1 2225 107 EPIGENETIC MODIFICATIONS IN TUMOR-ASSOCIATED MACROPHAGES: A NEW PERSPECTIVE FOR AN OLD FOE. TUMORIGENESIS IS FREQUENTLY ACCOMPANIED BY CHRONIC INFLAMMATION, AND THE TUMOR MICROENVIRONMENT (TME) CAN BE CONSIDERED AN ECOSYSTEM THAT CONSISTS OF TUMOR CELLS, ENDOTHELIOCYTES, FIBROBLASTS, IMMUNE CELLS AND ACELLULAR COMPONENTS SUCH AS EXTRACELLULAR MATRIX. FOR TUMOR CELLS, THEIR SURVIVAL ADVANTAGES ARE DEPENDENT ON BOTH GENETIC AND EPIGENETIC ALTERATIONS, WHILE OTHER CELLS MAINLY PRESENT EPIGENETIC MODIFICATIONS. MACROPHAGES ARE THE MOST PLASTIC TYPE OF IMMUNE CELLS AND UNDERGO DIVERSE EPIGENETIC ALTERATIONS IN THE TME. SOME OF THESE EPIGENETIC MODIFICATIONS MITIGATE AGAINST CANCER PROGRESSION, AND OTHERS ACCELERATE THIS PROCESS. DUE TO THE COMPLEX ROLES OF MACROPHAGES IN THE TME, IT IS URGENT TO UNDERSTAND THEIR EPIGENETIC MODIFICATIONS ASSOCIATED WITH THE TME. HERE, WE MAINLY SUMMARIZE RECENT FINDINGS ON TME-ASSOCIATED EPIGENETIC ALTERATIONS OF TUMOR-ASSOCIATED MACROPHAGES (TAMS), INCLUDING DNA METHYLATION, POSTTRANSLATIONAL MODIFICATIONS OF HISTONE PROTEINS, CHROMATIN REMODELING, AND NONCODING RNA-MEDIATED EPIGENETIC REGULATION. AT THE END OF THIS REVIEW, WE ALSO DISCUSS THE TRANSLATIONAL POTENTIAL OF THESE EPIGENETIC MODIFICATIONS FOR DEVELOPING NOVEL CANCER THERAPIES TARGETING TAMS. 2022 2 6144 39 THE EVOLVING LANDSCAPE OF N(6)-METHYLADENOSINE MODIFICATION IN THE TUMOR MICROENVIRONMENT. THE TUMOR MICROENVIRONMENT (TME), CONTROLLED BY INTRINSIC MECHANISMS OF CARCINOGENESIS AND EPIGENETIC MODIFICATIONS, HAS, IN RECENT YEARS, BECOME A HEAVILY RESEARCHED TOPIC. THE TME CAN BE DESCRIBED IN TERMS OF HYPOXIA, METABOLIC DYSREGULATION, IMMUNE ESCAPE, AND CHRONIC INFLAMMATION. RNA METHYLATION, AN EPIGENETIC MODIFICATION, HAS RECENTLY BEEN FOUND TO HAVE A PIVOTAL ROLE IN SHAPING THE TME. THE N(6)-METHYLATION OF ADENOSINE (M(6)A) MODIFICATION IS THE MOST COMMON TYPE OF RNA METHYLATION THAT OCCURS IN THE N(6)-POSITION OF ADENOSINE, WHICH IS THE PRIMARY INTERNAL MODIFICATION OF EUKARYOTIC MRNA. COMPELLING EVIDENCE HAS DEMONSTRATED THAT M(6)A REGULATES TRANSCRIPTIONAL AND PROTEIN EXPRESSION THROUGH SPLICING, TRANSLATION, DEGRADATION, AND EXPORT, THEREBY MEDIATING THE BIOLOGICAL PROCESSES OF CANCER CELLS AND/OR STROMAL CELLS AND CHARACTERIZING THE TME. THE TME ALSO HAS A CRUCIAL ROLE IN THE COMPLICATED REGULATORY NETWORK OF M(6)A MODIFICATIONS AND, SUBSEQUENTLY, INFLUENCES TUMOR INITIATION, PROGRESSION, AND THERAPY RESPONSES. IN THIS REVIEW, WE DESCRIBE THE FEATURES OF THE TME AND HOW THE M(6)A MODIFICATION MODULATES AND INTERACTS WITH IT. WE ALSO FOCUS ON VARIOUS FACTORS AND PATHWAYS INVOLVED IN M(6)A METHYLATION. FINALLY, WE DISCUSS POTENTIAL THERAPEUTIC STRATEGIES AND PROGNOSTIC BIOMARKERS WITH RESPECT TO THE TME AND M(6)A MODIFICATION. 