1 6608 150 TYPE I INTERFERONS AS KEY PLAYERS IN PANCREATIC BETA-CELL DYSFUNCTION IN TYPE 1 DIABETES. TYPE 1 DIABETES (T1D) IS A CHRONIC AUTOIMMUNE DISEASE CHARACTERIZED BY PANCREATIC ISLET INFLAMMATION (INSULITIS) AND SPECIFIC PANCREATIC BETA-CELL DESTRUCTION BY AN IMMUNE ATTACK. ALTHOUGH THE PRECISE UNDERLYING MECHANISMS LEADING TO THE AUTOIMMUNE ASSAULT REMAIN POORLY UNDERSTOOD, IT IS WELL ACCEPTED THAT INSULITIS TAKES PLACE IN THE CONTEXT OF A CONFLICTING DIALOGUE BETWEEN PANCREATIC BETA-CELLS AND THE IMMUNE CELLS. MOREOVER, BOTH HOST GENETIC BACKGROUND (I.E., CANDIDATE GENES) AND ENVIRONMENTAL FACTORS (E.G., VIRAL INFECTIONS) CONTRIBUTE TO THIS INADEQUATE DIALOGUE. ACCUMULATING EVIDENCE INDICATES THAT TYPE I INTERFERONS (IFNS), CYTOKINES THAT ARE CRUCIAL FOR BOTH INNATE AND ADAPTIVE IMMUNE RESPONSES, ACT AS KEY LINKS BETWEEN ENVIRONMENTAL AND GENETIC RISK FACTORS IN THE DEVELOPMENT OF T1D. THIS CHAPTER SUMMARIZES SOME RELEVANT PATHWAYS INVOLVED IN BETA-CELL DYSFUNCTION AND DEATH, AND BRIEFLY REVIEWS HOW ENTEROVIRAL INFECTIONS AND GENETIC SUSCEPTIBILITY CAN IMPACT INSULITIS. MOREOVER, WE PRESENT THE CURRENT EVIDENCE SHOWING THAT, IN BETA-CELLS, TYPE I IFN SIGNALING PATHWAY ACTIVATION LEADS TO SEVERAL OUTCOMES, SUCH AS LONG-LASTING MAJOR HISTOCOMPATIBILITY COMPLEX (MHC) CLASS I HYPEREXPRESSION, ENDOPLASMIC RETICULUM (ER) STRESS, EPIGENETIC CHANGES, AND INDUCTION OF POSTTRANSCRIPTIONAL AS WELL AS POSTTRANSLATIONAL MODIFICATIONS. MHC CLASS I OVEREXPRESSION, WHEN COMBINED WITH ER STRESS AND POSTTRANSCRIPTIONAL/POSTTRANSLATIONAL MODIFICATIONS, MIGHT LEAD TO SUSTAINED NEOANTIGEN PRESENTATION TO IMMUNE SYSTEM AND BETA-CELL APOPTOSIS. THIS KNOWLEDGE SUPPORTS THE CONCEPT THAT TYPE I IFNS ARE IMPLICATED IN THE EARLY STAGES OF T1D PATHOGENESIS. FINALLY, WE HIGHLIGHT THE PROMISING THERAPEUTIC AVENUES FOR T1D TREATMENT DIRECTED AT TYPE I IFN SIGNALING PATHWAY. 2021 2 6605 57 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 3 6200 38 THE INFLAMMATORY EFFECT OF EPIGENETIC FACTORS AND MODIFICATIONS IN TYPE 2 DIABETES. INFLAMMATION HAS A CENTRAL ROLE IN THE ETIOLOGY OF TYPE 2 DIABETES (T2D) AND ITS COMPLICATIONS. BOTH GENETIC AND EPIGENETIC FACTORS HAVE BEEN IMPLICATED IN THE DEVELOPMENT OF T2D-ASSOCIATED INFLAMMATION. EPIGENETIC MECHANISMS REGULATE THE FUNCTION OF SEVERAL COMPONENTS OF THE IMMUNE SYSTEM. DIABETIC CONDITIONS TRIGGER ABERRANT EPIGENETIC ALTERATIONS THAT CONTRIBUTE TO THE PROGRESSION OF INSULIN RESISTANCE AND BETA-CELL DYSFUNCTION BY INDUCTION OF INFLAMMATORY RESPONSES. THUS, TARGETING EPIGENETIC FACTORS AND MODIFICATIONS, AS ONE