1 5429 70 REGULATION OF TYPE I INTERFERON RESPONSES. TYPE I INTERFERONS (IFNS) ACTIVATE INTRACELLULAR ANTIMICROBIAL PROGRAMMES AND INFLUENCE THE DEVELOPMENT OF INNATE AND ADAPTIVE IMMUNE RESPONSES. CANONICAL TYPE I IFN SIGNALLING ACTIVATES THE JANUS KINASE (JAK)-SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION (STAT) PATHWAY, LEADING TO TRANSCRIPTION OF IFN-STIMULATED GENES (ISGS). HOST, PATHOGEN AND ENVIRONMENTAL FACTORS REGULATE THE RESPONSES OF CELLS TO THIS SIGNALLING PATHWAY AND THUS CALIBRATE HOST DEFENCES WHILE LIMITING TISSUE DAMAGE AND PREVENTING AUTOIMMUNITY. HERE, WE SUMMARIZE THE SIGNALLING AND EPIGENETIC MECHANISMS THAT REGULATE TYPE I IFN-INDUCED STAT ACTIVATION AND ISG TRANSCRIPTION AND TRANSLATION. THESE REGULATORY MECHANISMS DETERMINE THE BIOLOGICAL OUTCOMES OF TYPE I IFN RESPONSES AND WHETHER PATHOGENS ARE CLEARED EFFECTIVELY OR CHRONIC INFECTION OR AUTOIMMUNE DISEASE ENSUES. 2014 2 170 30 ABNORMALITIES OF THE TYPE I INTERFERON SIGNALING PATHWAY IN LUPUS AUTOIMMUNITY. TYPE I INTERFERONS (IFNS), MOSTLY IFNALPHA AND IFNBETA, AND THE TYPE I IFN SIGNATURE ARE IMPORTANT IN THE PATHOGENESIS OF SYSTEMIC LUPUS ERYTHEMATOSUS (SLE), AN AUTOIMMUNE CHRONIC CONDITION LINKED TO INFLAMMATION. BOTH IFNALPHA AND IFNBETA TRIGGER A SIGNALING CASCADE THAT, THROUGH THE ACTIVATION OF JAK1, TYK2, STAT1 AND STAT2, INITIATES GENE TRANSCRIPTION OF IFN STIMULATED GENES (ISGS). NOTEWORTHY, OTHER STAT FAMILY MEMBERS AND IFN RESPONSIVE FACTORS (IRFS) CAN ALSO CONTRIBUTE TO THE ACTIVATION OF THE IFN RESPONSE. ABERRANT TYPE I IFN SIGNALING, THEREFORE, CAN EXACERBATE SLE BY DEREGULATED HOMEOSTASIS LEADING TO UNNECESSARY PERSISTENCE OF THE BIOLOGICAL EFFECTS OF TYPE I IFNS. THE ETIOPATHOGENESIS OF SLE IS PARTIALLY KNOWN AND CONSIDERED MULTIFACTORIAL. FAMILY-BASED AND GENOME WIDE ASSOCIATION STUDIES (GWAS) HAVE IDENTIFIED GENETIC AND TRANSCRIPTIONAL ABNORMALITIES IN KEY MOLECULES DIRECTLY INVOLVED IN THE TYPE I IFN SIGNALING PATHWAY, NAMELY TYK2, STAT1 AND STAT4, AND IRF5. GAIN-OF-FUNCTION MUTATIONS THAT HEIGHTEN IFNALPHA/BETA PRODUCTION, WHICH IN TURN MAINTAINS TYPE I IFN SIGNALING, ARE FOUND IN OTHER PATHOLOGIES LIKE THE INTERFERONOPATHIES. HOWEVER, THE DISTINCTIVE CHARACTERISTICS HAVE YET TO BE DETERMINED. SIGNALING MOLECULES ACTIVATED IN RESPONSE TO TYPE I IFNS ARE UPREGULATED IN IMMUNE CELL SUBSETS AND AFFECTED TISSUES OF SLE PATIENTS. MOREOVER, TYPE I IFNS INDUCE CHROMATIN REMODELING LEADING TO A STATE PERMISSIVE TO TRANSCRIPTION, AND SLE PATIENTS HAVE INCREASED GLOBAL AND GENE-SPECIFIC EPIGENETIC MODIFICATIONS, SUCH AS HYPOMETHYLATION OF DNA AND HISTONE ACETYLATION. EPIGENOME WIDE ASSOCIATION STUDIES (EWAS) HIGHLIGHT IMPORTANT DIFFERENCES BETWEEN SLE PATIENTS AND HEALTHY CONTROLS IN INTERFERON STIMULATED GENES (ISGS). THE COMBINATION OF ENVIRONMENTAL AND GENETIC FACTORS MAY STIMULATE TYPE I IFN SIGNALING TRANSIENTLY AND PRODUCE LONG-LASTING DETRIMENTAL EFFECTS THROUGH EPIGENETIC ALTERATIONS. SUBSTANTIAL EVIDENCE FOR THE PATHOGENIC ROLE OF TYPE I IFNS IN SLE ADVOCATES THE CLINICAL USE OF NEUTRALIZING ANTI-TYPE I IFN RECEPTOR ANTIBODIES AS A THERAPEUTIC STRATEGY, WITH CLINICAL STUDIES ALREADY SHOWING PROMISING RESULTS. CURRENT AND FUTURE CLINICAL TRIALS WILL DETERMINE WHETHER DRUGS TARGETING MOLECULES OF THE TYPE I IFN SIGNALING PATHWAY, LIKE NON-SELECTIVE JAK INHIBITORS OR SPECIFIC TYK2 INHIBITORS, MAY BENEFIT PEOPLE LIVING WITH LUPUS. 