2021 3 4666 39 NEW INSIGHTS AND OPTIONS INTO THE MECHANISMS AND EFFECTS OF COMBINED TARGETED THERAPY AND IMMUNOTHERAPY IN PROSTATE CANCER. CHRONIC INFLAMMATION IS BELIEVED TO DRIVE PROSTATE CARCINOGENESIS BY PRODUCING REACTIVE OXYGEN SPECIES OR REACTIVE NITROGEN SPECIES TO INDUCE DNA DAMAGE. THIS EFFECT MIGHT SUBSEQUENTLY CAUSE EPIGENETIC AND GENOMIC ALTERATIONS, LEADING TO MALIGNANT TRANSFORMATION. ALTHOUGH ESTABLISHED THERAPEUTIC ADVANCES HAVE EXTENDED OVERALL SURVIVAL, TUMORS IN PATIENTS WITH ADVANCED PROSTATE CANCER ARE PRONE TO METASTASIS, TRANSFORMATION INTO METASTATIC CASTRATION-RESISTANT PROSTATE CANCER, AND THERAPEUTIC RESISTANCE. THE TUMOR MICROENVIRONMENT (TME) OF PROSTATE CANCER IS INVOLVED IN CARCINOGENESIS, INVASION AND DRUG RESISTANCE. A PLETHORA OF PRECLINICAL STUDIES HAVE FOCUSED ON IMMUNE-BASED THERAPIES. UNDERSTANDING THE INTRICATE TME SYSTEM IN PROSTATE CANCER MAY HOLD MUCH PROMISE FOR DEVELOPING NOVEL THERAPIES, DESIGNING COMBINATIONAL THERAPEUTIC STRATEGIES, AND FURTHER OVERCOMING RESISTANCE TO ESTABLISHED TREATMENTS TO IMPROVE THE LIVES OF PROSTATE CANCER PATIENTS. IN THIS REVIEW, WE DISCUSS NONIMMUNE COMPONENTS AND VARIOUS IMMUNE CELLS WITHIN THE TME AND THEIR PUTATIVE ROLES DURING PROSTATE CANCER INITIATION, PROGRESSION, AND METASTASIS. WE ALSO OUTLINE THE UPDATED FUNDAMENTAL RESEARCH FOCUSING ON THERAPEUTIC ADVANCES OF TARGETED THERAPY AS WELL AS COMBINATIONAL OPTIONS FOR PROSTATE CANCER. 2023 4 5806 32 STRATEGIES TO REINVIGORATE EXHAUSTED CD8(+) T CELLS IN TUMOR MICROENVIRONMENT. CD8(+) T CELL EXHAUSTION IS A STABLE DYSFUNCTIONAL STATE DRIVEN BY CHRONIC ANTIGEN STIMULATION IN THE TUMOR MICROENVIRONMENT (TME). DIFFERENTIATION OF EXHAUSTED CD8(+) T CELLS (CD8(+) TEXS) IS ACCOMPANIED BY EXTENSIVE TRANSCRIPTIONAL, EPIGENETIC AND METABOLIC REPROGRAMMING. CD8(+) TEXS ARE MAINLY CHARACTERIZED BY IMPAIRED PROLIFERATIVE AND CYTOTOXIC CAPACITY AS WELL AS THE INCREASED EXPRESSION OF MULTIPLE CO-INHIBITORY RECEPTORS. PRECLINICAL TUMOR STUDIES AND CLINICAL COHORTS HAVE DEMONSTRATED THAT T CELL EXHAUSTION IS FIRMLY