1 565 43 BASAL INSTINCT: PERSISTENCE OF BARRIER DYSFUNCTION. IN A RECENT ISSUE OF NATURE, ORDOVAS-MONTANES ET AL. (2018) USED CUTTING-EDGE GENOMIC, EPIGENETIC, AND INTERVENTIONAL TECHNIQUES TO CHARACTERIZE THE CELLULAR ECOSYSTEM IN ALLERGIC CHRONIC RHINOSINUSITIS. THEY SHOWED THAT BASAL EPITHELIAL CELLS "REMEMBER" TYPE 2 INFLAMMATORY STIMULI TO MAINTAIN A CHRONIC ALLERGIC DISEASE PHENOTYPE. 2018 2 6642 16 UNRAVELING THE PATHOGENESIS OF ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE OVERLAP: FOCUSING ON EPIGENETIC MECHANISMS. ASTHMA AND COPD OVERLAP (ACO) IS CHARACTERIZED BY PATIENTS PRESENTING WITH PERSISTENT AIRFLOW LIMITATION AND FEATURES OF BOTH ASTHMA AND COPD. IT IS ASSOCIATED WITH A HIGHER FREQUENCY AND SEVERITY OF EXACERBATIONS, A FASTER LUNG FUNCTION DECLINE, AND A HIGHER HEALTHCARE COST. SYSTEMIC INFLAMMATION IN COPD AND ASTHMA IS DRIVEN BY TYPE 1 T HELPER (TH1) AND TH2 IMMUNE RESPONSES, RESPECTIVELY, BOTH OF WHICH MAY CONTRIBUTE TO AIRWAY REMODELING IN ACO. ACO-RELATED BIOMARKERS CAN BE CLASSIFIED INTO FOUR CATEGORIES: NEUTROPHIL-MEDIATED INFLAMMATION, TH2 CELL RESPONSES, ARACHIDONIC ACID-EICOSANOIDS PATHWAY, AND METABOLITES. GENE-ENVIRONMENT INTERACTIONS ARE KEY CONTRIBUTORS TO THE COMPLEXITY OF ACO AND ARE REGULATED BY EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS, AND NON-CODING RNAS. THUS, THIS REVIEW FOCUSES ON THE LINK BETWEEN EPIGENETICS AND ACO, AND OUTLINES THE FOLLOWING: (I) INHERITING EPIGENOTYPES WITHOUT CHANGE WITH ENVIRONMENTAL STIMULI, OR EPIGENETIC CHANGES IN RESPONSE TO LONG-TERM EXPOSURE TO INHALED PARTICLES PLUS INTERMITTENT EXPOSURE TO SPECIFIC ALLERGENS; (II) EPIGENETIC MARKERS DISTINGUISHING ACO FROM COPD AND ASTHMA; (III) POTENTIAL EPIGENETIC DRUGS THAT CAN REVERSE OXIDATIVE STRESS, GLUCOCORTICOID INSENSITIVITY, AND CELL INJURY. IMPROVED UNDERSTANDING OF THE EPIGENETIC REGULATIONS HOLDS GREAT VALUE TO GIVE DEEPER INSIGHT INTO THE MECHANISMS, AND CLARIFY THEIR IMPLICATIONS FOR BIOMEDICAL RESEARCH IN ACO. 2022 3 6496 18 TRAINED IMMUNITY CONTRIBUTION TO AUTOIMMUNE AND INFLAMMATORY DISORDERS. A DYSREGULATED IMMUNE RESPONSE TOWARD SELF-ANTIGENS CHARACTERIZES AUTOIMMUNE AND AUTOINFLAMMATORY (AIF) DISORDERS. AUTOANTIBODIES OR AUTOREACTIVE T CELLS CONTRIBUTE TO AUTOIMMUNE DISEASES, WHILE AUTOINFLAMMATION RESULTS FROM A HYPER-FUNCTIONAL INNATE IMMUNE SYSTEM. ASIDE FROM THEIR DIFFERENCES, MANY STUDIES SUGGEST THAT MONOCYTES AND MACROPHAGES (MO/MA) SIGNIFICANTLY CONTRIBUTE TO THE DEVELOPMENT OF BOTH TYPES OF DISEASE. MO/MA ARE INNATE IMMUNE CELLS THAT PROMOTE AN IMMUNE-MODULATORY, PRO-INFLAMMATORY, OR REPAIR RESPONSE DEPENDING ON THE MICROENVIRONMENT. HOWEVER, UNDERSTANDING THE CONTRIBUTION OF THESE CELLS TO DIFFERENT IMMUNE DISORDERS HAS BEEN DIFFICULT DUE TO THEIR HIGH FUNCTIONAL AND PHENOTYPIC PLASTICITY. SEVERAL FACTORS CAN INFLUENCE THE FUNCTION OF MO/MA UNDER THE LANDSCAPE OF AUTOIMMUNE/AUTOINFLAMMATORY DISEASES, SUCH AS GENETIC PREDISPOSITION, EPIGENETIC CHANGES, OR INFECTIONS. FOR INSTANCE, SOME VACCINES AND MICROORGANISMS CAN INDUCE EPIGENETIC CHANGES IN MO/MA, MODIFYING THEIR FUNCTIONAL RESPONSES. THIS PHENOMENON IS KNOWN AS TRAINED IMMUNITY. TRAINED IMMUNITY CAN BE MEDIATED BY MO/MA AND NK CELLS INDEPENDENTLY OF T AND B CELL FUNCTION. IT IS DEFINED AS THE ALTERED INNATE IMMUNE RESPONSE TO THE SAME OR DIFFERENT MICROORGANISMS