMUNITY USING AS DISEASE PARADIGMS SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND THE ANCA-ASSOCIATED VASCULITIDES (AAV). WE ALSO DISCUSS THE MECHANISMS INVOLVED AND THEIR POTENTIAL AS TARGETS FOR NOVEL THERAPY AND DRUG REPOSITIONING. 2019 8 1759 30 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 9 6014 23 THE ARCHITECTURAL DESIGN OF CD8+ T CELL RESPONSES IN ACUTE AND CHRONIC INFECTION: PARALLEL STRUCTURES WITH DIVERGENT FATES. IN RESPONSE TO INFECTION, T CELLS ADOPT A RANGE OF DIFFERENTIATION STATES, CREATING NUMEROUS HETEROGENEOUS SUBSETS THAT EXHIBIT DIFFERENT PHENOTYPES, FUNCTIONS, AND MIGRATION PATTERNS. THIS T CELL HETEROGENEITY IS A UNIVERSAL FEATURE OF T CELL IMMUNITY, NEEDED TO EFFECTIVELY CONTROL PATHOGENS IN A CONTEXT-DEPENDENT MANNER AND GENERATE LONG-LIVED IMMUNITY TO THOSE PATHOGENS. HERE, WE REVIEW NEW INSIGHTS INTO DIFFERENTIATION STATE DYNAMICS AND POPULATION HETEROGENEITY OF CD8+ T CELLS IN ACUTE AND CHRONIC VIRAL INFECTIONS AND CANCER AND HIGHLIGHT THE PARALLELS AND DISTINCTIONS BETWEEN ACUTE AND CHRONIC ANTIGEN STIMULATION SETTINGS. WE FOCUS ON TRANSCRIPTIONAL AND EPIGENETIC NETWORKS THAT MODULATE THE PLASTICITY AND TERMINAL DIFFERENTIATION OF ANTIGEN-SPECIFIC CD8+ T CELLS AND GENERATE FUNCTIONALLY DIVERSE T CELL SUBSETS WITH DIFFERENT ROLES TO COMBAT INFECTION AND CANCER. 2021 10 731 42 CANCER CHEMOPREVENTION: CLASSIC AND EPIGENETIC MECHANISMS INHIBITING TUMORIGENESIS. WHAT HAVE WE LEARNED SO FAR? CANCERS DERIVE FROM STEP BY STEP PROCESSES WHICH ARE DIFFERENTIATED BY THE PROGRESSIVELY ACCUMULATED MUTATIONS. FOR SOME TUMORS THERE IS A CLEAR PROGRESSIVE ADVANCEMENT FROM BENIGN LESIONS TO MALIGNANCY AND FOR THESE, PREVENTIVE SCREENING PROGRAMS EXIST. IN SUCH CASES HAVING THOSE BENIGN LESIONS ARE A CLEAR INDICATOR OF PREDISPOSITION WHILE FOR SOME OTHER CASES, FAMILIAL PATTERNS OF CANCER INCIDENCE AND THE IDENTIFICATION OF MUTATIONS ARE THE MAIN INDICATORS OF HIGHER RISK FOR HAVING THE DISEASE. FOR PATIENTS IDENTIFIED AS HAVING PREDISPOSITION, CHEMOPREVENTION IS A GOAL AND IN SOME CASES A POSSIBILITY. CHEMOPREVENTION IS THE USE OF ANY COMPOUND, EITHER NATURAL OR SYNTHETIC THAT ABROGATES CARCINOGENESIS OR TUMOR PROGRESSION, THROUGH DIFFERENT MECHANISMS, SOME OF WHICH HAVE ALREADY BEEN DESCRIBED. FOR EXAMPLE, THE CLASSIC MECHANISMS MAY INVOLVE ACTIVATION OF FREE RADICAL SCAVENGING ENZYMES, CONTROL OF CHRONIC INFLAMMATION, AND DOWNREGULATION OF SPECIFIC SIGNALING PATHWAYS. MORE RECENTLY, EPIGENETICS ALLOWED FURTHER UNDERSTANDING OF THE CHEMOPREVENTIVE POTENTIAL OF SEVERAL AGENTS, SUCH AS SULFORAPHANE, GREEN TEA DERIVED COMPOUNDS, RESVERATROL, ISOFLAVONES, AND OTHERS WHICH WE EXPLOIT IN THIS REVIEW ARTICLE. THROUGHOUT THE TEXT WE DISCUSS THE PROPERTIES COMPOUNDS