ASSOCIATED WITH POOR CLINICAL OUTCOMES IN A VARIETY OF CANCERS. MORE IMPORTANTLY, CD8(+) TEXS ARE REGARDED AS THE MAIN RESPONDER TO IMMUNE CHECKPOINT BLOCKADE (ICB). HOWEVER, TO DATE, A LARGE NUMBER OF CANCER PATIENTS HAVE FAILED TO ACHIEVE DURABLE RESPONSES AFTER ICB. THEREFORE, IMPROVING CD8(+) TEXS MAY BE A BREAKTHROUGH POINT TO REVERSE THE CURRENT DILEMMA OF CANCER IMMUNOTHERAPY AND ELIMINATE CANCERS. STRATEGIES TO REINVIGORATE CD8(+) TEXS IN TME MAINLY INCLUDE ICB, TRANSCRIPTION FACTOR-BASED THERAPY, EPIGENETIC THERAPY, METABOLISM-BASED THERAPY AND CYTOKINE THERAPY, WHICH TARGET ON DIFFERENT ASPECTS OF EXHAUSTION PROGRESSION. EACH OF THEM HAS ITS ADVANTAGES AND APPLICATION SCOPE. IN THIS REVIEW, WE MAINLY FOCUS ON THE MAJOR ADVANCES OF CURRENT STRATEGIES TO REINVIGORATE CD8(+) TEXS IN TME. WE SUMMARIZE THEIR EFFICACY AND MECHANISMS, IDENTIFY THE PROMISING MONOTHERAPY AND COMBINED THERAPY AND PROPOSE SUGGESTIONS TO ENHANCE THE TREATMENT EFFICACY TO SIGNIFICANTLY BOOST ANTI-TUMOR IMMUNITY AND ACHIEVE BETTER CLINICAL OUTCOMES. 2023 5 2879 39 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 6 3694 53 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 7 2897 31 GASTRIC TUMOR MICROENVIRONMENT. A COMPELLING BODY OF EVIDENCE HAS DEMONSTRATED THAT GASTRIC CANCER HAS A VERY PARTICULAR TUMOR MICROENVIRONMENT, A SIGNATURE VERY SUITABLE TO PROMOTE TUMOR PROGRESSION AND METASTASIS. RECENT INVESTIGATIONS HAVE PROVIDED NEW INSIGHTS INTO THE MULTIPLE MOLECULAR MECHANISMS, DEFINED BY GENETIC AND EPIGENETIC MECHANISMS, SUPPORTING A VERY ACTIVE CROSS TALK BETWEEN THE COMPONENTS OF THE TUMOR MICROENVIRONMENT AND THUS DEFINING THE FATE OF TUMOR PROGRESSION. IN THIS REVIEW, WE INTEND TO HIGHLIGHT THE ROLE OF VERY ACTIVE CONTRIBUTORS AT GASTRIC CANCER TME, PARTICULARLY CANCER-ASSOCIATED FIBROBLASTS, BONE MARROW-DERIVED CELLS, TUMOR-ASSOCIATED MACROPHAGES, AND TUMOR-INFILTRATING NEUTROPHILS, ALL OF THEM SURROUNDED BY AN OVERTIME CHANGING EXTRACELLULAR MATRIX. IN ADDITION, THE VERY ACTIVE CROSS TALK BETWEEN THE COMPONENTS OF THE TUMOR MICROENVIRONMENT, DEFINED BY GENETIC AND EPIGENETIC MECHANISMS, THUS DEFINING THE FATE OF TUMOR PROGRESSION, IS ALSO REVIEWED. 