2021 3 3357 29 HISTONE H3 LYSINE 9 DI-METHYLATION AS AN EPIGENETIC SIGNATURE OF THE INTERFERON RESPONSE. EFFECTIVE ANTIVIRAL IMMUNITY DEPENDS ON THE ABILITY OF INFECTED CELLS OR CELLS TRIGGERED WITH VIRUS-DERIVED NUCLEIC ACIDS TO PRODUCE TYPE I INTERFERON (IFN), WHICH ACTIVATES TRANSCRIPTION OF NUMEROUS ANTIVIRAL GENES. HOWEVER, DISPROPORTIONATELY STRONG OR CHRONIC IFN EXPRESSION IS A COMMON CAUSE OF INFLAMMATORY AND AUTOIMMUNE DISEASES. WE DESCRIBE AN EPIGENETIC MECHANISM THAT DETERMINES CELL TYPE-SPECIFIC DIFFERENCES IN IFN AND IFN-STIMULATED GENE (ISG) EXPRESSION IN RESPONSE TO EXOGENOUS SIGNALS. WE IDENTIFY DI-METHYLATION OF HISTONE H3 AT LYSINE 9 (H3K9ME2) AS A SUPPRESSOR OF IFN AND IFN-INDUCIBLE ANTIVIRAL GENE EXPRESSION. WE SHOW THAT LEVELS OF H3K9ME2 AT IFN AND ISG CORRELATE INVERSELY WITH THE SCOPE AND AMPLITUDE OF IFN AND ISG EXPRESSION IN FIBROBLASTS AND DENDRITIC CELLS. ACCORDINGLY, GENETIC ABLATION OR PHARMACOLOGICAL INACTIVATION OF LYSINE METHYLTRANSFERASE G9A, WHICH IS ESSENTIAL FOR THE GENERATION OF H3K9ME2, RESULTED IN PHENOTYPIC CONVERSION OF FIBROBLASTS INTO HIGHLY POTENT IFN-PRODUCING CELLS AND RENDERED THESE CELLS RESISTANT TO PATHOGENIC RNA VIRUSES. IN SUMMARY, OUR STUDIES IMPLICATE H3K9ME2 AND ENZYMES CONTROLLING ITS ABUNDANCE AS KEY REGULATORS OF INNATE ANTIVIRAL IMMUNITY. 2012 4 6605 29 TYPE 1 DIABETES: INTERFERONS AND THE AFTERMATH OF PANCREATIC BETA-CELL ENTEROVIRAL INFECTION. ENTEROVIRUSES (EVS) HAVE LONG BEEN IMPLICATED IN THE PATHOGENESIS OF TYPE 1 DIABETES (T1D), AND ACCUMULATING EVIDENCE HAS ASSOCIATED VIRUS-INDUCED AUTOIMMUNITY WITH THE LOSS OF PANCREATIC BETA CELLS IN T1D. INFLAMMATORY CYTOKINES INCLUDING INTERFERONS (IFN) FORM A PRIMARY LINE OF DEFENCE AGAINST VIRAL INFECTIONS, AND THEIR CHRONIC ELEVATION IS A HALLMARK FEATURE OF MANY AUTOIMMUNE DISEASES. IFNS PLAY A KEY ROLE IN ACTIVATING AND REGULATING INNATE AND ADAPTIVE IMMUNE RESPONSES, AND TO DO SO THEY MODULATE THE EXPRESSION OF NETWORKS OF GENES AND TRANSCRIPTION FACTORS KNOWN GENERICALLY AS IFN STIMULATED GENES (ISGS). ISGS IN TURN MODULATE CRITICAL CELLULAR PROCESSES RANGING FROM CELLULAR METABOLISM AND GROWTH REGULATION TO ENDOPLASMIC RETICULUM (ER) STRESS AND APOPTOSIS. MORE RECENT STUDIES HAVE REVEALED THAT IFNS ALSO MODULATE GENE EXPRESSION AT AN EPIGENETIC AS WELL AS POST-TRANSCRIPTIONAL AND POST-TRANSLATIONAL LEVELS. AS SUCH, IFNS FORM A KEY LINK CONNECTING THE VARIOUS GENETIC, ENVIRONMENTAL AND IMMUNOLOGICAL FACTORS INVOLVED IN THE INITIATION AND PROGRESSION OF T1D. THEREFORE, GAINING AN IMPROVED UNDERSTANDING OF THE MECHANISMS BY WHICH IFNS MODULATE BETA CELL FUNCTION AND SURVIVAL IS CRUCIAL IN EXPLAINING THE PATHOGENESIS OF VIRALLY-INDUCED T1D. THIS SHOULD PROVIDE THE MEANS TO PREVENT, DECELERATE OR EVEN REVERSE BETA CELL IMPAIRMENT. 2020 5 730 26 CANCER CELLS RESISTANT TO IMMUNE CHECKPOINT BLOCKADE ACQUIRE INTERFERON-ASSOCIATED EPIGENETIC MEMORY TO SUSTAIN T CELL DYSFUNCTION. PROLONGED INTERFERON (IFN) SIGNALING IN CANCER CELLS CAN PROMOTE RESISTANCE TO IMMUNE CHECKPOINT BLOCKADE (ICB). HOW CANCER CELLS RETAIN EFFECTS OF PROLONGED IFN STIMULATION TO COORDINATE RESISTANCE IS UNCLEAR. WE SHOW THAT, ACROSS HUMAN AND/OR MOUSE TUMORS, IMMUNE DYSFUNCTION IS ASSOCIATED WITH CANCER CELLS ACQUIRING EPIGENETIC FEATURES OF INFLAMMATORY MEMORY. HERE, INFLAMMATORY MEMORY DOMAINS, MANY OF WHICH ARE INITIATED BY CHRONIC IFN-GAMMA, ARE MAINTAINED BY SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION (STAT)1 AND IFN REGULATORY FACTOR (IRF)3 AND LINK HISTONE 3 LYSINE 4 MONOMETHYLATION (H3K4ME1)-MARKED CHROMATIN ACCESSIBILITY TO INCREASED EXPRESSION OF A SUBSET OF IFN-STIMULATED GENES (ISGS). THESE ISGS INCLUDE THE RNA SENSOR OAS1 THAT AMPLIFIES TYPE I IFN (IFN-I) AND IMMUNE INHIBITORY GENES. ABROGATING CANCER CELL IFN-I SIGNALING RESTORES ANTI-PROGRAMMED CELL DEATH PROTEIN 1 (PD1) RESPONSE BY INCREASING IFN-GAMMA IN IMMUNE CELLS, PROMOTING DENDRITIC CELL AND CD8(+) T CELL INTERACTIONS, AND EXPANDING T CELLS TOWARD EFFECTOR-LIKE STATES RATHER THAN EXHAUSTED STATES. THUS, CANCER CELLS ACQUIRE INFLAMMATORY MEMORY TO AUGMENT A SUBSET OF ISGS THAT PROMOTE AND PREDICT IFN-DRIVEN IMMUNE DYSFUNCTION. 