SHOULD HAVE IN ORDER TO BE CLASSIFIED AS CHEMOPREVENTIVE ONES AND THE CHALLENGES IN TRANSLATIONAL RESEARCH IN THIS AREA, AS LOTS OF THE SUCCESS ACHIEVED IN VITRO CANNOT BE TRANSLATED INTO THE CLINICAL SETTINGS, DUE TO SEVERAL DIFFERENT DRAWBACKS, WHICH INCLUDE TOXICITY, COST, DOSE DEFINITION, PATIENT ADHERENCE, AND REGIMEN OF USE. 2018 11 5404 42 REGENERATIVE INTESTINAL STEM CELLS INDUCED BY ACUTE AND CHRONIC INJURY: THE SAVING GRACE OF THE EPITHELIUM? THE INTESTINAL EPITHELIUM IS REPLENISHED EVERY 3-4 DAYS THROUGH AN ORDERLY PROCESS THAT MAINTAINS IMPORTANT SECRETORY AND ABSORPTIVE FUNCTIONS WHILE PRESERVING A CONTINUOUS MUCOSAL BARRIER. INTESTINAL EPITHELIAL CELLS (IECS) DERIVE FROM A STABLE POPULATION OF INTESTINAL STEM CELLS (ISCS) THAT RESIDE IN THE BASAL CRYPTS. WHEN INTESTINAL INJURY REACHES THE CRYPTS AND DAMAGES IECS, A MECHANISM TO REPLACE THEM IS NEEDED. RECENT RESEARCH HAS HIGHLIGHTED THE EXISTENCE OF DISTINCT POPULATIONS OF ACUTE AND CHRONIC DAMAGE-ASSOCIATED ISCS AND THEIR ROLES IN MAINTAINING HOMEOSTASIS IN SEVERAL INTESTINAL PERTURBATION MODELS. WHAT REMAINS UNKNOWN IS HOW THE DAMAGE-ASSOCIATED REGENERATIVE ISC POPULATION FUNCTIONS IN THE SETTING OF CHRONIC INFLAMMATION, AS OPPOSED TO ACUTE INJURY. WHAT LONG-TERM CONSEQUENCES RESULT FROM PERSISTENT INFLAMMATION AND OTHER CELLULAR INSULTS TO THE ISC NICHE? WHAT PARTICULAR "REGENERATIVE" CELL TYPES PROVIDE THE MOST EFFICACIOUS RESTORATIVE PROPERTIES? WHICH DIFFERENTIATED IECS MAINTAIN THE ABILITY TO DE-DIFFERENTIATE AND RESTORE THE ISC NICHE? THIS REVIEW WILL COVER THE LATEST RESEARCH ON DAMAGE-ASSOCIATED REGENERATIVE ISCS AND EPIGENETIC FACTORS THAT DETERMINE ISC FATE, AS WELL AS PROVIDE OPINIONS ON FUTURE STUDIES THAT NEED TO BE UNDERTAKEN TO UNDERSTAND THE REPERCUSSIONS OF THE EMERGENCE OF THESE CELLS, THEIR CONTRIBUTION TO RELAPSES IN INFLAMMATORY BOWEL DISEASE, AND THEIR POTENTIAL USE IN THERAPEUTICS FOR CHRONIC INTESTINAL DISEASES. 2020 12 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 13 1930 31 ENVIRONMENTAL EXPOSURES AROUND CONCEPTION: DEVELOPMENTAL PATHWAYS LEADING TO LIFETIME DISEASE RISK. ENVIRONMENT AROUND CONCEPTION CAN INFLUENCE THE DEVELOPMENTAL PROGRAMME WITH LASTING EFFECTS ON GESTATIONAL AND POSTNATAL PHENOTYPE AND WITH CONSEQUENCES FOR ADULT HEALTH AND DISEASE RISK. PERI-CONCEPTION EXPOSURE COMPRISES A CRUCIAL PART OF THE 'DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE' (DOHAD) CONCEPT. IN THIS REVIEW, WE CONSIDER THE EFFECTS OF MATERNAL UNDERNUTRITION EXPERIENCED DURING THE PERI-CONCEPTION PERIOD IN SELECT HUMAN MODELS AND IN A MOUSE EXPERIMENTAL MODEL OF PROTEIN RESTRICTION. HUMAN DATASETS INDICATE THAT MACRONUTRIENT DEPRIVATION AROUND CONCEPTION AFFECT THE EPIGENOME, WITH ENDURING