DURING A SECOND ENCOUNTER. THE IMPROVEMENT IN CELL FUNCTION IS RELATED TO EPIGENETIC AND METABOLIC CHANGES THAT MODIFY GENE EXPRESSION. ALTHOUGH THE BENEFITS OF IMMUNE TRAINING HAVE BEEN HIGHLIGHTED IN A VACCINATION CONTEXT, THE EFFECTS OF THIS TYPE OF IMMUNE RESPONSE ON AUTOIMMUNITY AND CHRONIC INFLAMMATION STILL REMAIN CONTROVERSIAL. INDUCTION OF TRAINED IMMUNITY REPROGRAMS CELLULAR METABOLISM IN HEMATOPOIETIC STEM CELLS (HSCS), TRANSMITTING A MEMORY-LIKE PHENOTYPE TO THE CELLS. THUS, TRAINED MO/MA DERIVED FROM HSCS TYPICALLY PRESENT A METABOLIC SHIFT TOWARD GLYCOLYSIS, WHICH LEADS TO THE MODIFICATION OF THE CHROMATIN ARCHITECTURE. DURING TRAINED IMMUNITY, THE EPIGENETIC CHANGES FACILITATE THE SPECIFIC GENE EXPRESSION AFTER SECONDARY CHALLENGE WITH OTHER STIMULI. CONSEQUENTLY, THE ENHANCED PRO-INFLAMMATORY RESPONSE COULD CONTRIBUTE TO DEVELOPING OR MAINTAINING AUTOIMMUNE/AUTOINFLAMMATORY DISEASES. HOWEVER, THE PREDICTION OF THE OUTCOME IS NOT SIMPLE, AND OTHER STUDIES PROPOSE THAT TRAINED IMMUNITY CAN INDUCE A BENEFICIAL RESPONSE BOTH IN AIF AND AUTOIMMUNE CONDITIONS BY INDUCING ANTI-INFLAMMATORY RESPONSES. THIS ARTICLE DESCRIBES THE METABOLIC AND EPIGENETIC MECHANISMS INVOLVED IN TRAINED IMMUNITY THAT AFFECT MO/MA, CONTRAPOSING THE CONTROVERSIAL EVIDENCE ON HOW IT MAY IMPACT AUTOIMMUNE/AUTOINFLAMMATION CONDITIONS. 2022 4 2533 15 EPIGENETICS IN AUTOIMMUNE CONNECTIVE TISSUE DISEASES. BACKGROUND. AUTOIMMUNE CONNECTIVE TISSUE DISEASES (ACTDS) ENCOMPASS A HETEROGENEOUS GROUP OF CHRONIC IMMUNE-MEDIATED INFLAMMATORY DISORDERS, PRIMARILY AFFECTING CONNECTIVE TISSUES AND CLINICALLY CHARACTERIZED BY VARIABLE MULTISYSTEM MANIFESTATIONS, FREQUENTLY OVERLAPPING. ENVIRONMENTAL FACTORS ARE THOUGHT TO PROMOTE ACTD DEVELOPMENT IN GENETIC PREDISPOSING/ENDOCRINE PERMISSIVE BACKGROUND THROUGH THE INDUCTION OF EPIGENETIC MODIFICATIONS, CONSISTING OF STABLE, HERITABLE, BUT POTENTIALLY REVERSIBLE CHANGES IN GENE EXPRESSION, OCCURRING WITHOUT ALTERATIONS OF THE DNA SEQUENCE. ACTUALLY, EPIGENETIC MECHANISMS (SUCH AS HISTONE MODIFICATIONS, DNA METHYLATION, NUCLEOSOME POSITIONING, AND RNA INTERFERENCE) LINK GENOTYPE UPSTREAM AND PHENOTYPE DOWNSTREAM, AND, IF PERSISTENTLY ABERRANT, MAY CAUSE A VARIETY OF HUMAN DISEASES, INCLUDING ACTDS. WE AIMED TO REVIEW THE RECENT ADVANCES IN THE KNOWLEDGE OF THE ACTD EPIGENETIC ALTERATIONS. METHODS: A DETAILED SEARCH OF THE AVAILABLE LITERATURE WAS PERFORMED IN THE PUBMED (U.S. NATIONAL LIBRARY OF MEDICINE) DATABASE. RESULTS: GROWING EVIDENCE UNDERLINES THE RELEVANT ROLE OF EPIGENETIC DEFECTS IN THE ACTD PATHOGENESIS, AND SPECIFIC EPIGENETIC PATTERNS CAN REPRESENT DISEASE BIOMARKERS. IN PATIENTS WITH RHEUMATOID ARTHRITIS (RA), EPIGENETIC VARIATIONS INTERACT DETERMINING THE TYPICAL "AGGRESSIVE" PHENOTYPE DISPLAYED BY RA SYNOVIAL FIBROBLASTS. EPIGENETIC MODIFICATIONS ARE INVOLVED IN THE PROFIBROTIC PROCESS THAT CHARACTERIZES SYSTEMIC SCLEROSIS. IN SYSTEMIC LUPUS ERYTHEMATOSUS AND SJOGREN'S SYNDROME, COMPLEX EPIGENETIC CHANGES ALTERING GENE EXPRESSION HAVE BEEN DEMONSTRATED. CONCLUSIONS: COMPREHENSIVE STUDIES WILL CONTRIBUTE TO FURTHER DEFINE THE ABERRANT EPIGENETIC MECHANISMS INVOLVED IN THE ACTDS ETIOPATHOGENESIS. MOREOVER, BEING EPIGENETIC CHANGES POTENTIALLY REVERSIBLE, THE IDENTIFICATION OF ACTDS EPIGENETIC BIOMARKERS WILL ALLOW THE DEVELOPMENT OF THERAPEUTIC STRATEGIES ADDRESSED TO TARGET DYSREGULATED GENES AND CORRECT ABERRANT EPIGENOMIC ALTERATIONS. 