OF THE UNDERLYING CAUSES OF INFLAMMATION, COULD LEAD TO THE DEVELOPMENT OF NOVEL IMMUNE-BASED STRATEGIES FOR THE TREATMENT OF T2D. THE AIM OF THIS REVIEW IS TO PROVIDE AN OVERVIEW OF THE EPIGENETIC MECHANISMS INVOLVED IN THE PROPAGATION AND PERPETUATION OF CHRONIC INFLAMMATION IN T2D. WE ALSO DISCUSS THE POSSIBLE ANTI-INFLAMMATORY APPROACHES THAT TARGET EPIGENETIC FACTORS FOR THE TREATMENT OF T2D. 2020 4 1933 43 ENVIRONMENTAL FACTORS ASSOCIATED WITH TYPE 1 DIABETES. TYPE 1 DIABETES (T1D) IS A CHRONIC AUTOIMMUNE DISORDER THAT LEADS TO PROGRESSIVE PANCREATIC SS-CELL DESTRUCTION AND CULMINATES IN ABSOLUTE INSULIN DEFICIENCY AND STABLE HYPERGLYCAEMIA. IT IS VERY LIKELY THAT ENVIRONMENTAL FACTORS PLAY A ROLE IN TRIGGERING ISLET AUTOIMMUNITY. KNOWING WHETHER THEY HAVE TRUE RELEVANCE IN FAVORING T1D DEVELOPMENT IS ESSENTIAL FOR THE EFFECTIVE PREVENTION OF THE DISEASE. MOREOVER, PREVENTION COULD BE OBTAINED DIRECTLY INTERFERING WITH THE DEVELOPMENT OF AUTOIMMUNITY THROUGH AUTOANTIGEN-BASED IMMUNOTHERAPY. IN THIS NARRATIVE REVIEW, THE PRESENT POSSIBILITIES FOR THE PREVENTION OF T1D ARE DISCUSSED. PRESENTLY, INTERVENTIONS TO PREVENT T1D ARE GENERALLY MADE IN SUBJECTS IN WHOM AUTOIMMUNITY IS ALREADY ACTIVATED AND AUTOANTIBODIES AGAINST PANCREATIC CELL COMPONENTS HAVE BEEN DETECTED. PRACTICALLY, THE GOAL IS TO SLOW DOWN THE IMMUNE PROCESS BY PRESERVING THE NORMAL STRUCTURE OF THE PANCREATIC ISLETS FOR AS LONG AS POSSIBLE. UNFORTUNATELY, PRESENTLY METHODS ABLE TO AVOID THE RISK OF AUTOIMMUNE ACTIVATION ARE NOT AVAILABLE. ELIMINATION OF ENVIRONMENTAL FACTORS ASSOCIATED WITH T1D DEVELOPMENT, REVERSE OF EPIGENETIC MODIFICATIONS THAT FAVOR INITIATION OF AUTOIMMUNITY IN SUBJECTS EXPOSED TO ENVIRONMENTAL FACTORS AND USE OF AUTOANTIGEN-BASED IMMUNOTHERAPY ARE POSSIBLE APPROACHES, ALTHOUGH FOR ALL THESE MEASURES DEFINITIVE CONCLUSIONS CANNOT BE DRAWN. HOWEVER, THE ROAD IS TRACED AND IT IS POSSIBLE THAT IN A NOT SO DISTANT FUTURE AN EFFECTIVE PREVENTION OF THE DISEASE TO ALL THE SUBJECTS AT RISK CAN BE OFFERED. 2019 5 6604 43 TYPE 1 DIABETES AND VIRAL INFECTIONS: WHAT IS THE RELATIONSHIP? TYPE 1 DIABETES (T1D) IS THE MOST COMMON CHRONIC METABOLIC DISORDER IN CHILDREN. EPIGENETIC AND ENVIRONMENTAL FACTORS CAPABLE OF ALTERING THE PENETRANCE OF MAJOR SUSCEPTIBILITY GENES OR CAPABLE OF INCREASING THE PENETRANCE OF LOW-RISK GENES ARE CURRENTLY THOUGHT TO PLAY A ROLE IN TRIGGERING AUTOIMMUNITY AND T1D DEVELOPMENT. THIS PAPER DISCUSSES THE CURRENT KNOWLEDGE OF THE ROLE OF VIRUSES IN T1D. MOST STUDIES THAT HAVE EVALUATED THE POTENTIAL ASSOCIATION BETWEEN VIRAL INFECTIONS