EFFECTS ON CARDIOMETABOLIC AND NEUROLOGICAL HEALTH. THE MOUSE MODEL, COMPRISING MATERNAL LOW PROTEIN DIET EXCLUSIVELY DURING THE PERI-CONCEPTION PERIOD, HAS REVEALED A STEPWISE PROGRESSION IN ALTERED DEVELOPMENTAL PROGRAMMING FOLLOWING INDUCTION THROUGH MATERNAL METABOLITE DEFICIENCY. THIS PROGRESSION INCLUDES DIFFERENTIAL EFFECTS IN EXTRA-EMBRYONIC AND EMBRYONIC CELL LINEAGES AND TISSUES, LEADING TO MALADAPTATION IN THE GROWTH TRAJECTORY AND INCREASED CHRONIC DISEASE COMORBIDITIES. THE TIMELINE EMBRACES AN ARRAY OF MECHANISMS ACROSS NUTRIENT SENSING AND SIGNALLING, CELLULAR, METABOLIC, EPIGENETIC AND PHYSIOLOGICAL PROCESSES WITH A COORDINATING ROLE FOR MTORC1 SIGNALLING PROPOSED. EARLY EMBRYOS APPEAR ACTIVE PARTICIPANTS IN ENVIRONMENTAL SENSING TO OPTIMISE THE DEVELOPMENTAL PROGRAMME FOR SURVIVAL BUT WITH THE TRADE-OFF OF LATER DISEASE. SIMILAR ADVERSE HEALTH OUTCOMES MAY DERIVE FROM OTHER PERI-CONCEPTION ENVIRONMENTAL EXPERIENCES, INCLUDING MATERNAL OVERNUTRITION, MICRONUTRIENT AVAILABILITY, POLLUTANT EXPOSURE AND ASSISTED REPRODUCTIVE TREATMENTS (ART) AND SUPPORT THE NEED FOR PRECONCEPTION HEALTH BEFORE PREGNANCY. 2021 14 2879 42 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 15 4340 30 MIGRATION OF STEM-LIKE CD8 T CELLS BETWEEN TISSUE MICROENVIRONMENTS UNDERPINS SUCCESSFUL ANTI-TUMOUR IMMUNE RESPONSES. THE CLINICAL SUCCESS OF IMMUNE CHECKPOINT BLOCKADE IN SOME PATIENTS HAS TRANSFORMED TREATMENT APPROACHES IN CANCER AND OFFERS THE HOPE OF DURABLE CURATIVE RESPONSES. BUILDING FROM STUDIES OF CHRONIC INFECTION, THE COMPOSITION OF TUMOUR INFILTRATING LYMPHOCYTES AND IN PARTICULAR, THE SPECTRUM OF EXHAUSTED CD8 T CELLS HAS NOW BEEN CHARACTERIZED IN DETAIL, PROFILING THE PHENOTYPE, FUNCTION, TRANSCRIPTIONAL REGULATION AND EVEN THE EPIGENETIC CHANGES. HOWEVER, WHAT REMAINS LESS CLEAR IS HOW INTRATUMOURAL IMMUNE CELLS INTERFACE WITH POPULATIONS IN THE PERIPHERY, BOTH IN TERMS OF SUSTAINING THE RESPONSE IN CANCER, BUT ALSO IN ESTABLISHING SYSTEMIC MEMORY RESPONSES THAT CAN PROVIDE LONG-TERM PROTECTION. HERE WE WILL SUCCINCTLY REVIEW THE CURRENT UNDERSTANDING OF THE ANTI-TUMOUR RESPONSE, CONSIDER THE TISSUE MICROENVIRONMENTS THAT SUPPORT KEY CELLULAR SUBSETS AND THE EXTENT TO WHICH CELLULAR MIGRATION BETWEEN THESE SITES IMPACTS THE RESPONSE. 2023 16 3694 51 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 17 5798 43 STEM CELLS AND LUNG REGENERATION. THE ABILITY TO REPLACE DEFECTIVE CELLS IN AN AIRWAY WITH CELLS THAT CAN ENGRAFT, INTEGRATE, AND RESTORE A FUNCTIONAL EPITHELIUM COULD POTENTIALLY CURE A NUMBER OF LUNG DISEASES. PROGRESS TOWARD THE DEVELOPMENT OF STRATEGIES TO REGENERATE THE ADULT LUNG BY EITHER IN VIVO OR EX VIVO TARGETING OF ENDOGENOUS STEM CELLS OR PLURIPOTENT