2023 6 3731 26 INNATE AND ADAPTIVE IMMUNE REGULATION DURING CHRONIC VIRAL INFECTIONS. CHRONIC VIRAL INFECTIONS REPRESENT A UNIQUE CHALLENGE TO THE INFECTED HOST. PERSISTENTLY REPLICATING VIRUSES OUTCOMPETE OR SUBVERT THE INITIAL ANTIVIRAL RESPONSE, ALLOWING THE ESTABLISHMENT OF CHRONIC INFECTIONS THAT RESULT IN CONTINUOUS STIMULATION OF BOTH THE INNATE AND ADAPTIVE IMMUNE COMPARTMENTS. THIS CAUSES A PROFOUND REPROGRAMMING OF THE HOST IMMUNE SYSTEM, INCLUDING ATTENUATION AND PERSISTENT LOW LEVELS OF TYPE I INTERFERONS, PROGRESSIVE LOSS (OR EXHAUSTION) OF CD8(+) T CELL FUNCTIONS, AND SPECIALIZATION OF CD4(+) T CELLS TO PRODUCE INTERLEUKIN-21 AND PROMOTE ANTIBODY-MEDIATED IMMUNITY AND IMMUNE REGULATION. EPIGENETIC, TRANSCRIPTIONAL, POSTTRANSCRIPTIONAL, AND METABOLIC CHANGES UNDERLIE THIS ADAPTATION OR RECALIBRATION OF IMMUNE CELLS TO THE EMERGING NEW ENVIRONMENT IN ORDER TO STRIKE AN OFTEN IMPERFECT BALANCE BETWEEN THE HOST AND THE INFECTIOUS PATHOGEN. IN THIS REVIEW WE DISCUSS THE COMMON IMMUNOLOGICAL HALLMARKS OBSERVED ACROSS A RANGE OF DIFFERENT PERSISTENTLY REPLICATING VIRUSES AND HOST SPECIES, THE UNDERLYING MOLECULAR MECHANISMS, AND THE BIOLOGICAL AND CLINICAL IMPLICATIONS. 2015 7 6535 23 TRANSCRIPTIONAL REGULATION OF THE ANTI-INFLAMMATORY CYTOKINE IL-10 IN ACQUIRED IMMUNE CELLS. ALTHOUGH THE MAJOR ROLE OF THE IMMUNE RESPONSE IS HOST DEFENSE FROM A WIDE RANGE OF POTENTIALLY PATHOGENIC MICROORGANISMS, EXCESS IMMUNE RESPONSES CAN RESULT IN SEVERE HOST DAMAGE. THE HOST THUS REQUIRES ANTI-INFLAMMATORY MECHANISMS TO PREVENT REACTIVITY TO SELF. INTERLEUKIN-10 (IL-10) IS A CYTOKINE WITH BROAD ANTI-INFLAMMATORY PROPERTIES INVOLVED IN THE PATHOGENESIS OF VARIOUS DISEASES. IL-10 WAS ORIGINALLY DESCRIBED AS A T HELPER (T(H)2) DERIVED CYTOKINE, BUT FURTHER STUDIES INDICATED THAT IL-10 IS EXPRESSED NOT ONLY BY MANY CELLS OF THE ADAPTIVE IMMUNE SYSTEM, INCLUDING T AND B CELLS, BUT ALSO BY THE INNATE IMMUNE CELLS, INCLUDING DENDRITIC CELLS (DCS), MACROPHAGES, MAST CELLS, AND NATURAL KILLER (NK) CELLS. IN ADDITION, IL-10 CAN BE INDUCED IN T(H)1 AND T(H)17 CELLS BY CHRONIC INFLAMMATION AS A SYSTEM OF FEEDBACK REGULATION. IN THIS REVIEW, WE FOCUS ON THE MOLECULAR MECHANISMS UNDERLYING IL10 GENE EXPRESSION IN ADAPTIVE IMMUNE CELLS AND SUMMARIZE THE RECENT PROGRESSES IN EPIGENETIC AND TRANSCRIPTIONAL REGULATION OF THE IL10 GENE. UNDERSTANDING THE TRANSCRIPTIONAL REGULATORY EVENTS MAY HELP IN THE DEVELOPMENT OF NEW STRATEGIES TO CONTROL INFLAMMATORY DISEASES. 2012 8 1876 25 EMERGING ROLES FOR EPIGENETIC PROGRAMMING IN THE CONTROL OF INFLAMMATORY SIGNALING INTEGRATION IN HEATH AND DISEASE. MACROPHAGES AND DENDRITIC CELLS INITIATE THE INNATE IMMUNE RESPONSE TO INFECTION AND INJURY AND CONTRIBUTE TO INFLAMMATORY SIGNALING TO MAINTAIN THE HOMEOSTASIS OF VARIOUS TISSUES, WHICH INCLUDES RESIDENT MACROPHAGES FOR THE ELIMINATION OF INVADING MICROORGANISMS AND TISSUE DAMAGE. INAPPROPRIATE INFLAMMATORY SIGNALING CAN LEAD TO PERSISTENT INFLAMMATION AND FURTHER DEVELOP INTO AUTOIMMUNE AND INFLAMMATION-ASSOCIATED DISEASES. INFLAMMATORY SIGNALING PATHWAYS HAVE BEEN WELL CHARACTERIZED, BUT HOW THESE SIGNALING PATHWAYS ARE CONVERTED INTO SUSTAINED AND DIVERSE PATTERNS OF EXPRESSION OF CYTOKINES, CHEMOKINES, AND OTHER GENES IN RESPONSE TO ENVIRONMENTAL CHALLENGES