AND T1D HAVE INDICATED THAT IT IS HIGHLY LIKELY THAT SOME OF THESE INFECTIOUS AGENTS PLAY A ROLE IN T1D DEVELOPMENT. HOWEVER, MOST T1D CASES ARE IMMUNE-MEDIATED, AND IT IS SUPPOSED THAT THE INITIAL VIRAL INFECTION IS CAPABLE OF CREATING, IN GENETICALLY PREDISPOSED SUBJECTS, A PARTICULAR CONDITION IN WHICH CHRONIC LOCAL INFLAMMATION OCCURS THROUGH THE PERSISTENCE OF THE INFECTING VIRUS IN PANCREATIC TISSUE AND THE ACTIVATION OF AUTOIMMUNITY BY MEANS OF MOLECULAR MIMICRY, BYSTANDER ACTIVATION, OR BOTH. THEORETICALLY, THIS KNOWLEDGE COULD LEAD TO POSSIBLE PROPHYLAXIS AND THERAPY FOR T1D. FURTHER STUDIES DEVOTED TO EVALUATING WHICH INFECTIOUS AGENTS ARE LINKED TO T1D AND WHICH IMMUNE MECHANISMS INDUCE OR PROTECT AGAINST THE DISEASE ARE NEEDED BEFORE ADEQUATE PROPHYLACTIC AND THERAPEUTIC MEASURES CAN BE DEVELOPED. 2017 6 4263 33 MICRO(RNA) MANAGEMENT AND MISMANAGEMENT OF THE ISLET. PANCREATIC BETA-CELLS LOCATED WITHIN THE ISLETS OF LANGERHANS PLAY A CENTRAL ROLE IN METABOLIC CONTROL. THE MAIN FUNCTION OF THESE CELLS IS TO PRODUCE AND SECRETE INSULIN IN RESPONSE TO A RISE IN CIRCULATING LEVELS OF GLUCOSE AND OTHER NUTRIENTS. THE RELEASE OF INSUFFICIENT INSULIN TO COVER THE ORGANISM NEEDS RESULTS IN CHRONIC HYPERGLYCEMIA AND DIABETES DEVELOPMENT. BETA-CELLS INSURE A HIGHLY SPECIALIZED TASK AND TO EFFICIENTLY ACCOMPLISH THEIR FUNCTION THEY NEED TO EXPRESS A SPECIFIC SET OF GENES. MICRORNAS (MIRNAS) ARE SMALL NONCODING RNAS AND KEY REGULATORS OF GENE EXPRESSION. INDEED, BY PARTIALLY PAIRING TO SPECIFIC SEQUENCES IN THE 3' UNTRANSLATED REGIONS OF TARGET MRNAS, EACH OF THEM CAN CONTROL THE TRANSLATION OF HUNDREDS OF TRANSCRIPTS. IN THIS REVIEW, WE FOCUS ON FEW KEY MIRNAS CONTROLLING ISLET FUNCTION AND DISCUSS: THEIR DIFFERENTIAL EXPRESSION IN TYPE 2 DIABETES (T2D), THEIR REGULATION BY GENETIC AND ENVIRONMENTAL FACTORS, AND THEIR THERAPEUTIC POTENTIAL. GENETIC AND EPIGENETIC CHANGES OR PROLONGED EXPOSURE TO HYPERGLYCEMIA AND/OR HYPERLIPIDEMIA CAN AFFECT THE BETA-CELL MIRNA EXPRESSION PROFILE, RESULTING IN IMPAIRED BETA-CELL FUNCTION AND SURVIVAL LEADING TO THE DEVELOPMENT OF T2D. EXPERIMENTAL APPROACHES PERMITTING TO CORRECT THE LEVEL OF MISEXPRESSED MIRNAS HAVE BEEN SHOWN TO PREVENT OR TREAT T2D IN ANIMAL MODELS, SUGGESTING THAT THESE SMALL RNAS MAY BECOME INTERESTING THERAPEUTIC TARGETS. HOWEVER, TRANSLATION OF THESE EXPERIMENTAL FINDINGS TO THE CLINICS WILL NECESSITATE THE DEVELOPMENT OF INNOVATIVE STRATEGIES ALLOWING SAFE AND SPECIFIC DELIVERY OF COMPOUNDS MODULATING THE LEVEL OF THE RELEVANT MIRNAS TO THE BETA-CELLS. 