2014 5 5359 16 REBOOTING REGULATORY T CELL AND DENDRITIC CELL FUNCTION IN IMMUNE-MEDIATED INFLAMMATORY DISEASES: BIOMARKER AND THERAPY DISCOVERY UNDER A MULTI-OMICS LENS. IMMUNE-MEDIATED INFLAMMATORY DISEASES (IMIDS) ARE A GROUP OF AUTOIMMUNE AND CHRONIC INFLAMMATORY DISORDERS WITH CONSTANTLY INCREASING PREVALENCE IN THE MODERN WORLD. THE VAST MAJORITY OF IMIDS DEVELOP AS A CONSEQUENCE OF COMPLEX MECHANISMS DEPENDENT ON GENETIC, EPIGENETIC, MOLECULAR, CELLULAR, AND ENVIRONMENTAL ELEMENTS, THAT LEAD TO DEFECTS IN IMMUNE REGULATORY GUARDIANS OF TOLERANCE, SUCH AS DENDRITIC (DCS) AND REGULATORY T (TREGS) CELLS. AS A RESULT OF THIS DYSFUNCTION, IMMUNE TOLERANCE COLLAPSES AND PATHOGENESIS EMERGES. DEEPER UNDERSTANDING OF SUCH DISEASE DRIVING MECHANISMS REMAINS A MAJOR CHALLENGE FOR THE PREVENTION OF INFLAMMATORY DISORDERS. THE RECENT RENAISSANCE IN HIGH THROUGHPUT TECHNOLOGIES HAS ENABLED THE INCREASE IN THE AMOUNT OF DATA COLLECTED THROUGH MULTIPLE OMICS LAYERS, WHILE ADDITIONALLY NARROWING THE RESOLUTION DOWN TO THE SINGLE CELL LEVEL. IN LIGHT OF THE AFOREMENTIONED, THIS REVIEW FOCUSES ON DCS AND TREGS AND DISCUSSES HOW MULTI-OMICS APPROACHES CAN BE HARNESSED TO CREATE ROBUST CELL-BASED IMID BIOMARKERS IN HOPE OF LEADING TO MORE EFFICIENT AND PATIENT-TAILORED THERAPEUTIC INTERVENTIONS. 2022 6 5059 13 PHENOTYPIC AND IMMUNOMETABOLIC ASPECTS ON STEM CELL MEMORY AND RESIDENT MEMORY CD8(+) T CELLS. THE IMMUNE SYSTEM, SMARTLY AND SURPRISINGLY, SAVES THE EXPOSURE OF A PARTICULAR PATHOGEN IN ITS MEMORY AND REACTS TO THE PATHOGEN VERY RAPIDLY, PREVENTING SERIOUS DISEASES. IMMUNOLOGISTS HAVE LONG BEEN FASCINATED BY UNDERSTANDING THE ABILITY TO RECALL AND RESPOND FASTER AND MORE VIGOROUSLY TO A PATHOGEN, KNOWN AS "MEMORY". T-CELL POPULATIONS CAN BE BETTER DESCRIBED BY USING MORE SOPHISTICATED TECHNIQUES TO DEFINE PHENOTYPE, TRANSCRIPTIONAL AND EPIGENETIC SIGNATURES AND METABOLIC PATHWAYS (SINGLE-CELL RESOLUTION), WHICH UNCOVERED THE HETEROGENEITY OF THE MEMORY T-COMPARTMENT. PHENOTYPE, EFFECTOR FUNCTIONS, MAINTENANCE, AND METABOLIC PATHWAYS HELP IDENTIFY THESE DIFFERENT SUBSETS. HERE, WE EXAMINE RECENT DEVELOPMENTS IN THE CHARACTERIZATION OF THE HETEROGENEITY OF THE MEMORY T CELL COMPARTMENT. IN PARTICULAR, WE FOCUS ON THE EMERGING ROLE OF CD8(+) T(RM) AND T(SCM) CELLS, PROVIDING EVIDENCE ON HOW THEIR IMMUNOMETABOLISM OR MODULATION CAN PLAY A VITAL ROLE IN THEIR GENERATION AND MAINTENANCE IN CHRONIC CONDITIONS SUCH AS INFECTIONS OR AUTOIMMUNE DISEASES. 2022 7 6334 11 THE ROLE OF DNA METHYLATION AND HYDROXYMETHYLATION IN IMMUNOSENESCENCE. A HEALTHY FUNCTIONING IMMUNE SYSTEM IS CRITICAL TO STAVE OFF INFECTIOUS DISEASES, BUT AS HUMANS AND OTHER ORGANISMS AGE, THEIR IMMUNE SYSTEMS DECLINE. AS A RESULT, DISEASES THAT WERE READILY THWARTED IN EARLY LIFE POSE NONTRIVIAL HARM AND CAN EVEN BE DEADLY IN LATE LIFE. IMMUNOSENESCENCE IS DEFINED AS THE GENERAL DETERIORATION OF THE IMMUNE SYSTEM WITH AGE, AND IT IS CHARACTERIZED BY FUNCTIONAL CHANGES IN HEMATOPOIETIC STEM CELLS (HSCS) AND SPECIFIC BLOOD CELL TYPES AS WELL AS CHANGES IN LEVELS OF NUMEROUS FACTORS, PARTICULARLY THOSE INVOLVED IN INFLAMMATION. POTENTIAL MECHANISMS UNDERLYING IMMUNOSENESCENCE INCLUDE EPIGENETIC CHANGES SUCH AS CHANGES IN DNA METHYLATION (DNAM) AND DNA HYDROXYMETHYLATION (DNAHM) THAT OCCUR WITH AGE. THE PURPOSE OF THIS REVIEW IS TO DESCRIBE WHAT IS CURRENTLY KNOWN ABOUT THE RELATIONSHIP BETWEEN IMMUNOSENESCENCE AND THE AGE-RELATED CHANGES TO DNAM AND DNAHM, AND TO DISCUSS EXPERIMENTAL APPROACHES BEST SUITED TO FILL GAPS IN OUR UNDERSTANDING. 