2020 8 3288 29 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 9 770 27 CD8(+) T CELL DYSFUNCTION BY TOX INTOXICATION: A PROTUMORIGENIC EVENT IN THE TUMOR MICROENVIRONMENT. ACCUMULATING EVIDENCE SUGGESTS THE ROLE OF CELLULAR COMPONENTS IN ACHIEVING ANTITUMOR TO PROTUMOR MICROENVIRONMENTS. AMONG THE VARIOUS TYPES OF CELLS WITHIN THE TUMOR NICHE, THE STATE OF CD8(+) T CELLS APPARENTLY CHANGES FROM CYTOTOXIC T EFFECTOR CELLS AND MEMORY T CELLS TO EXHAUSTED CD8(+) T CELLS. THESE CHANGES IN THE PHENOTYPE OF CD8(+) T CELLS PROMOTE THE PROTUMOR MICROENVIRONMENT. RECENTLY, COMPREHENSIVE EXPERIMENTAL DATA DELINEATED THE ROLE OF THYMOCYTE SELECTION-ASSOCIATED HIGH-MOBILITY GROUP-BOX PROTEIN (TOX), WHICH REGULATES THE TRANSCRIPTIONAL PROCESS AND EPIGENETIC REMODELING, WITH IMPLICATIONS IN TUMOR AND CHRONIC VIRAL INFECTIONS. THIS PERSPECTIVE SUMMARIZES THE MOLECULAR MECHANISMS THAT LINK CD8(+) T CELLS, TOX, AND TRANSCRIPTIONAL AND EPIGENETIC REPROGRAMMING AS WELL AS FUTURE DIRECTIONS FOR DETERMINING NEW AVENUES OF CANCER THERAPEUTICS. 2021 10 6592 39 TUMOR-ASSOCIATED MACROPHAGES IN HEPATOCELLULAR CARCINOMA PATHOGENESIS, PROGNOSIS AND THERAPY. HEPATOCELLULAR CARCINOMA (HCC) CONSTITUTES A MAJOR HEALTH BURDEN GLOBALLY, AND IT IS CAUSED BY INTRINSIC GENETIC MUTATIONS ACTING IN CONCERT WITH A MULTITUDE OF EPIGENETIC AND EXTRINSIC RISK FACTORS. CANCER INDUCES MYELOPOIESIS IN THE BONE MARROW, AS WELL AS THE MOBILIZATION OF HEMATOPOIETIC STEM AND PROGENITOR CELLS, WHICH RESIDE IN THE SPLEEN. MONOCYTES PRODUCED IN THE BONE MARROW AND THE SPLEEN FURTHER INFILTRATE TUMORS, WHERE THEY DIFFERENTIATE INTO TUMOR-ASSOCIATED MACROPHAGES (TAMS). THE RELATIONSHIP BETWEEN CHRONIC INFLAMMATION AND HEPATOCARCINOGENESIS HAS BEEN THOROUGHLY INVESTIGATED OVER THE PAST DECADE; HOWEVER, SEVERAL ASPECTS OF THE ROLE OF TAMS IN HCC DEVELOPMENT ARE YET TO BE DETERMINED. IN RESPONSE TO CERTAIN STIMULI AND SIGNALING, MONOCYTES DIFFERENTIATE INTO MACROPHAGES WITH ANTITUMOR PROPERTIES, WHICH ARE CLASSIFIED AS M1-LIKE. ON THE OTHER HAND, UNDER DIFFERENT STIMULI AND SIGNALING, THE POLARIZATION OF MACROPHAGES SHIFTS TOWARDS AN M2-LIKE PHENOTYPE WITH A TUMOR PROMOTING CAPACITY. M2-LIKE MACROPHAGES DRIVE TUMOR GROWTH BOTH DIRECTLY AND INDIRECTLY, VIA THE SUPPRESSION OF CYTOTOXIC CELL POPULATIONS, INCLUDING CD8+ T CELLS AND NK CELLS. THE TUMOR MICROENVIRONMENT AFFECTS THE RESPONSE TO IMMUNOTHERAPIES. THEREFORE, AN ENHANCED UNDERSTANDING OF ITS IMMUNOBIOLOGY IS ESSENTIAL FOR THE DEVELOPMENT OF NEXT-GENERATION IMMUNOTHERAPIES. THE UTILIZATION OF VARIOUS MONOCYTE-CENTERED ANTICANCER TREATMENT MODALITIES HAS BEEN UNDER CLINICAL INVESTIGATION, SELECTIVELY TARGETING AND MODULATING THE PROCESSES OF MONOCYTE RECRUITMENT, ACTIVATION AND MIGRATION. THIS REVIEW SUMMARIZES THE CURRENT EVIDENCE ON THE ROLE OF TAMS IN HCC PATHOGENESIS AND PROGRESSION, AS WELL AS IN THEIR POTENTIAL INVOLVEMENT IN TUMOR THERAPY, SHEDDING LIGHT ON EMERGING ANTICANCER TREATMENT METHODS TARGETING MONOCYTES. 