2020 7 5932 42 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 8 2178 33 EPIGENETIC MECHANISMS OF MACROPHAGE ACTIVATION IN TYPE 2 DIABETES. THE ALARMING RISE OF OBESITY AND TYPE 2 DIABETES (T2D) HAS PUT A TREMENDOUS STRAIN ON GLOBAL HEALTHCARE SYSTEMS. OVER THE PAST DECADE EXTENSIVE RESEARCH HAS FOCUSED ON THE ROLE OF MACROPHAGES AS KEY MEDIATORS OF INFLAMMATION IN T2D. THE INFLAMMATORY ENVIRONMENT IN THE OBESE ADIPOSE TISSUE AND PANCREATIC BETA-CELL ISLETS CREATES AND PERPETUATES IMBALANCED INFLAMMATORY MACROPHAGE ACTIVATION. CONSEQUENCES OF THIS CHRONIC LOW-GRADE INFLAMMATION INCLUDE INSULIN RESISTANCE IN THE ADIPOSE TISSUE AND PANCREATIC BETA-CELL DYSFUNCTION. RECENTLY, THE EMERGING FIELD OF EPIGENETICS HAS PROVIDED NEW INSIGHTS INTO THE PATHOGENESIS OF T2D, WHILE ALSO AFFORDING POTENTIAL NEW OPPORTUNITIES FOR TREATMENT. IN MACROPHAGES, EPIGENETIC MECHANISMS ARE INCREASINGLY BEING RECOGNIZED AS CRUCIAL CONTROLLERS OF THEIR PHENOTYPE. HERE, WE FIRST DESCRIBE THE ROLE OF MACROPHAGES IN T2D. THEN WE ELABORATE ON EPIGENETIC MECHANISMS THAT REGULATE MACROPHAGE ACTIVATION, THEREBY FOCUSING ON T2D. NEXT, WE HIGHLIGHT HOW DIABETIC CONDITIONS SUCH AS HYPERLIPIDEMIA AND HYPERGLYCEMIA COULD INDUCE EPIGENETIC CHANGES THAT PROMOTE AN INFLAMMATORY MACROPHAGE PHENOTYPE. IN CONCLUSION WE DISCUSS POSSIBLE THERAPEUTIC INTERVENTIONS BY TARGETING MACROPHAGE EPIGENETICS AND SPECULATE ON FUTURE RESEARCH DIRECTIONS. 2017 9 4451 26 MOLECULAR MECHANISMS AND FUNCTIONS OF LNCRNAS IN THE INFLAMMATORY REACTION OF DIABETES MELLITUS. DIABETES IS A CHRONIC INFLAMMATORY STATE, AND SEVERAL STUDIES HAVE SHOWN THAT THE MECHANISMS OF INSULIN RESISTANCE AND ABNORMAL ISLET BETA-CELL FUNCTION IN DIABETES ARE CLOSELY RELATED TO INFLAMMATORY REACTIONS. INFLAMMATION PLAYS A CRITICAL ROLE IN DIABETIC COMPLICATIONS. LONG NONCODING RNAS (LNCRNAS), A NEW AREA OF GENOMIC RESEARCH FOR GENE REGULATION, HAVE COMPLEX BIOLOGICAL FUNCTIONS IN VARIOUS ASPECTS OF CELLULAR BIOLOGICAL ACTIVITY. RECENT STUDIES HAVE SHOWN THAT LNCRNAS ARE ASSOCIATED WITH THE REGULATION OF INFLAMMATORY RESPONSES IN VARIOUS WAYS, INCLUDING AT THE EPIGENETIC, TRANSCRIPTIONAL, AND POSTTRANSCRIPTIONAL LEVELS. THIS PAPER PRESENTS A BRIEF REVIEW OF STUDIES ON THE MECHANISMS OF LNCRNAS IN DIABETIC INFLAMMATION. THE PURPOSE OF THIS ARTICLE IS TO DETERMINE THE ROLE OF LNCRNAS IN THE PROCESS OF DIABETIC INFLAMMATION AND TO PROVIDE NEW STRATEGIES FOR THE USE OF LNCRNAS IN THE TREATMENTS FOR DIABETIC INFLAMMATION. 