2019 8 3418 12 HUMAN HEALTH CONSEQUENCES OF ENVIRONMENTALLY-MODULATED GENE EXPRESSION: POTENTIAL ROLES OF ELF-EMF INDUCED EPIGENETIC VERSUS MUTAGENIC MECHANISMS OF DISEASE. IN ORDER TO DETERMINE IF THERE MIGHT BE BIOLOGICAL AND HEALTH CONSEQUENCES AFTER EXPOSURES TO EXTREMELY-LOW FREQUENCY ELECTROMAGNETIC FIELDS (ELF-EMF), EITHER EXPERIMENTALLY OR EPIDEMIOLOGICALLY, MECHANISTIC UNDERSTANDING OF THE POTENTIAL MEANS BY WHICH ANY ENVIRONMENTAL AGENT CAN AFFECT CELLS IN A MULTICELLULAR ORGANISM HAS TO BE REVIEWED. THE GOAL OF THIS LIMITED REVIEW IS TO DEMONSTRATE THAT, WHILE THE PREVAILING PARADIGM OF THE ENVIRONMENTALLY-INDUCED ACUTE AND CHRONIC DISEASES INVOLVES EITHER CELL KILLING (CYTOTOXICITY) OR GENE/CHROMOSOME MUTATIONS (GENOTOXICITY), ALTERATION OF THE EXPRESSION OF GENETIC INFORMATION AT THE TRANSCRIPTIONAL (TURNING GENES "ON" OR "OFF"), TRANSLATIONAL (STABILIZING OR DE-STABILIZING THE GENETIC MESSAGE), OR POSTTRANSLATIONAL (ALTERING THE GENE PRODUCT OR PROTEIN) LEVELS HAS THE POTENTIAL TO CONTRIBUTE TO VARIOUS DISEASES. THIS LATTER MECHANISM, "EPIGENETIC" TOXICITY, UNLIKE THE FORMER TWO WHICH ARE IRREVERSIBLE, IS CHARACTERIZED BY THRESHOLD-LIKE ACTION, MULTIPLE BIOCHEMICAL PATHWAYS AND CHRONIC, REGULAR EXPOSURES TO BE EFFECTIVE. ULTIMATELY, EPIGENETIC TOXICANTS AFFECT ONE OF FOUR POTENTIAL CELL STATES, NAMELY ALTERATION OF CELL PROLIFERATION, CELL DIFFERENTIATION, PROGRAMMED CELL DEATH (APOPTOSIS) OR ADAPTIVE RESPONSES OF DIFFERENTIATED CELLS. 2000 9 1309 15 DEFINING AND TARGETING PATTERNS OF T CELL DYSFUNCTION IN INBORN ERRORS OF IMMUNITY. INBORN ERRORS OF IMMUNITY (IEIS) ARE A GROUP OF MORE THAN 450 MONOGENIC DISORDERS THAT IMPAIR IMMUNE DEVELOPMENT AND FUNCTION. A SUBSET OF IEIS BLEND INCREASED SUSCEPTIBILITY TO INFECTION, AUTOIMMUNITY, AND MALIGNANCY AND ARE KNOWN COLLECTIVELY AS PRIMARY IMMUNE REGULATORY DISORDERS (PIRDS). WHILE MANY ASPECTS OF IMMUNE FUNCTION ARE ALTERED IN PIRDS, ONE KEY IMPACT IS ON T-CELL FUNCTION. BY THEIR NATURE, PIRDS PROVIDE UNIQUE INSIGHTS INTO HUMAN T-CELL SIGNALING; ALTERATIONS IN INDIVIDUAL SIGNALING MOLECULES TUNE DOWNSTREAM SIGNALING PATHWAYS AND EFFECTOR FUNCTION. QUANTIFYING T-CELL DYSFUNCTION IN PIRDS AND THE UNDERLYING CAUSATIVE MECHANISMS IS CRITICAL TO IDENTIFYING EXISTING THERAPIES AND POTENTIAL NOVEL THERAPEUTIC TARGETS TO TREAT OUR RARE PATIENTS AND GAIN DEEPER INSIGHT INTO THE BASIC MECHANISMS OF T-CELL FUNCTION. THOUGH THERE ARE MANY TYPES OF T-CELL DYSFUNCTION, HERE WE WILL FOCUS ON T-CELL EXHAUSTION, A KEY PATHOPHYSIOLOGICAL STATE. EXHAUSTION HAS BEEN DESCRIBED IN BOTH HUMAN AND MOUSE MODELS OF DISEASE, WHERE THE CHRONIC PRESENCE OF ANTIGEN AND INFLAMMATION (E.G., CHRONIC INFECTION OR MALIGNANCY) INDUCES A STATE OF ALTERED IMMUNE PROFILE, TRANSCRIPTIONAL AND EPIGENETIC STATES, AS WELL AS IMPAIRED T-CELL FUNCTION. SINCE A SUBSET OF PIRDS AMPLIFY T-CELL RECEPTOR (TCR) SIGNALING AND/OR INFLAMMATORY CYTOKINE SIGNALING CASCADES, IT IS POSSIBLE THAT THEY COULD INDUCE T-CELL EXHAUSTION BY GENETICALLY MIMICKING