IS UNCLEAR. EMERGING EVIDENCE SUGGESTS THE IMPORTANT ROLE OF EPIGENETIC MECHANISMS IN FINELY TUNING THE OUTCOME OF THE HOST INNATE IMMUNE RESPONSE. AN UNDERSTANDING OF EPIGENETIC REGULATION OF INNATE IMMUNE CELL IDENTITY AND FUNCTION WILL ENABLE THE IDENTIFICATION OF THE MECHANISM BETWEEN GENE-SPECIFIC HOST DEFENSES AND INFLAMMATORY DISEASE AND WILL ALSO ALLOW FOR EXPLORATION OF THE PROGRAM OF INNATE IMMUNE MEMORY IN HEALTH AND DISEASE. THIS INFORMATION COULD BE USED TO DEVELOP THERAPEUTIC AGENTS TO ENHANCE THE HOST RESPONSE, PREVENTING CHRONIC INFLAMMATION THROUGH PRESERVING TISSUES AND SIGNALING INTEGRITY. 2017 9 2344 21 EPIGENETIC REGULATION OF MACROPHAGES: FROM HOMEOSTASIS MAINTENANCE TO HOST DEFENSE. MACROPHAGES ARE CRUCIAL MEMBERS OF THE INNATE IMMUNE RESPONSE AND IMPORTANT REGULATORS. THE DIFFERENTIATION AND ACTIVATION OF MACROPHAGES REQUIRE THE TIMELY REGULATION OF GENE EXPRESSION, WHICH DEPENDS ON THE INTERACTION OF A VARIETY OF FACTORS, INCLUDING TRANSCRIPTION FACTORS AND EPIGENETIC MODIFICATIONS. EPIGENETIC CHANGES ALSO GIVE MACROPHAGES THE ABILITY TO SWITCH RAPIDLY BETWEEN CELLULAR PROGRAMS, INDICATING THE ABILITY OF EPIGENETIC MECHANISMS TO AFFECT PHENOTYPE PLASTICITY. IN THIS REVIEW, WE FOCUS ON KEY EPIGENETIC EVENTS ASSOCIATED WITH MACROPHAGE FATE, HIGHLIGHTING EVENTS RELATED TO THE MAINTENANCE OF TISSUE HOMEOSTASIS, RESPONSES TO DIFFERENT STIMULI AND THE FORMATION OF INNATE IMMUNE MEMORY. FURTHER UNDERSTANDING OF THE EPIGENETIC REGULATION OF MACROPHAGES WILL BE HELPFUL FOR MAINTAINING TISSUE INTEGRITY, PREVENTING CHRONIC INFLAMMATORY DISEASES AND DEVELOPING THERAPIES TO ENHANCE HOST DEFENSE. 2020 10 911 17 CHRONIC EXPOSURE TO TNF REPROGRAMS CELL SIGNALING PATHWAYS IN FIBROBLAST-LIKE SYNOVIOCYTES BY ESTABLISHING LONG-TERM INFLAMMATORY MEMORY. FIBROBLAST-LIKE SYNOVIOCYTES (FLS) PLAY A CRITICAL ROLE IN THE PATHOGENESIS OF RHEUMATOID ARTHRITIS (RA). CHRONIC INFLAMMATION INDUCES TRANSCRIPTOMIC AND EPIGENETIC MODIFICATIONS THAT IMPARTS A PERSISTENT CATABOLIC PHENOTYPE TO THE FLS, DESPITE THEIR DISSOCIATION FROM THE INFLAMMATORY ENVIRONMENT. WE ANALYZED HIGH THROUGHPUT GENE EXPRESSION AND CHROMATIN ACCESSIBILITY DATA FROM HUMAN AND MOUSE FLS FROM OUR AND OTHER STUDIES AVAILABLE ON PUBLIC REPOSITORIES, WITH THE GOAL OF IDENTIFYING THE PERSISTENTLY REPROGRAMMED SIGNALING PATHWAYS DRIVEN BY CHRONIC INFLAMMATION. WE FOUND THAT THE GENE EXPRESSION CHANGES INDUCED BY SHORT-TERM TUMOR NECROSIS FACTOR-ALPHA (TNF) TREATMENT WERE LARGELY SUSTAINED IN THE FLS EXPOSED TO CHRONIC INFLAMMATION. THESE CHANGES THAT INCLUDED BOTH ACTIVATION AND REPRESSION OF GENE EXPRESSION, WERE ACCOMPANIED BY THE REMODELING OF CHROMATIN ACCESSIBILITY. THE SUSTAINED ACTIVATED GENES (SAGS) INCLUDED ESTABLISHED PRO-INFLAMMATORY SIGNALING COMPONENTS KNOWN TO ACT AT MULTIPLE LEVELS OF NF-KAPPAB, STAT AND AP-1 SIGNALING CASCADES. INTERESTINGLY, THE SUSTAINED REPRESSED GENES (SRGS) INCLUDED CRITICAL MEDIATORS AND TARGETS OF THE BMP SIGNALING PATHWAY. WE THUS IDENTIFIED SUSTAINED REPRESSION OF BMP SIGNALING AS A UNIQUE CONSTITUENT OF THE LONG-TERM INFLAMMATORY MEMORY INDUCED BY CHRONIC INFLAMMATION. WE POSTULATE THAT SIMULTANEOUS TARGETING OF THESE ACTIVATED AND REPRESSED SIGNALING PATHWAYS MAY BE NECESSARY TO COMBAT RA PERSISTENCE. 