2022 11 2813 33 FIBROBLAST REPROGRAMMING IN GASTROINTESTINAL CANCER. GASTROINTESTINAL CANCERS ARE A SIGNIFICANT CAUSE OF CANCER MORTALITY WORLDWIDE AND HAVE BEEN STRONGLY LINKED WITH CHRONIC INFLAMMATION. CURRENT THERAPIES FOCUS ON EPITHELIAL/CANCER CELLS; HOWEVER, THE IMPORTANCE OF THE TUMOR MICROENVIRONMENT IN THE DEVELOPMENT AND TREATMENT OF THE DISEASE IS ALSO NOW WELL ESTABLISHED. CANCER-ASSOCIATED FIBROBLASTS (CAFS) ARE A MAJOR COMPONENT OF THE TUMOR MICROENVIRONMENT, AND ARE ACTIVELY PARTICIPATING IN TUMOR INITIATION, PROMOTION AND METASTASIS. THEY STRUCTURALLY AND FUNCTIONALLY AFFECT CANCER CELL PROLIFERATION, TUMOR IMMUNITY, ANGIOGENESIS, EXTRACELLULAR MATRIX REMODELING AND METASTASIS THROUGH A VARIETY OF SIGNALING PATHWAYS. CAFS ORIGINATE PREDOMINANTLY FROM RESIDENT MESENCHYMAL CELLS, WHICH ARE ACTIVATED AND REPROGRAMMED IN RESPONSE TO CUES FROM CANCER CELLS. IN RECENT YEARS, CHRONIC INFLAMMATION OF THE GASTROINTESTINAL TRACT HAS ALSO PROVEN AN IMPORTANT DRIVER OF MESENCHYMAL CELL ACTIVATION AND SUBSEQUENT CAF DEVELOPMENT, WHICH IN TURN ARE CAPABLE OF REGULATING THE TRANSITION FROM ACUTE TO CHRONIC INFLAMMATION AND CANCER. IN THIS REVIEW, WE WILL PROVIDE A CONCISE OVERVIEW OF THE MECHANISMS THAT DRIVE FIBROBLAST REPROGRAMMING IN CANCER AND THE RECENT ADVANCES ON THE DOWNSTREAM SIGNALING PATHWAYS THAT REGULATE THE FUNCTIONAL PROPERTIES OF THE ACTIVATED MESENCHYME. THIS NEW MECHANISTIC INSIGHT COULD PAVE THE WAY FOR NEW THERAPEUTIC STRATEGIES AND BETTER PROGNOSIS FOR CANCER PATIENTS. 2020 12 6522 33 TRANSCRIPTIONAL AND EPIGENETIC REGULATION OF T CELL HYPORESPONSIVENESS. NAIVE CD8(+) T CELLS DIFFERENTIATE INTO EFFECTOR AND MEMORY CYTOLYTIC T CELLS (CTLS) DURING AN ACUTE INFECTION. IN CONTRAST, IN SCENARIOS OF PERSISTENT ANTIGEN STIMULATION, SUCH AS CHRONIC INFECTIONS AND CANCER, ANTIGEN-SPECIFIC CTLS SHOW A GRADUAL DECREASE IN EFFECTOR FUNCTION, A PHENOMENON THAT HAS BEEN TERMED CD8(+) T CELL "EXHAUSTION" OR "DYSFUNCTION." ANOTHER HYPORESPONSIVE STATE, TERMED "ANERGY", IS OBSERVED WHEN T CELLS ARE ACTIVATED IN THE ABSENCE OF POSITIVE COSTIMULATORY SIGNALS. AMONG