CHRONIC INFECTION. HERE, WE REVIEW THE FUNDAMENTALS OF T-CELL EXHAUSTION AND ITS POSSIBLE ROLE IN IEIS IN WHICH GENETIC MUTATIONS MIMIC PROLONGED OR AMPLIFIED T-CELL RECEPTOR AND/OR CYTOKINE SIGNALING. GIVEN THE POTENTIAL INSIGHT FROM THE MANY FORMS OF PIRDS IN UNDERSTANDING T-CELL FUNCTION AND THE CHALLENGES IN OBTAINING PRIMARY CELLS FROM THESE RARE DISORDERS, WE ALSO DISCUSS ADVANCES IN CRISPR-CAS9 GENOME-EDITING TECHNOLOGIES AND POTENTIAL APPLICATIONS TO EDIT HEALTHY DONOR T CELLS THAT COULD FACILITATE FURTHER STUDY OF MECHANISMS OF IMMUNE DYSFUNCTIONS IN PIRDS. EDITING T CELLS TO MATCH PIRD PATIENT GENETIC VARIANTS WILL ALLOW INVESTIGATIONS INTO THE MECHANISMS UNDERPINNING STATES OF DYSREGULATED T-CELL FUNCTION, INCLUDING T-CELL EXHAUSTION. 2022 10 6255 13 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 11 705 11 BUILDING RISK-ON-A-CHIP MODELS TO IMPROVE BREAST CANCER RISK ASSESSMENT AND PREVENTION. PREVENTIVE ACTIONS FOR CHRONIC DISEASES HOLD THE PROMISE OF IMPROVING LIVES AND REDUCING HEALTHCARE COSTS. FOR SEVERAL DISEASES, INCLUDING BREAST CANCER, MULTIPLE RISK AND PROTECTIVE FACTORS HAVE BEEN IDENTIFIED BY EPIDEMIOLOGISTS. THE IMPACT OF MOST OF THESE FACTORS HAS YET TO BE FULLY UNDERSTOOD AT THE ORGANISM, TISSUE, CELLULAR AND MOLECULAR LEVELS. IMPORTANTLY, COMBINATIONS OF EXTERNAL AND INTERNAL RISK AND PROTECTIVE FACTORS INVOLVE COOPERATIVITY THUS, SYNERGIZING OR ANTAGONIZING DISEASE ONSET. MODELS ARE NEEDED TO MECHANISTICALLY DECIPHER CANCER RISKS UNDER DEFINED CELLULAR AND MICROENVIRONMENTAL CONDITIONS. HERE, WE BRIEFLY REVIEW BREAST CANCER RISK MODELS BASED ON 3D CELL CULTURE AND PROPOSE TO IMPROVE RISK MODELING WITH LAB-ON-A-CHIP APPROACHES. WE SUGGEST EPITHELIAL TISSUE POLARITY, DNA REPAIR AND EPIGENETIC PROFILES AS ENDPOINTS IN RISK ASSESSMENT MODELS AND DISCUSS THE DEVELOPMENT OF 'RISKS-ON-CHIPS' INTEGRATING BIOSENSORS OF THESE ENDPOINTS AND OF GENERAL TISSUE HOMEOSTASIS. RISKS-ON-CHIPS WILL HELP IDENTIFY BIOMARKERS OF RISK, SERVE AS SCREENING PLATFORMS FOR CANCER PREVENTIVE AGENTS, AND PROVIDE A BETTER UNDERSTANDING OF RISK MECHANISMS, HENCE RESULTING IN NOVEL DEVELOPMENTS IN DISEASE PREVENTION. 2013 12 4399 12 MODULATION OF GENOMIC AND POSTGENOMIC ALTERATIONS IN NONCANCER DISEASES AND CRITICAL PERIODS OF LIFE. GENOMIC AND POSTGENOMIC CHANGES ARE EXTENSIVELY INVESTIGATED IN CANCER RESEARCH. SIMILAR ALTERATIONS, AFFECTING GENOME, TRANSCRIPTOME, MIRNOME AND/OR PROTEOME END-POINTS, HAVE BEEN DETECTED IN A VARIETY OF OTHER CHRONIC DEGENERATIVE DISEASES, SUCH AS ATHEROSCLEROSIS, DEGENERATIVE HEART DISEASES, CHRONIC OBSTRUCTIVE PULMONARY DISEASES, NEUROLOGICAL DISORDERS, EYE DISEASES, DIABETES, METABOLIC SYNDROME, SKIN AGEING AND ALOPECIA. NO GENERALIZATION CAN BE MADE DUE TO THE MYRIAD OF DIVERSE CLINICAL ENTITIES CLASSIFIED AS CHRONIC DEGENERATIVE DISEASES. MOREOVER, THE DETECTION OF MOLECULAR CHANGES DOES NOT AUTOMATICALLY IMPLY THEIR CAUSAL ROLE. NEVERTHELESS, COMMON MECHANISMS, SUCH AS DNA DAMAGE, EPIGENETIC ALTERATIONS, OXIDATIVE STRESS, AND CHRONIC INFLAMMATION, IN ADDITION TO GENETIC PREDISPOSITION, ARE OFTEN INVOLVED IN NONCANCER DISEASES. WE DEBATE HERE IN MORE DETAIL THE SUBJECTS OF CARDIOVASCULAR DISEASES AND OF SKIN DISEASES. MOREOVER, WE DISCUSS OUR EXPERIMENTAL STUDIES SUGGESTING THAT GENOMIC AND POSTGENOMIC CHANGES DO ALSO OCCUR DURING CRITICAL