2020 11 5932 26 TARGETING EPIGENETIC REGULATORS FOR INFLAMMATION: MECHANISMS AND INTERVENTION THERAPY. EMERGING EVIDENCE INDICATES THAT RESOLUTION OF INFLAMMATION IS A CRITICAL AND DYNAMIC ENDOGENOUS PROCESS FOR HOST TISSUES DEFENDING AGAINST EXTERNAL INVASIVE PATHOGENS OR INTERNAL TISSUE INJURY. IT HAS LONG BEEN KNOWN THAT AUTOIMMUNE DISEASES AND CHRONIC INFLAMMATORY DISORDERS ARE CHARACTERIZED BY DYSREGULATED IMMUNE RESPONSES, LEADING TO EXCESSIVE AND UNCONTROL TISSUE INFLAMMATION. THE DYSREGULATION OF EPIGENETIC ALTERATIONS INCLUDING DNA METHYLATION, POSTTRANSLATIONAL MODIFICATIONS TO HISTONE PROTEINS, AND NONCODING RNA EXPRESSION HAS BEEN IMPLICATED IN A HOST OF INFLAMMATORY DISORDERS AND THE IMMUNE SYSTEM. THE INFLAMMATORY RESPONSE IS CONSIDERED AS A CRITICAL TRIGGER OF EPIGENETIC ALTERATIONS THAT IN TURN INTERCEDE INFLAMMATORY ACTIONS. THUS, UNDERSTANDING THE MOLECULAR MECHANISM THAT DICTATES THE OUTCOME OF TARGETING EPIGENETIC REGULATORS FOR INFLAMMATORY DISEASE IS REQUIRED FOR INFLAMMATION RESOLUTION. IN THIS ARTICLE, WE ELUCIDATE THE CRITICAL ROLE OF THE NUCLEAR FACTOR-KAPPAB SIGNALING PATHWAY, JAK/STAT SIGNALING PATHWAY, AND THE NLRP3 INFLAMMASOME IN CHRONIC INFLAMMATORY DISEASES. AND WE FORMULATE THE RELATIONSHIP BETWEEN INFLAMMATION, CORONAVIRUS DISEASE 2019, AND HUMAN CANCERS. ADDITIONALLY, WE REVIEW THE MECHANISM OF EPIGENETIC MODIFICATIONS INVOLVED IN INFLAMMATION AND INNATE IMMUNE CELLS. ALL THAT MATTERS IS THAT WE PROPOSE AND DISCUSS THE REJUVENATION POTENTIAL OF INTERVENTIONS THAT TARGET EPIGENETIC REGULATORS AND REGULATORY MECHANISMS FOR CHRONIC INFLAMMATION-ASSOCIATED DISEASES TO IMPROVE THERAPEUTIC OUTCOMES. 2022 12 3379 19 HIV LATENCY AND THE NONCODING RNA THERAPEUTIC LANDSCAPE. THE HUMAN IMMUNODEFICIENCY VIRUS (HIV) BELONGS TO THE SUBFAMILY OF LENTIVIRUSES THAT ARE CHARACTERIZED BY LONG INCUBATION PERIODS AND CHRONIC, PERSISTENT INFECTION. THE VIRUS INTEGRATES INTO THE GENOME OF INFECTED CD4+ CELLS AND, IN A SUBPOPULATION OF CELLS, ADOPTS A TRANSCRIPTIONALLY SILENT STATE, A PROCESS REFERRED TO A VIRAL LATENCY. THIS PROPERTY MAKES IT EXCEEDINGLY DIFFICULT TO THERAPEUTICALLY TARGET THE VIRUS AND ERADICATE INFECTION. IF LEFT UNTREATED, THE INEXORABLE DEMISE OF THE INFECTED INDIVIDUAL'S IMMUNE SYSTEM ENSUES, A CAUSAL RESULT OF ACQUIRED IMMUNODEFICIENCY SYNDROME (AIDS). LATENTLY INFECTED CELLS PROVIDE A RESERVOIR THAT MAINTAINS VIRAL INFECTION INDEFINITELY. IN THIS CHAPTER WE EXPLORE THE ROLE OF NONCODING RNAS IN HIV INFECTION AND IN THE ESTABLISHMENT AND MAINTENANCE OF VIRAL LATENCY. BOTH SHORT AND LONG NONCODING RNAS ARE ENDOGENOUS MODULATORS OF EPIGENETIC REGULATION IN HUMAN CELLS AND PLAY AN ACTIVE ROLE IN GENE EXPRESSION. LASTLY, WE EXPLORE THERAPEUTIC MODALITIES BASED ON EXPRESSED RNAS THAT ARE CAPABLE OF COUNTERING INFECTION, TRANSCRIPTIONALLY REGULATING THE VIRUS, AND SUPPRESSING OR ACTIVATING THE LATENT STATE. 2015 13 2055 21 EPIGENETIC CONTROL DURING LYMPHOID DEVELOPMENT AND IMMUNE RESPONSES: ABERRANT REGULATION, VIRUSES, AND CANCER. METHYLATION OF CYTOSINES CONTROLS A NUMBER OF BIOLOGIC PROCESSES SUCH AS IMPRINTING AND X CHROMOSOMAL INACTIVATION. DNA HYPERMETHYLATION IS CLOSELY ASSOCIATED WITH TRANSCRIPTIONAL SILENCING, WHILE DNA HYPOMETHYLATION IS ASSOCIATED WITH TRANSCRIPTIONAL ACTIVATION. HYPOACETYLATION OF HISTONES LEADS TO COMPACT CHROMATIN WITH REDUCED ACCESSIBILITY TO THE TRANSCRIPTIONAL MACHINERY. METHYL-CPG BINDING PROTEINS CAN RECRUIT COREPRESSORS AND HISTONE DEACETYLASES; THUS, THE INTERPLAY BETWEEN THESE EPIGENETIC MECHANISMS REGULATES GENE ACTIVATION. METHYLATION HAS BEEN IMPLICATED AS AN IMPORTANT MECHANISM DURING IMMUNE DEVELOPMENT, CONTROLLING VDJ RECOMBINATION, LINEAGE-SPECIFIC EXPRESSION OF CELL SURFACE ANTIGENS, AND TRANSCRIPTIONAL REGULATION OF CYTOKINE GENES DURING IMMUNE RESPONSES. ABERRATIONS IN EPIGENETIC MACHINERY, EITHER BY GENETIC MUTATIONS OR BY SOMATIC CHANGES SUCH AS VIRAL INFECTIONS, ARE ASSOCIATED WITH EARLY ALTERATIONS IN CHRONIC DISEASES SUCH AS IMMUNODEFICIENCY AND CANCER. 