THE MANY NEGATIVE REGULATORS INDUCED IN HYPORESPONSIVE T CELLS ARE INHIBITORY CELL-SURFACE RECEPTORS, SUCH AS PD-1, LAG-3, CTLA-4, AND TIM-3; "CHECKPOINT BLOCKADE" THERAPIES THAT INVOLVE TREATMENT OF PATIENTS WITH CANCER WITH BLOCKING ANTIBODIES TO THOSE RECEPTORS SHOW CONSIDERABLE PROMISE IN THE CLINIC BECAUSE THE BLOCKING ANTIBODIES CAN MITIGATE HYPORESPONSIVENESS AND PROMOTE TUMOR REJECTION. IN THIS REVIEW, WE DESCRIBE RECENT ADVANCES IN OUR MOLECULAR UNDERSTANDING OF THESE HYPORESPONSIVE STATES. WE REVIEW EVIDENCE FOR THE INVOLVEMENT OF DIVERSE TRANSCRIPTION FACTORS, METABOLIC PROGRAMS, AND CHROMATIN ACCESSIBILITY CHANGES IN HYPORESPONSIVE T CELLS, AND WE DISCUSS HOW CHECKPOINT BLOCKADE THERAPIES AFFECT THE MOLECULAR PROGRAM OF CD8(+) T CELL EXHAUSTION. 2017 13 6851 39 [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 14 2660 28 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 15 769 30 CD8 T CELL EXHAUSTION DURING CHRONIC VIRAL INFECTION AND CANCER. EXHAUSTED CD8 T (TEX) CELLS ARE A DISTINCT CELL LINEAGE THAT ARISE DURING CHRONIC INFECTIONS AND CANCERS IN ANIMAL MODELS AND HUMANS. TEX CELLS ARE CHARACTERIZED BY PROGRESSIVE LOSS OF EFFECTOR FUNCTIONS, HIGH AND SUSTAINED INHIBITORY RECEPTOR EXPRESSION, METABOLIC DYSREGULATION, POOR MEMORY RECALL AND HOMEOSTATIC SELF-RENEWAL, AND DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROGRAMS. THE ABILITY TO REINVIGORATE TEX CELLS THROUGH INHIBITORY RECEPTOR BLOCKADE, SUCH AS ALPHAPD-1, HIGHLIGHTS THE THERAPEUTIC POTENTIAL OF TARGETING THIS POPULATION. EMERGING INSIGHTS INTO THE MECHANISMS OF EXHAUSTION ARE INFORMING IMMUNOTHERAPIES FOR CANCER AND CHRONIC INFECTIONS. HOWEVER, LIKE OTHER IMMUNE CELLS, TEX CELLS ARE HETEROGENEOUS AND INCLUDE PROGENITOR AND TERMINAL SUBSETS WITH UNIQUE CHARACTERISTICS AND RESPONSES TO CHECKPOINT BLOCKADE. HERE, WE REVIEW OUR CURRENT UNDERSTANDING OF TEX CELL BIOLOGY, INCLUDING THE DEVELOPMENTAL PATHS, TRANSCRIPTIONAL AND EPIGENETIC FEATURES, AND CELL INTRINSIC AND EXTRINSIC FACTORS CONTRIBUTING TO EXHAUSTION AND HOW THIS KNOWLEDGE MAY INFORM THERAPEUTIC TARGETING OF TEX CELLS IN CHRONIC INFECTIONS, AUTOIMMUNITY, AND CANCER. 