2021 10 1876 38 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 11 2612 41 EPIGENETICS: DECIPHERING HOW ENVIRONMENTAL FACTORS MAY MODIFY AUTOIMMUNE TYPE 1 DIABETES. TYPE 1 DIABETES (T1D) IS AN AUTOIMMUNE DISEASE THAT HAS INCREASED TWO- TO THREEFOLD OVER THE PAST HALF CENTURY BY AS YET UNKNOWN MEANS. IT IS GENERALLY ACCEPTED THAT T1D IS THE RESULT OF GENE-ENVIRONMENT INTERACTIONS, BUT SUCH RAPID INCREASES IN INCIDENCE ARE NOT EXPLAINED BY MENDELIAN INHERITANCE. THERE HAVE BEEN NUMEROUS ADVANCES IN OUR KNOWLEDGE OF THE PATHOGENESIS OF T1D. INDEED, THERE HAS BEEN A LARGE NUMBER OF GENES IDENTIFIED THAT CONTRIBUTE TO RISK FOR THIS DISEASE AND SEVERAL ENVIRONMENTAL FACTORS HAVE BEEN PROPOSED. THE COMPLEXITY OF SUCH INTERACTIONS IS YET TO BE UNDERSTOOD FOR ANY MAJOR CHRONIC DISEASE. EPIGENETIC REGULATION IS ONE WAY TO EXPLAIN THE RAPID INCREASE IN INCIDENCE AND COULD BE A CENTRAL MECHANISM BY WHICH ENVIRONMENTAL FACTORS INFLUENCE DEVELOPMENT OF DIABETES. HOWEVER, THERE IS REMARKABLY LITTLE KNOWN ABOUT THE CONTRIBUTION OF EPIGENETICS TO T1D PATHOGENESIS. HERE WE SPECULATE ON VARIOUS CANDIDATE PROCESSES AND MOLECULES OF THE IMMUNE AND ENDOCRINE SYSTEMS THAT COULD MODIFY RISK FOR T1D THROUGH EPIGENETIC REGULATION. 2009 12 4200 47 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 13 6255 33 THE MICROBIOTA AND EPIGENETIC REGULATION OF T HELPER 17/REGULATORY T CELLS: IN SEARCH OF A BALANCED IMMUNE SYSTEM. IMMUNE CELLS NOT ONLY AFFECT TISSUE HOMEOSTASIS AT THE SITE OF INFLAMMATION BUT ALSO EXERT SYSTEMIC EFFECTS CONTRIBUTING TO MULTIPLE CHRONIC CONDITIONS. RECENT EVIDENCE CLEARLY SUPPORTS AN ALTERED T HELPER 17/REGULATORY T CELL (TH17/TREG) BALANCE LEADING TO THE DEVELOPMENT AND PROGRESSION OF INFLAMMATORY DISEASES THAT NOT ONLY AFFECT THE GASTROINTESTINAL TRACT BUT ALSO HAVE WHOLE-BODY MANIFESTATIONS, INCLUDING INSULIN RESISTANCE. EPIGENETIC MECHANISMS ARE AMENABLE TO BOTH ENVIRONMENTAL AND CIRCULATING FACTORS AND CONTRIBUTE TO DETERMINING THE T CELL LANDSCAPE. THE RECENTLY IDENTIFIED PARTICIPATION OF THE GUT MICROBIOTA IN THE REMODELING OF THE EPIGENOME OF IMMUNE CELLS HAS TRIGGERED A PARADIGM SHIFT IN OUR UNDERSTANDING OF THE ETIOLOGY OF VARIOUS INFLAMMATORY DISEASES AND OPENED NEW PATHS TOWARD THERAPEUTIC STRATEGIES. IN THIS REVIEW, WE PROVIDE AN OVERVIEW OF THE CONTRIBUTION OF THE TH17/TREG BALANCE IN THE DEVELOPMENT AND PROGRESSION OF INFLAMMATORY BOWEL DISEASES AND METABOLIC DISEASES. WE DISCUSS THE INVOLVEMENT OF EPIGENETIC MECHANISMS IN THE REGULATION OF T CELL FUNCTION IN THE PARTICULAR CONTEXT OF DYSBIOSIS. FINALLY, WE EXAMINE THE POTENTIAL FOR NUTRITIONAL INTERVENTIONS AFFECTING THE GUT MICROBIOTA TO RESHAPE THE T CELL EPIGENOME AND ADDRESS THE INFLAMMATORY COMPONENT OF VARIOUS DISEASES. 