PERIODS OF LIFE, INCLUDING THE PRENATAL LIFE, THE PERINATAL PERIOD, AND AGEING. IN ADDITION, WE COMMENT ON THE FINDING THAT STEM-DERIVED CELLS ARE MORE SUSCEPTIBLE TO MOLECULAR DAMAGE THAN MORE DIFFERENTIATED CELLS. ALL THESE DATA ARE VIEWED IN THE PERSPECTIVE OF PREVENTIVE MEDICINE. IN FACT, THERE IS EVIDENCE THAT THE GENOMIC AND POSTGENOMIC ALTERATIONS OCCURRING NOT ONLY IN SEVERAL PATHOLOGICAL CONDITIONS BUT ALSO IN PARAPHYSIOLOGICAL SITUATIONS THAT AFFECT CRITICAL PERIODS OF LIFE CAN BE MODULATED BY MEANS OF DIETARY AND PHARMACOLOGICAL AGENTS. THE DISCOVERY THAT CHEMOPREVENTIVE AGENTS ARE ALSO ABLE TO ATTENUATE NUCLEOTIDE DAMAGE IN STEM-DERIVED CELLS WARRANTS FURTHER STUDIES IN VIEW OF POSSIBLE CLINICAL APPLICATIONS. 2009 13 4012 12 LOW-DENSITY GRANULOCYTES IN SYSTEMIC AUTOIMMUNITY AND AUTOINFLAMMATION. A BODY OF EVIDENCE HAS RE-ENERGIZED THE INTEREST ON THE ROLE NEUTROPHILS IN INFLAMMATORY AND AUTOIMMUNE CONDITIONS. FOR DECADES, NEUTROPHILS HAVE BEEN CONSIDERED A HOMOGENOUS POPULATION. NEVERTHELESS, ACCUMULATING EVIDENCE SUGGESTS THAT NEUTROPHILS ARE MORE VERSATILE AND HETEROGENEOUS THAN INITIALLY CONSIDERED. THE NOTION OF NEUTROPHIL HETEROGENEITY HAS BEEN SUPPORTED BY THE IDENTIFICATION OF LOW-DENSITY GRANULOCYTES (LDGS) IN SYSTEMIC LUPUS ERYTHEMATOSUS (SLE) AND OTHER SYSTEMIC AUTOIMMUNE AND AUTOINFLAMMATORY CONDITIONS. TRANSCRIPTOMIC, EPIGENETIC, PROTEOMIC, AND FUNCTIONAL ANALYSES SUPPORT THAT LDGS ARE A DISTINCT SUBSET OF PROINFLAMMATORY NEUTROPHILS IMPLICATED IN THE PATHOGENESIS OF SLE AND OTHER AUTOIMMUNE DISEASES. IMPORTANTLY, IT REMAINS INCOMPLETELY CHARACTERIZED WHETHER LDGS DETECTED IN OTHER INFLAMMATORY/AUTOIMMUNE CONDITIONS DISPLAY THE SAME PHENOTYPE THAT THOSE PRESENT IN SLE. A SHARED FEATURE OF LDGS ACROSS DISEASES IS THEIR ASSOCIATION WITH VASCULAR DAMAGE, AN IMPORTANT CONTRIBUTOR TO MORBIDITY AND MORTALITY IN CHRONIC INFLAMMATORY CONDITIONS. ADDITIONALLY, THE LACK OF SPECIFIC MARKERS TO IDENTIFY LDGS IN CIRCULATION OR IN TISSUE, MAKES IT A CHALLENGE TO ELUCIDATE THEIR ROLE IN THE PATHOGENESIS OF INFLAMMATORY AND AUTOIMMUNE CONDITIONS. IN THIS REVIEW, WE AIM TO EXAMINE THE EVIDENCE ON THE BIOLOGY AND THE PUTATIVE PATHOGENIC ROLE OF LDGS IN SYSTEMIC AUTOIMMUNE DISEASES. 2023 14 4992 13 PEELING THE ONION: ANOTHER LAYER IN THE REGULATION OF INSULIN SECRETION. INSULIN SECRETION BY PANCREATIC BETA CELLS IS A DYNAMIC AND HIGHLY REGULATED PROCESS DUE TO THE CENTRAL IMPORTANCE OF INSULIN IN ENABLING EFFICIENT UTILIZATION AND STORAGE OF GLUCOSE. MULTIPLE REGULATORY LAYERS ENABLE BETA CELLS TO ADAPT TO ACUTE CHANGES IN NUTRIENT AVAILABILITY AS WELL AS CHRONIC CHANGES IN METABOLIC DEMAND. WHILE EPIGENETIC FACTORS HAVE BEEN WELL ESTABLISHED AS REGULATORS OF CHRONIC BETA CELL ADAPTATIONS TO INSULIN RESISTANCE, THEIR ROLE IN ACUTE ADAPTATIONS IN RESPONSE TO NUTRIENT STIMULATION HAS BEEN RELATIVELY UNEXPLORED. IN THIS ISSUE OF THE JCI, WORTHAM ET AL. REPORT THAT SHORT-TERM DYNAMIC CHANGES IN HISTONE MODIFICATIONS REGULATED INSULIN SECRETION AND ACUTE BETA CELL ADAPTATIONS IN RESPONSE TO FASTING AND FEEDING CYCLES. THESE FINDINGS HIGHLIGHT THE IMPORTANCE OF INVESTIGATING WHETHER OTHER EPIGENETIC MECHANISMS MAY CONTRIBUTE TO ACUTE PHYSIOLOGIC ADAPTATIONS IN BETA CELLS. 