2019 16 4186 24 METABOLIC AND EPIGENETIC REGULATION OF T-CELL EXHAUSTION. CURRENT IMMUNOTHERAPIES YIELD REMARKABLE CLINICAL OUTCOMES BY BOOSTING THE POWER OF HOST IMMUNITY IN CANCER CELL ELIMINATION AND VIRAL CLEARANCE. HOWEVER, AFTER PROLONGED ANTIGEN EXPOSURE, CD8(+) T CELLS DIFFERENTIATE INTO A SPECIAL DIFFERENTIATION STATE KNOWN AS T-CELL EXHAUSTION, WHICH POSES ONE OF THE MAJOR HURDLES TO ANTIVIRAL AND ANTITUMOR IMMUNITY DURING CHRONIC VIRAL INFECTION AND TUMOUR DEVELOPMENT. GROWING EVIDENCE INDICATES THAT EXHAUSTED T CELLS UNDERGO METABOLIC INSUFFICIENCY WITH ALTERED SIGNALLING CASCADES AND EPIGENETIC LANDSCAPES, WHICH DAMPEN EFFECTOR IMMUNITY AND CAUSE POOR RESPONSIVENESS TO IMMUNE-CHECKPOINT-BLOCKADE THERAPIES. HOW METABOLIC STRESS AFFECTS T-CELL EXHAUSTION REMAINS UNCLEAR; THEREFORE, IN THIS REVIEW, WE SUMMARIZE CURRENT KNOWLEDGE OF HOW T-CELL EXHAUSTION OCCURS, AND DISCUSS HOW METABOLIC INSUFFICIENCY AND PROLONGED STRESS RESPONSES MAY AFFECT SIGNALLING CASCADES AND EPIGENETIC REPROGRAMMING, THUS LOCKING T CELLS INTO AN EXHAUSTED STATE VIA SPECIALIZED DIFFERENTIATION PROGRAMMING. 2020 17 6060 34 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 18 4178 24 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 19 6591 30 TUMOR-ASSOCIATED MACROPHAGES AS A PARADIGM OF MACROPHAGE PLASTICITY, DIVERSITY, AND POLARIZATION: LESSONS AND OPEN QUESTIONS. MACROPHAGES ARE PRESENT IN ALL BODY COMPARTMENTS, INCLUDING CANCEROUS TISSUES, AND THEIR FUNCTIONS ARE PROFOUNDLY AFFECTED BY SIGNALS FROM THE MICROENVIRONMENT UNDER HOMEOSTATIC AND PATHOLOGICAL CONDITIONS. TUMOR-ASSOCIATED MACROPHAGES ARE A MAJOR CELLULAR COMPONENT OF CANCER-RELATED INFLAMMATION AND HAVE SERVED AS A PARADIGM FOR THE PLASTICITY AND FUNCTIONAL POLARIZATION OF MONONUCLEAR PHAGOCYTES. TUMOR-ASSOCIATED MACROPHAGES CAN EXERT DUAL INFLUENCE OF CANCER DEPENDING ON THE ACTIVATION STATE, WITH CLASSICALLY ACTIVATED (M1) AND ALTERNATIVELY ACTIVATED (M2) CELLS GENERALLY EXERTING ANTITUMORAL AND PROTUMORAL FUNCTIONS, RESPECTIVELY. THESE ARE EXTREMES IN A CONTINUUM OF POLARIZATION STATES IN A UNIVERSE OF DIVERSITY. TUMOR-ASSOCIATED MACROPHAGES AFFECT VIRTUALLY ALL ASPECTS OF TUMOR TISSUES, INCLUDING STEM CELLS, METABOLISM, ANGIOGENESIS, INVASION, AND METASTASIS. PROGRESS HAS BEEN MADE IN DEFINING SIGNALING MOLECULES, TRANSCRIPTION FACTORS, EPIGENETIC CHANGES, AND REPERTOIRE OF MICRORNAS UNDERLYING MACROPHAGE POLARIZATION. PRECLINICAL AND EARLY CLINICAL DATA SUGGEST THAT MACROPHAGES MAY SERVE AS TOOLS FOR THE DEVELOPMENT OF INNOVATIVE DIAGNOSTIC AND THERAPEUTIC STRATEGIES IN CANCER AND CHRONIC NONRESOLVING INFLAMMATORY DISEASES. 2013 20 771 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