2003 14 1479 17 DIVERSE TARGETS OF THE TRANSCRIPTION FACTOR STAT3 CONTRIBUTE TO T CELL PATHOGENICITY AND HOMEOSTASIS. STAT3, AN ESSENTIAL TRANSCRIPTION FACTOR WITH PLEIOTROPIC FUNCTIONS, PLAYS CRITICAL ROLES IN THE PATHOGENESIS OF AUTOIMMUNITY. DESPITE RECENT DATA LINKING STAT3 WITH INFLAMMATORY BOWEL DISEASE, EXACTLY HOW IT CONTRIBUTES TO CHRONIC INTESTINAL INFLAMMATION IS NOT KNOWN. USING A T CELL TRANSFER MODEL OF COLITIS, WE FOUND THAT STAT3 EXPRESSION IN T CELLS WAS ESSENTIAL FOR THE INDUCTION OF BOTH COLITIS AND SYSTEMIC INFLAMMATION. STAT3 WAS CRITICAL IN MODULATING THE BALANCE OF T HELPER 17 (TH17) AND REGULATORY T (TREG) CELLS, AS WELL AS IN PROMOTING CD4(+) T CELL PROLIFERATION. WE USED CHROMATIN IMMUNOPRECIPITATION AND MASSIVE PARALLEL SEQUENCING (CHIP-SEQ) TO DEFINE THE GENOME-WIDE TARGETS OF STAT3 IN CD4(+) T CELLS. WE FOUND THAT STAT3 BOUND TO MULTIPLE GENES INVOLVED IN TH17 CELL DIFFERENTIATION, CELL ACTIVATION, PROLIFERATION, AND SURVIVAL, REGULATING BOTH EXPRESSION AND EPIGENETIC MODIFICATIONS. THUS, STAT3 ORCHESTRATES MULTIPLE CRITICAL ASPECTS OF T CELL FUNCTION IN INFLAMMATION AND HOMEOSTASIS. 2010 15 3703 17 INFLAMMATORY SIGNALLING AS MEDIATOR OF EPIGENETIC MODULATION IN TISSUE-SPECIFIC CHRONIC INFLAMMATION. RECENT SUCCESSES OF THERAPEUTIC INTERVENTION IN CHRONIC INFLAMMATORY DISEASES USING EPIGENETIC MODIFIERS SUCH AS HISTONE DEACETYLASE INHIBITORS AND INHIBITORS OF DNA METHYLATION SUGGEST THAT EPIGENETIC REPROGRAMMING PLAYS A ROLE IN THE AETIOLOGY OF THESE DISEASES. THE EPIGENETIC SIGNATURE OF A GIVEN IMMUNE CELL IS REFLECTED IN THE HISTORY OF MODIFICATIONS FROM DIFFERENT SIGNALS THE CELL HAS BEEN SUBJECTED TO DURING DIFFERENTIATION. LIKE OTHER CELLS, DIFFERENTIATING IMMUNE CELLS ARE DEPENDENT ON A COMPLEX COMBINATION OF INTER- AND INTRACELL SIGNALLING AS WELL AS TRANSCRIPTION MACHINERIES TO MODULATE THEIR EPIGENOMES IN ORDER TO MEDIATE DIFFERENTIATION. DESPITE EXTENSIVE RESEARCH INTO THESE PROCESSES, THE LINK BETWEEN CELLULAR SIGNALLING AND EPIGENETIC MODULATION REMAINS POORLY UNDERSTOOD. HERE, WE REVIEW RECENT PROGRESS AND DISCUSS KEY FACTORS DRIVING EPIGENETIC MODULATION IN CHRONIC INFLAMMATION. 2009 16 6365 16 THE ROLE OF METABOLIC DYSFUNCTION IN T-CELL EXHAUSTION DURING CHRONIC VIRAL INFECTION. T CELLS ARE IMPORTANT COMPONENTS OF ADAPTIVE IMMUNITY THAT PROTECT THE HOST AGAINST INVADING PATHOGENS DURING INFECTION. UPON RECOGNIZING THE ACTIVATION SIGNALS, NAIVE AND/OR MEMORY T CELLS WILL INITIATE CLONAL EXPANSION, TRIGGER DIFFERENTIATION INTO EFFECTOR POPULATIONS AND TRAFFIC TO THE INFLAMED SITES TO ELIMINATE PATHOGENS. HOWEVER, IN CHRONIC VIRAL INFECTIONS, SUCH AS THOSE CAUSED BY HUMAN IMMUNODEFICIENCY VIRUS (HIV), HEPATITIS B AND C (HBV AND HCV), T CELLS EXHIBIT IMPAIRED FUNCTION AND BECOME DIFFICULT TO CLEAR PATHOGENS IN A STATE KNOWN AS T-CELL EXHAUSTION. THE ACTIVATION AND FUNCTION PERSISTENCE OF T CELLS DEMAND FOR DYNAMIC CHANGES IN CELLULAR METABOLISM TO MEET THEIR BIOENERGETIC AND BIOSYNTHETIC DEMANDS, ESPECIALLY THE AUGMENTATION OF AEROBIC GLYCOLYSIS, WHICH NOT ONLY PROVIDE EFFICIENT ENERGY GENERATION, BUT ALSO FUEL MULTIPLE BIOCHEMICAL INTERMEDIATES THAT ARE ESSENTIAL FOR NUCLEOTIDE, AMINO ACID, FATTY ACID SYNTHESIS AND MITOCHONDRIA FUNCTION. CHANGES IN CELLULAR METABOLISM ALSO AFFECT THE FUNCTION OF EFFECTORS T CELLS THROUGH MODIFYING EPIGENETIC SIGNATURES. IT IS WIDELY ACCEPTED THAT THE DYSFUNCTION OF T CELL METABOLISM CONTRIBUTES GREATLY TO T-CELL EXHAUSTION. HERE, WE REVIEWED RECENT FINDINGS ON T CELLS METABOLISM UNDER CHRONIC VIRAL INFECTION, SEEKING TO REVEAL THE ROLE OF METABOLIC DYSFUNCTION PLAYED IN T-CELL EXHAUSTION. 