STEM CELL DERIVATIVES IS LIMITED BY OUR FUNDAMENTAL LACK OF UNDERSTANDING OF THE MECHANISMS CONTROLLING HUMAN LUNG DEVELOPMENT, THE PRECISE IDENTITY AND FUNCTION OF HUMAN LUNG STEM AND PROGENITOR CELL TYPES, AND THE GENETIC AND EPIGENETIC CONTROL OF HUMAN LUNG FATE. IN THIS REVIEW, WE INTEND TO DISCUSS THE KNOWN STEM/PROGENITOR CELL POPULATIONS, THEIR RELATIVE DIFFERENCES BETWEEN RODENTS AND HUMANS, THEIR ROLES IN CHRONIC LUNG DISEASE, AND THEIR THERAPEUTIC PROSPECTS. ADDITIONALLY, WE HIGHLIGHT THE RECENT BREAKTHROUGHS THAT HAVE INCREASED OUR UNDERSTANDING OF THESE CELL TYPES. THESE ADVANCEMENTS INCLUDE NOVEL LINEAGE-TRACED ANIMAL MODELS AND SINGLE-CELL RNA SEQUENCING OF HUMAN AIRWAY CELLS, WHICH HAVE PROVIDED CRITICAL INFORMATION ON THE STEM CELL SUBTYPES, TRANSITION STATES, IDENTIFYING CELL MARKERS, AND INTRICATE PATHWAYS THAT COMMIT A STEM CELL TO DIFFERENTIATE OR TO MAINTAIN PLASTICITY. AS OUR CAPACITY TO MODEL THE HUMAN LUNG EVOLVES, SO WILL OUR UNDERSTANDING OF LUNG REGENERATION AND OUR ABILITY TO TARGET ENDOGENOUS STEM CELLS AS A THERAPEUTIC APPROACH FOR LUNG DISEASE. 2020 18 1464 40 DISSECTING THE HETEROGENEITY OF EXHAUSTED T CELLS AT THE MOLECULAR LEVEL. OUR UNDERSTANDING OF MECHANISMS UNDERLYING T-CELL EXHAUSTION HAS BEEN REFINED BY ANALYSIS OF EXHAUSTED T CELLS AT THE MOLECULAR LEVEL. THE DEVELOPMENT AND FUNCTIONS OF EXHAUSTED T CELLS ARE REGULATED BY A NUMBER OF TRANSCRIPTION FACTORS, EPIGENETIC FACTORS AND METABOLIC ENZYMES. IN ADDITION, RECENT WORK TO DISSECT EXHAUSTED T CELLS AT THE SINGLE-CELL LEVEL HAS ENABLED US TO DISCOVER A PRECURSOR EXHAUSTED T-CELL SUBSET EQUIPPED WITH LONG-TERM SURVIVAL CAPACITY. STARTING FROM THE ANALYSIS OF MOUSE MODELS, THE EXISTENCE OF PRECURSOR EXHAUSTED T CELLS HAS ALSO BEEN DOCUMENTED IN HUMAN T CELLS IN THE CONTEXT OF CHRONIC VIRUS INFECTIONS OR TUMORS. CLINICAL DATA SUGGEST THAT EVALUATING THE QUALITY OF EXHAUSTED T CELLS ON THE BASIS OF THEIR DIFFERENTIATION STATUS MAY BE HELPFUL TO PREDICT THE THERAPEUTIC RESPONSE TO INHIBITION OF PROGRAMMED DEATH 1 (PD1). MOREOVER, BEYOND IMMUNE-CHECKPOINT BLOCKADE, NOVEL THERAPEUTIC APPROACHES TO RE-INVIGORATE EXHAUSTED T CELLS HAVE BEEN EXPLORED BASED ON MOLECULAR INSIGHTS INTO T-CELL EXHAUSTION. HERE I WILL DISCUSS KEY MOLECULAR PROFILES ASSOCIATED WITH THE DEVELOPMENT, MAINTENANCE AND DIFFERENTIATION OF EXHAUSTED T CELLS AND HOW THESE FINDINGS CAN BE APPLICABLE IN THE FIELD OF CANCER IMMUNOTHERAPY. 