2017 14 599 40 BETA-CELL DIFFERENTIATION STATUS IN TYPE 2 DIABETES. TYPE 2 DIABETES (T2D) AFFECTS 415 MILLION PEOPLE WORLDWIDE AND IS CHARACTERIZED BY CHRONIC HYPERGLYCAEMIA AND INSULIN RESISTANCE, PROGRESSING TO INSUFFICIENT INSULIN PRODUCTION, AS A RESULT OF BETA-CELL FAILURE. OVER TIME, CHRONIC HYPERGLYCAEMIA CAN ULTIMATELY LEAD TO LOSS OF BETA-CELL FUNCTION, LEAVING PATIENTS INSULIN-DEPENDENT. UNTIL RECENTLY THE LOSS OF BETA-CELL MASS SEEN IN T2D WAS CONSIDERED TO BE THE RESULT OF INCREASED RATES OF APOPTOSIS; HOWEVER, IT HAS BEEN PROPOSED THAT APOPTOSIS ALONE CANNOT ACCOUNT FOR THE EXTENT OF BETA-CELL MASS LOSS SEEN IN THE DISEASE, AND THAT A LOSS OF FUNCTION MAY ALSO OCCUR AS A RESULT OF CHANGES IN BETA-CELL DIFFERENTIATION STATUS. IN THE PRESENT REVIEW, WE CONSIDER CURRENT KNOWLEDGE OF DETERMINANTS OF BETA-CELL FATE IN THE CONTEXT OF UNDERSTANDING ITS RELEVANCE TO DISEASE PROCESS IN T2D, AND ALSO THE IMPACT OF A DIABETOGENIC ENVIRONMENT (HYPERGLYCAEMIA, HYPOXIA, INFLAMMATION AND DYSLIPIDAEMIA) ON THE EXPRESSION OF GENES INVOLVED IN MAINTENANCE OF BETA-CELL IDENTITY. WE DESCRIBE CURRENT KNOWLEDGE OF THE IMPACT OF THE DIABETIC MICROENVIRONMENT ON GENE REGULATORY PROCESSES SUCH ALTERNATIVE SPLICING, THE EXPRESSION OF DISALLOWED GENES AND EPIGENETIC MODIFICATIONS. ELUCIDATING THE MOLECULAR MECHANISMS THAT UNDERPIN CHANGES TO BETA-CELL DIFFERENTIATION STATUS AND THE CONCOMITANT BETA-CELL FAILURE OFFERS POTENTIAL TREATMENT TARGETS FOR THE FUTURE MANAGEMENT OF PATIENTS WITH T2D. 2016 15 2070 26 EPIGENETIC CONTROL OF SKIN IMMUNITY. EPIGENETICS HAS BEEN WELL UNDERSTOOD FOR ITS ROLE IN CELL DEVELOPMENT; HOWEVER, IT IS NOW KNOWN TO REGULATE MANY PROCESSES INVOLVED IN IMMUNE CELL ACTIVATION IN A VARIETY OF CELLS. THE SKIN MAINTAINS HOMEOSTASIS VIA CROSSTALK BETWEEN IMMUNE AND NON-IMMUNE CELLS. DISRUPTION OF NORMAL EPIGENETIC REGULATION IN THESE CELLS MAY ALTER THE TRANSCRIPTION OF IMMUNE-REGULATORY FACTORS AND AFFECT THE IMMUNOLOGICAL BALANCE IN THE SKIN. THIS REVIEW SUMMARIZES RECENT EVIDENCE FOR THE EPIGENETIC REGULATION OF SKIN IMMUNITY. MUCH OF WHAT IS KNOWN ABOUT EPIGENETIC INVOLVEMENT IN SKIN IMMUNITY IS ASSOCIATED WITH DNA METHYLATION. THIS REVIEW FOCUSES ON EPIGENETIC REGULATION OF HISTONE MODIFICATION AND CHROMATIN REMODELING AND DESCRIBES THEIR ROLE IN THE TRANSCRIPTIONAL REGULATION OF IMMUNE-REGULATORY FACTORS. WHILE MUCH IS STILL UNKNOWN REGARDING THE REGULATION OF SKIN IMMUNITY VIA HISTONE MODIFICATION OR CHROMATIN REMODELING, THESE PROCESSES MAY UNDERLIE THE PATHOGENESIS OF CHRONIC CUTANEOUS IMMUNE DISORDERS. 