2022 17 3436 16 HYPERGLYCEMIC MEMORY OF INNATE IMMUNE CELLS PROMOTES IN VITRO PROINFLAMMATORY RESPONSES OF HUMAN MONOCYTES AND MURINE MACROPHAGES. IT HAS BEEN WELL ESTABLISHED THAT THE PRESENCE OF DIABETES IS ACCOMPANIED BY A CHRONIC INFLAMMATORY STATE PROMOTING VARIOUS DIABETES-ASSOCIATED COMPLICATIONS. ONE POTENTIAL DRIVER OF THIS ENHANCED INFLAMMATORY STATE IN PATIENTS WITH DIABETES IS HYPERGLYCEMIA. EVEN AFTER BLOOD GLUCOSE CONTROL IS ACHIEVED, DIABETES-ASSOCIATED COMPLICATIONS PERSIST, SUGGESTING THE PRESENCE OF A "HYPERGLYCEMIC MEMORY." INNATE IMMUNE CELLS, CRITICALLY INVOLVED IN VARIOUS COMPLICATIONS ASSOCIATED WITH DIABETES, CAN BUILD NONSPECIFIC, IMMUNOLOGICAL MEMORY (TRAINED IMMUNITY) VIA EPIGENETIC REGULATION. WE EXAMINE THE POTENTIAL INVOLVEMENT OF HYPERGLYCEMIA-INDUCED TRAINED IMMUNITY IN PROMOTING INFLAMMATION. OUR RESULTS SHOW THAT HYPERGLYCEMIA INDUCES A TRAINED PHENOTYPE IN VIVO IN MICE AND IN VITRO IN HUMAN MONOCYTES, REPRESENTATIVE BY AN INCREASED TNF-ALPHA SECRETION AFTER EX VIVO STIMULATION WITH LPS. THESE EFFECTS WERE LARGELY MEDIATED BY EPIGENETIC CHANGES CONTROLLED BY THE MIXED LINEAGE LEUKEMIA (MLL) FAMILY BECAUSE TREATMENT WITH THE MLL INHIBITOR MENIN-MLL DURING THE PROCESS OF TRAINED IMMUNITY ACQUISITION REPRESSED THE PROINFLAMMATORY PHENOTYPE. COLLECTIVELY, OUR RESULTS IDENTIFY A NOVEL LINK BETWEEN HYPERGLYCEMIA AND INFLAMMATION IN INNATE IMMUNE CELLS THAT MIGHT EXPLAIN THE INCREASED PROINFLAMMATORY STATE DURING DIABETES POTENTIALLY CONTRIBUTING TO THE DEVELOPMENT OF VARIOUS DIABETES-ASSOCIATED COMPLICATIONS. 2021 18 2036 17 EPIGENETIC CHANGES OF THE IMMUNE SYSTEM WITH ROLE IN TUMOR DEVELOPMENT. TUMOR DEVELOPMENT IS CLOSELY RELATED TO CHRONIC INFLAMMATION AND TO EVASION OF IMMUNE DEFENSE MECHANISMS BY NEOPLASTIC CELLS. THE MEDIATORS OF THE INFLAMMATORY PROCESS AS WELL AS PROTEINS INVOLVED IN IMMUNE RESPONSE OR IMMUNE RESPONSE EVASION CAN BE SUBJECT TO VARIOUS EPIGENETIC CHANGES SUCH AS METHYLATION, ACETYLATION, OR PHOSPHORYLATION. SOME OF THESE, SUCH AS CYTOKINE SUPPRESSORS, ARE UNDERGOING REPRESSION THROUGH EPIGENETIC CHANGES, AND OTHERS SUCH AS CYTOKINES OR CHEMOKINES ARE UNDERGOING ACTIVATION THROUGH EPIGENETIC CHANGES, BOTH MODIFICATIONS HAVING AS A RESULT TUMOR PROGRESSION. THE ACTIVATING CHANGES CAN AFFECT THE RECEPTOR MOLECULES INVOLVED IN IMMUNE RESPONSE AND THESE PROMOTE INFLAMMATION AND SUBSEQUENTLY TUMOR DEVELOPMENT WHILE THE INACTIVATING CHANGES SEEM TO BE RELATED TO THE TUMOR REGRESSION PROCESS. THE PROTEINS INVOLVED IN ANTIGEN PRESENTATION, AND, THEREFORE IN IMMUNE RESPONSE ESCAPE, SUCH AS CLASSICAL HLA PROTEINS AND RELATED APM (ANTIGEN PRESENTATION MACHINERY) WITH THEIR EPIGENETIC CHANGES CONTRIBUTE TO THE TUMOR DEVELOPMENT PROCESS, EITHER TO TUMOR PROGRESSION OR REGRESSION, DEPENDING ON THE IMMUNE EFFECTOR CELLS THAT ARE IN PLAY. 2018 19 1232 24 CROSSTALK BETWEEN INFLAMMATORY SIGNALING AND METHYLATION IN CANCER. INFLAMMATION IS AN INTRICATE IMMUNE RESPONSE AGAINST INFECTION AND TISSUE DAMAGE. WHILE THE INITIAL IMMUNE RESPONSE IS IMPORTANT FOR PREVENTING TUMORIGENESIS, CHRONIC INFLAMMATION IS IMPLICATED IN CANCER PATHOGENESIS. IT HAS BEEN LINKED TO VARIOUS STAGES OF TUMOR DEVELOPMENT INCLUDING TRANSFORMATION, PROLIFERATION, ANGIOGENESIS, AND METASTASIS. IMMUNE CELLS, THROUGH THE PRODUCTION OF INFLAMMATORY MEDIATORS SUCH AS CYTOKINES, CHEMOKINES, TRANSFORMING GROWTH FACTORS, AND ADHESION MOLECULES CONTRIBUTE TO THE SURVIVAL, GROWTH, AND PROGRESSION OF THE TUMOR IN ITS MICROENVIRONMENT. THE ABERRANT EXPRESSION AND SECRETION OF PRO-INFLAMMATORY AND