2022 19 3445 29 HYPERMETHYLATION OF ITGA4, TFPI2 AND VIMENTIN PROMOTERS IS INCREASED IN INFLAMED COLON TISSUE: PUTATIVE RISK MARKERS FOR COLITIS-ASSOCIATED CANCER. PURPOSE: EPIGENETIC SILENCING OF TUMOR SUPPRESSOR GENES IS INVOLVED IN EARLY TRANSFORMING EVENTS AND HAS A HIGH IMPACT ON COLORECTAL CARCINOGENESIS. LIKEWISE, COLON CANCERS THAT DERIVE FROM CHRONICALLY INFLAMED BOWEL DISEASES FREQUENTLY EXHIBIT EPIGENETIC CHANGES. BUT THERE IS LITTLE DATA ABOUT EPIGENETIC ABERRATIONS CAUSING COLORECTAL CANCER IN CHRONICALLY INFLAMED TISSUE. THE AIM OF THE PRESENT STUDY WAS TO EVALUATE THE ABERRANT GAIN OF METHYLATION IN THE GENE PROMOTERS OF VIM, TFPI2 AND ITGA4 AS PUTATIVE EARLY MARKERS IN THE DEVELOPMENT FROM INFLAMED TISSUE VIA PRECANCEROUS LESIONS TOWARD COLORECTAL CANCER. METHODS: INITIAL SCREENING OF DIFFERENT CANCER CELL LINES BY USING METHYLATION-SPECIFIC PCR REVEALED A PUTATIVE COLON CANCER-SPECIFIC METHYLATION PATTERN. ADDITIONALLY, A DEMETHYLATION ASSAY WAS PERFORMED TO INVESTIGATE THE METHYLATION-DEPENDENT GENE SILENCING OF ITGA4. THE CANDIDATE MARKERS WERE ANALYZED IN COLONIC TISSUE SPECIMENS FROM PATIENTS WITH COLORECTAL CANCER (N = 15), ADENOMAS (N = 76), SERRATED LESIONS (N = 13), CHRONIC INFLAMMATION (N = 10) AND NORMAL MUCOSAL SAMPLES (N = 9). RESULTS: A HIGH METHYLATION FREQUENCY OF VIM (55.6 %) WAS OBSERVED IN NORMAL COLON TISSUE, WHEREAS ITGA4 AND TFPI2 WERE COMPLETELY UNMETHYLATED IN CONTROLS. A SIGNIFICANT GAIN OF METHYLATION FREQUENCY WITH PROGRESSION OF DISEASE AS WELL AS AN AGE-DEPENDENT EFFECT WAS DETECTABLE FOR TFPI2. ITGA4 METHYLATION FREQUENCY WAS HIGH IN PRECANCEROUS AND CANCEROUS TISSUES AS WELL AS IN INFLAMMATORY BOWEL DISEASES (IBD). CONCLUSION: THE ALREADY ESTABLISHED METHYLATION MARKER VIM DOES NOT PERMIT A SPECIFIC AND SENSITIVE DISCRIMINATION OF HEALTHY AND NEOPLASTIC TISSUE. THE METHYLATION MARKERS ITGA4 AND TFPI2 SEEM TO BE SUITABLE RISK MARKERS FOR INFLAMMATION-ASSOCIATED COLON CANCER. 2015 20 5407 34 REGULATION AND IMMUNOTHERAPEUTIC TARGETING OF THE EPIGENOME IN EXHAUSTED CD8 T CELL RESPONSES. EXHAUSTION IS A STATE OF CD8 T CELL DIFFERENTIATION THAT OCCURS IN SETTINGS OF CHRONIC AG SUCH AS TUMORS, CHRONIC VIRAL INFECTION, AND AUTOIMMUNITY. CELLULAR DIFFERENTIATION IS DRIVEN BY A SERIES OF ENVIRONMENTAL SIGNALS THAT PROMOTE EPIGENETIC LANDSCAPES THAT SET TRANSCRIPTOMES NEEDED FOR FUNCTION. FOR CD8 T CELLS, THE EPIGENOME THAT UNDERLIES EXHAUSTION IS DISTINCT FROM EFFECTOR AND MEMORY CELL DIFFERENTIATION, SUGGESTING THAT SIGNALS EARLY ON SET IN MOTION A PROCESS WHERE THE EPIGENOME IS MODIFIED TO PROMOTE A TRAJECTORY TOWARD A DYSFUNCTIONAL STATE. ALTHOUGH WE KNOW MANY SIGNALS THAT PROMOTE EXHAUSTION, PUTTING THIS IN THE CONTEXT OF THE EPIGENETIC CHANGES THAT OCCUR DURING DIFFERENTIATION HAS BEEN LESS CLEAR. IN THIS REVIEW, WE AIM TO SUMMARIZE THE EPIGENETIC CHANGES ASSOCIATED WITH EXHAUSTION IN THE CONTEXT OF SIGNALS THAT PROMOTE IT, HIGHLIGHTING IMMUNOTHERAPEUTIC STUDIES THAT SUPPORT THESE OBSERVATIONS OR AREAS FOR FUTURE THERAPEUTIC OPPORTUNITIES. 2023