2023 15 49 9 A CURRENT GENETIC AND EPIGENETIC VIEW ON HUMAN AGING MECHANISMS. THE PROCESS OF AGING IS ONE OF THE MOST COMPLEX AND INTRIGUING BIOLOGICAL PHENOMENONS. AGING IS A GENETICALLY REGULATED PROCESS IN WHICH THE ORGANISM'S MAXIMUM LIFESPAN POTENTIAL IS PRE-DETERMINED, WHILE THE RATE OF AGING IS INFLUENCED BY ENVIRONMENTAL FACTORS AND LIFESTYLE. CONSIDERING THE COMPLEXITY OF MECHANISMS INVOLVED IN THE REGULATION OF AGING PROCESS, UP TO THIS DATE THERE ISN'T A MAJOR, UNIFYING THEORY WHICH COULD EXPLAIN THEM. AS GENETIC/EPIGENETIC AND ENVIRONMENTAL FACTORS BOTH INEVITABLY INFLUENCE THE AGING PROCESS, HERE WE PRESENT A REVIEW ON THE GENETIC AND EPIGENETIC REGULATION OF THE MOST IMPORTANT MOLECULAR AND CELLULAR MECHANISMS INVOLVED IN THE PROCESS OF AGING. BASED ON THE STUDIES ON OXIDATIVE STRESS, METABOLISM, GENOME STABILITY, EPIGENETIC MODIFICATIONS AND CELLULAR SENESCENCE IN ANIMAL MODELS AND HUMANS, WE GIVE AN OVERVIEW OF KEY GENETIC AND MOLECULAR PATHWAYS RELATED TO AGING. AS MOST OF GENETIC MANIPULATIONS WHICH INFLUENCE THE AGING PROCESS ALSO AFFECT REPRODUCTION, WE DISCUSS AGING IN HUMANS AS A POST-REPRODUCTIVE GENETICALLY DETERMINED PROCESS. AFTER THE AGE OF REPRODUCTIVE SUCCESS, AGING CONTINOUSLY PROGRESSES WHICH CLINICALLY COINCIDES WITH THE ONSET OF MOST CHRONIC DISEASES, CANCERS AND DEMENTIONS. AS EVOLUTION SHAPES THE GENOMES FOR REPRODUCTIVE SUCCESS AND NOT FOR POST-REPRODUCTIVE SURVIVAL, AGING COULD BE DEFINED AS A PROTECTIVE MECHANISM WHICH ENSURES THE PRESERVATION AND PROGRESS OF SPECIES THROUGH THE MODIFICATION, TRASMISSION AND IMPROVEMENT OF GENETIC MATERIAL. 2009 16 5899 14 T-CELL DYSFUNCTION IN CHRONIC LYMPHOCYTIC LEUKEMIA FROM AN EPIGENETIC PERSPECTIVE. CELLULAR IMMUNOTHERAPEUTIC APPROACHES SUCH AS CHIMERIC ANTIGEN RECEPTOR (CAR) T-CELL THERAPY IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) THUS FAR HAVE NOT MET THE HIGH EXPECTATIONS. THEREFORE IT IS ESSENTIAL TO BETTER UNDERSTAND THE MOLECULAR MECHANISMS OF CLLINDUCED T-CELL DYSFUNCTION. EVEN THOUGH A SIGNIFICANT NUMBER OF STUDIES ARE AVAILABLE ON T-CELL FUNCTION AND DYSFUNCTION IN CLL PATIENTS, NONE EXAMINE DYSFUNCTION AT THE EPIGENOMIC LEVEL. IN NON-MALIGNANT T-CELL RESEARCH, EPIGENOMICS IS WIDELY EMPLOYED TO DEFINE THE DIFFERENTIATION PATHWAY INTO T-CELL EXHAUSTION. ADDITIONALLY, METABOLIC RESTRICTIONS IN THE TUMOR MICROENVIRONMENT THAT CAUSE T-CELL DYSFUNCTION ARE OFTEN MEDIATED BY EPIGENETIC CHANGES. WITH THIS REVIEW PAPER WE ARGUE THAT UNDERSTANDING THE EPIGENETIC (DYS)REGULATION IN T CELLS OF CLL PATIENTS SHOULD BE LEVELED TO THE KNOWLEDGE WE CURRENTLY HAVE OF THE NEOPLASTIC B CELLS THEMSELVES. THIS WILL PERMIT A COMPLETE UNDERSTANDING OF HOW THESE IMMUNE CELL INTERACTIONS REGULATE T- AND B-CELL FUNCTION. HERE WE RELATE THE CELLULAR AND PHENOTYPIC CHARACTERISTICS OF CLL-INDUCED T-CELL DYSFUNCTION TO EPIGENETIC STUDIES OF T-CELL REGULATION EMERGING FROM CHRONIC VIRAL INFECTION AND TUMOR MODELS. THIS PAPER PROPOSES A FRAMEWORK FOR FUTURE STUDIES INTO THE EPIGENETIC REGULATION OF CLL-INDUCED TCELL DYSFUNCTION, KNOWLEDGE THAT WILL HELP TO GUIDE IMPROVEMENTS IN THE UTILITY OF AUTOLOGOUS T-CELL BASED THERAPIES IN CLL. 2021 17 6906 13 [THE ROLE OF GLYCANS IN CANCER DEVELOPMENT AND PROGRESSION. CLINICAL APPLICATIONS]. CHANGES IN GLYCOSYLATION PATTERN OF CELL SURFACE, BODY FLUIDS AND EXTRACELLULAR MATRIX GLYCOCONJUGATES IS A CHARACTERISTIC FEATURE OF TUMOR CELL MALIGNANCY. THESE CHANGES ARE