2023 16 2591 41 EPIGENETICS OF PSORIASIS. PSORIASIS IS A CHRONIC AND RECURRENT INFLAMMATORY SKIN DISEASE, INVOLVING THE RAPID PROLIFERATION AND ABNORMAL DIFFERENTIATION OF KERATINOCYTES AND ACTIVATION OF T CELLS. IT IS GENERALLY ACCEPTED THAT THE CENTRAL PATHOGENESIS OF PSORIASIS IS A T CELL-DOMINANT IMMUNE DISORDER AFFECTED BY MULTIPLE FACTORS INCLUDING GENETIC SUSCEPTIBILITY, ENVIRONMENTAL FACTORS, INNATE AND ADAPTIVE IMMUNE RESPONSES, ETC. HOWEVER, THE EXACT ETIOLOGY IS LARGELY UNKNOWN. IN RECENT YEARS, EPIGENETIC INVOLVEMENTS, SUCH AS THE DNA METHYLATION, CHROMATIN MODIFICATIONS, AND NONCODING RNA REGULATION ARE REPORTED TO BE CRITICAL FOR THE PATHOGENESIS OF PSORIASIS. HOWEVER, THE INTERPLAY BETWEEN THESE FACTORS HAS ONLY RECENTLY BEEN STARTED TO BE UNRAVELED. NOTABLY, INHIBITORS OF ENZYMES THAT WORK IN EPIGENETIC MODIFICATIONS, SUCH AS DNA METHYLTRANSFERASES AND HISTONE DEACETYLASES, ARE BEGINNING TO APPEAR IN THE CLINICAL SETTING TO RESTORE NORMAL EPIGENETIC PATTERNS (GENERALI ET AL. IN J AUTOIMMUN 83:51-61, 2017), PROVIDING NOVEL THERAPEUTIC POTENTIAL AS NOVEL TREATMENT TARGETS FOR PSORIASIS. INDEED, MEDICATIONS PREVIOUSLY USED TO TREAT AUTOIMMUNE DISEASES HAVE LATER BEEN DISCOVERED TO EXERT THEIR ACTION VIA EPIGENETIC MECHANISMS. HEREIN, WE REVIEW THE FINDINGS ON EPIGENETICS ASSOCIATED WITH PSORIASIS, AND DISCUSS FUTURE PERSPECTIVES IN THIS FIELD. 2020 17 4488 32 MONOCYTE AND HAEMATOPOIETIC PROGENITOR REPROGRAMMING AS COMMON MECHANISM UNDERLYING CHRONIC INFLAMMATORY AND CARDIOVASCULAR DISEASES. A LARGE NUMBER OF CARDIOVASCULAR EVENTS ARE NOT PREVENTED BY CURRENT THERAPEUTIC REGIMENS. IN SEARCH FOR ADDITIONAL, INNOVATIVE STRATEGIES, IMMUNE CELLS HAVE BEEN RECOGNIZED AS KEY PLAYERS CONTRIBUTING TO ATHEROSCLEROTIC PLAQUE PROGRESSION AND DESTABILIZATION. PARTICULARLY THE ROLE OF INNATE IMMUNE CELLS IS OF MAJOR INTEREST, FOLLOWING THE RECENT PARADIGM SHIFT THAT INNATE IMMUNITY, LONG CONSIDERED TO BE INCAPABLE OF LEARNING, DOES EXHIBIT IMMUNOLOGICAL MEMORY MEDIATED VIA EPIGENETIC REPROGRAMMING. COMPELLING EVIDENCE SHOWS THAT ATHEROSCLEROTIC RISK FACTORS PROMOTE IMMUNE CELL MIGRATION BY PRE-ACTIVATION OF CIRCULATING INNATE IMMUNE CELLS. INNATE IMMUNE CELL ACTIVATION VIA METABOLIC AND EPIGENETIC REPROGRAMMING PERPETUATES A SYSTEMIC LOW-GRADE INFLAMMATORY STATE IN CARDIOVASCULAR DISEASE (CVD) THAT IS ALSO COMMON IN OTHER CHRONIC INFLAMMATORY DISORDERS. THIS OPENS A NEW THERAPEUTIC AREA IN WHICH METABOLIC OR EPIGENETIC MODULATION OF INNATE IMMUNE CELLS MAY RESULT IN DECREASED SYSTEMIC CHRONIC INFLAMMATION, ALLEVIATING CVD, AND ITS CO-MORBIDITIES. 