GROWTH FACTORS BY THE TUMOR CELLS RESULT IN THE RECRUITMENT OF IMMUNE CELLS, THUS CREATING A MUTUAL CROSSTALK. THE RECIPROCAL SIGNALING BETWEEN THE TUMOR CELLS AND THE IMMUNE CELLS CREATES AND MAINTAINS A SUCCESSFUL TUMOR NICHE. MANY INFLAMMATORY FACTORS ARE REGULATED BY EPIGENETIC MECHANISMS INCLUDING DNA METHYLATION AND HISTONE MODIFICATIONS. IN PARTICULAR, DNA AND HISTONE METHYLATION ARE CRUCIAL FORMS OF TRANSCRIPTIONAL REGULATION AND ABERRANT METHYLATION HAS BEEN ASSOCIATED WITH DEREGULATED GENE EXPRESSION IN ONCOGENESIS. SUCH DEREGULATIONS HAVE BEEN REPORTED IN BOTH SOLID TUMORS AND HEMATOLOGICAL MALIGNANCIES. WITH TECHNOLOGICAL ADVANCEMENTS TO STUDY GENOME-WIDE EPIGENETIC LANDSCAPES, IT IS NOW POSSIBLE TO IDENTIFY MOLECULAR MECHANISMS UNDERLYING ALTERED INFLAMMATORY PROFILES IN CANCER. IN THIS REVIEW, WE DISCUSS THE ROLE OF DNA AND HISTONE METHYLATION IN REGULATION OF INFLAMMATORY PATHWAYS IN HUMAN CANCERS AND REVIEW THE MERITS AND CHALLENGES OF TARGETING INFLAMMATORY MEDIATORS AS WELL AS EPIGENETIC REGULATORS IN CANCER. 2021 20 4200 22 METABOLIC REQUIREMENTS OF TH17 CELLS AND OF B CELLS: REGULATION AND DEFECTS IN HEALTH AND IN INFLAMMATORY DISEASES. THE IMMUNE SYSTEM PROTECTS FROM INFECTIONS AND CANCER THROUGH COMPLEX CELLULAR NETWORKS. FOR THIS PURPOSE, IMMUNE CELLS REQUIRE WELL-DEVELOPED MECHANISMS OF ENERGY GENERATION. HOWEVER, THE IMMUNE SYSTEM ITSELF CAN ALSO CAUSE DISEASES WHEN DEFECTIVE REGULATION RESULTS IN THE EMERGENCE OF AUTOREACTIVE LYMPHOCYTES. RECENT STUDIES PROVIDE INSIGHTS INTO HOW DIFFERENTIAL PATTERNS OF IMMUNE CELL RESPONSES ARE ASSOCIATED WITH SELECTIVE METABOLIC PATHWAYS. THIS REVIEW WILL EXAMINE THE CHANGING METABOLIC REQUIREMENTS OF TH17 CELLS AND OF B CELLS AT DIFFERENT STAGES OF THEIR DEVELOPMENT AND ACTIVATION. BOTH CELLS PROVIDE PROTECTION BUT CAN ALSO MEDIATE DISEASES THROUGH THE PRODUCTION OF AUTOANTIBODIES AND THE PRODUCTION OF PROINFLAMMATORY MEDIATORS. IN HEALTH, B CELLS PRODUCE ANTIBODIES AND CYTOKINES AND PRESENT ANTIGENS TO T CELLS TO MOUNT SPECIFIC IMMUNITY. TH17 CELLS, ON THE OTHER HAND, PROVIDE PROTECTION AGAINST EXTRA CELLULAR PATHOGENS AT MUCOSAL SURFACES BUT CAN ALSO DRIVE CHRONIC INFLAMMATION. THE LATTER CELLS CAN ALSO PROMOTE THE DIFFERENTIATION OF B CELLS TO PLASMA CELLS TO PRODUCE MORE AUTOANTIBODIES. METABOLISM-REGULATED CHECKPOINTS AT DIFFERENT STAGES OF THEIR DEVELOPMENT ENSURE THE THAT SELF-REACTIVE B CELLS CLONES AND NEEDLESS PRODUCTION OF INTERLEUKIN (IL-)17 ARE LIMITED. THE METABOLIC REGULATION OF THE TWO CELL TYPES HAS SOME SIMILARITIES, E.G. THE UTILITY OF HYPOXIA INDUCED FACTOR (HIF)1ALPHA DURING LOW OXYGEN TENSION, TO PREVENT AUTOIMMUNITY AND REGULATE INFLAMMATION. THERE ARE ALSO CLEAR DIFFERENCES, AS TH17 CELLS ONLY ARE VULNERABLE TO THE LACK OF CERTAIN AMINO ACIDS. B CELLS, UNLIKE TH17 CELLS, ARE ALSO DEPENDENT OF MECHANISTIC TARGET OF RAPAMYCIN 2 (MTORC2) TO FUNCTION. SIGNIFICANT KNOWLEDGE HAS RECENTLY BEEN GAINED, PARTICULARLY ON TH17 CELLS, ON HOW METABOLISM REGULATES THESE CELLS THROUGH INFLUENCING THEIR EPIGENOME. METABOLIC DYSREGULATION OF TH17 CELLS AND B CELLS CAN LEAD TO CHRONIC INFLAMMATION. DISEASE ASSOCIATED ALTERATIONS IN THE GENOME CAN, IN ADDITION, CAUSE DYSREGULATION TO METABOLISM AND, THEREBY, RESULT IN EPIGENETIC ALTERATIONS IN THESE CELLS. RECENT STUDIES HIGHLIGHT HOW PATHOLOGY CAN RESULT FROM THE COOPERATION BETWEEN THE TWO CELL TYPES BUT ONLY FEW HAVE SO FAR ADDRESSED THE KEY METABOLIC ALTERATIONS IN SUCH SETTINGS. KNOWLEDGE OF THE IMPACT OF METABOLIC DYSFUNCTION ON CHRONIC INFLAMMATION AND PATHOLOGY CAN REVEAL NOVEL THERAPEUTIC TARGETS TO TREAT SUCH DISEASES. 2022