2018 18 2163 38 EPIGENETIC MECHANISMS IN DIABETIC VASCULAR COMPLICATIONS. THERE HAS BEEN A RAPID INCREASE IN THE INCIDENCE OF DIABETES AS WELL THE ASSOCIATED VASCULAR COMPLICATIONS. BOTH GENETIC AND ENVIRONMENTAL FACTORS HAVE BEEN IMPLICATED IN THESE PATHOLOGIES. INCREASING EVIDENCE SUGGESTS THAT EPIGENETIC FACTORS PLAY A KEY ROLE IN THE COMPLEX INTERPLAY BETWEEN GENES AND THE ENVIRONMENT. ACTIONS OF MAJOR PATHOLOGICAL MEDIATORS OF DIABETES AND ITS COMPLICATIONS SUCH AS HYPERGLYCAEMIA, OXIDANT STRESS, AND INFLAMMATORY FACTORS CAN LEAD TO DYSREGULATED EPIGENETIC MECHANISMS THAT AFFECT CHROMATIN STRUCTURE AND GENE EXPRESSION. FURTHERMORE, PERSISTENCE OF THIS ALTERED STATE OF THE EPIGENOME MAY BE THE UNDERLYING MECHANISM CONTRIBUTING TO A 'METABOLIC MEMORY' THAT RESULTS IN CHRONIC INFLAMMATION AND VASCULAR DYSFUNCTION IN DIABETES EVEN AFTER ACHIEVING GLYCAEMIC CONTROL. FURTHER EXAMINATION OF EPIGENETIC MECHANISMS BY ALSO TAKING ADVANTAGE OF RECENTLY DEVELOPED NEXT-GENERATION SEQUENCING TECHNOLOGIES CAN PROVIDE NOVEL INSIGHTS INTO THE PATHOLOGY OF DIABETES AND ITS COMPLICATIONS AND LEAD TO THE DISCOVERY OF MUCH NEEDED NEW DRUG TARGETS FOR THESE DISEASES. IN THIS REVIEW, WE HIGHLIGHT THE ROLE OF EPIGENETICS IN DIABETES AND ITS VASCULAR COMPLICATIONS, AND RECENT TECHNOLOGICAL ADVANCES THAT HAVE SIGNIFICANTLY ACCELERATED THE FIELD. 2011 19 3703 26 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 20 4505 38 MOUSE MODELS AND THE GENETICS OF DIABETES: IS THERE EVIDENCE FOR GENETIC OVERLAP BETWEEN TYPE 1 AND TYPE 2 DIABETES? IN HUMANS, BOTH TYPE 1 AND TYPE 2 DIABETES EXEMPLIFY GENETICALLY HETEROGENEOUS COMPLEX DISEASES IN WHICH EPIGENETIC FACTORS CONTRIBUTE TO UNDERLYING GENETIC SUSCEPTIBILITY. EXTENDED HUMAN PEDIGREES OFTEN SHOW INHERITANCE OF BOTH DIABETES TYPES. A COMMON PATHOPHYSIOLOGICAL DENOMINATOR IN BOTH DISEASE FORMS IS PANCREATIC BETA-CELL EXPOSURE TO PROINFLAMMATORY CYTOKINES. HENCE, IT IS INTUITIVE THAT SYSTEMICALLY EXPRESSED GENES REGULATING BETA-CELL ABILITY TO WITHSTAND CHRONIC DIABETOGENIC STRESS MAY REPRESENT A COMPONENT OF SHARED SUSCEPTIBILITY TO BOTH MAJOR DISEASE FORMS. IN THIS REVIEW, THE AUTHORS ASSEMBLE EVIDENCE FROM GENETIC EXPERIMENTS USING ANIMAL MODELS DEVELOPING CLEARLY DISTINCT DIABETES SYNDROMES TO INQUIRE WHETHER SOME DEGREE OF OVERLAP IN GENES CONTRIBUTING SUSCEPTIBILITY CAN BE DEMONSTRATED. THE CONCLUSION IS THAT ALTHOUGH OVERLAP EXISTS IN THE PATHOPHYSIOLOGICAL INSULTS LEADING TO BETA-CELL DESTRUCTION IN THE CURRENTLY STUDIED RODENT MODELS, THE GENETIC BASES SEEM QUITE DISTINCT. 2005