THE RESULT OF MUTATIONS OF TUMOR-ASSOCIATED GENES AS WELL AS EPIGENETIC CHANGES IN THE TUMOR ENVIRONMENT, INCLUDING NUTRIENT INFLUX, HYPOXIA, CYTOKINE EXPRESSION AND STIMULATION OF CHRONIC INFLAMMATION. THE UNIQUE SET OF CELL SURFACE GLYCOANTIGENS ON NEOPLASTIC CELLS IS RECOGNIZED BY ENDOGENOUS LECTINS LOCATED IN THE EXTRACELLULAR MATRIX, VASCULAR ENDOTHELIUM, ON LEUKOCYTES OR PLATELETS, AND HAS AN IMPACT ON DISRUPTING BASIC CELLULAR PROCESSES, SUCH AS INTERCELLULAR RECOGNITION, CELL-CELL ADHESION OR CELL-ECM INTERACTION. THESE CHANGES HAVE A CRITICAL IMPACT ON THE MIGRATION, INVASIVE AND METASTATIC POTENTIAL OF NEOPLASTIC CELLS AND MODULATE THE IMMUNE RESPONSE. THIS UNIQUE PATTERN OF SUGAR ANTIGENS ON THE CANCER CELLS CAN BE A VAULABLE MARKER TO IDENTIFY THEM, DETERMINE THE STAGE OF THE DISEASE AS WELL AS BE A TARGET OF ANTI-CANCER THERAPY. 2021 18 6506 12 TRAINED INNATE IMMUNITY NOT ALWAYS AMICABLE. THE CONCEPT OF „TRAINED INNATE IMMUNITY" IS UNDERSTOOD AS THE ABILITY OF INNATE IMMUNE CELLS TO REMEMBER INVADING AGENTS AND TO RESPOND NONSPECIFICALLY TO REINFECTION WITH INCREASED STRENGTH. TRAINED IMMUNITY IS ORCHESTRATED BY EPIGENETIC MODIFICATIONS LEADING TO CHANGES IN GENE EXPRESSION AND CELL PHYSIOLOGY. ALTHOUGH THIS PHENOMENON WAS ORIGINALLY SEEN MAINLY AS A BENEFICIAL EFFECT, SINCE IT CONFERS BROAD IMMUNOLOGICAL PROTECTION, ENHANCED IMMUNE RESPONSE OF REPROGRAMMED INNATE IMMUNE CELLS MIGHT RESULT IN THE DEVELOPMENT OR PERSISTENCE OF CHRONIC METABOLIC, AUTOIMMUNE OR NEUROINFALMMATORY DISORDERS. THIS PAPER OVERVIEWS SEVERAL EXAMPLES WHERE THE INDUCTION OF TRAINED IMMUNITY MAY BE ESSENTIAL IN THE DEVELOPMENT OF DISEASES CHARACTERIZED BY FLAWED INNATE IMMUNE RESPONSE. 2019 19 2446 8 EPIGENETIC STRATEGIES SYNERGIZE WITH PD-L1/PD-1 TARGETED CANCER IMMUNOTHERAPIES TO ENHANCE ANTITUMOR RESPONSES. IMMUNOTHERAPY STRATEGIES TARGETING THE PROGRAMMED CELL DEATH LIGAND 1 (PD-L1)/PROGRAMMED CELL DEATH 1 (PD-1) PATHWAY IN CLINICAL TREATMENTS HAVE ACHIEVED REMARKABLE SUCCESS IN TREATING MULTIPLE TYPES OF CANCER. HOWEVER, OWING TO THE HETEROGENEITY OF TUMORS AND INDIVIDUAL IMMUNE SYSTEMS, PD-L1/PD-1 BLOCKADE STILL SHOWS SLOW RESPONSE RATES IN CONTROLLING MALIGNANCIES IN MANY PATIENTS. ACCUMULATING EVIDENCE HAS SHOWN THAT AN EFFECTIVE RESPONSE TO ANTI-PD-L1/ANTI-PD-1 THERAPY REQUIRES ESTABLISHING AN INTEGRATED IMMUNE CYCLE. DAMAGE IN ANY STEP OF THE IMMUNE CYCLE IS ONE OF THE MOST IMPORTANT CAUSES OF IMMUNOTHERAPY FAILURE. IMPAIRMENTS IN THE IMMUNE CYCLE CAN BE RESTORED BY EPIGENETIC MODIFICATION, INCLUDING REPROGRAMMING THE ENVIRONMENT OF TUMOR-ASSOCIATED IMMUNITY, ELICITING AN IMMUNE RESPONSE BY INCREASING THE PRESENTATION OF TUMOR ANTIGENS, AND BY REGULATING T CELL TRAFFICKING AND REACTIVATION. THUS, A RATIONAL COMBINATION OF PD-L1/PD-1 BLOCKADE AND EPIGENETIC AGENTS MAY OFFER GREAT POTENTIAL TO RETRAIN THE IMMUNE SYSTEM AND TO IMPROVE CLINICAL OUTCOMES OF CHECKPOINT BLOCKADE THERAPY. 2020 20 2279 14 EPIGENETIC REGULATION IN ALLERGIC DISEASES AND RELATED STUDIES. ASTHMA, A CHRONIC INFLAMMATORY DISORDER OF THE AIRWAY, HAS FEATURES OF BOTH HERITABILITY AS WELL AS ENVIRONMENTAL INFLUENCES WHICH CAN BE INTRODUCED IN UTERO EXPOSURES AND MODIFIED THROUGH AGING, AND THE FEATURES MAY ATTRIBUTE TO EPIGENETIC REGULATION. EPIGENETIC REGULATION EXPLAINS THE ASSOCIATION BETWEEN EARLY PRENATAL MATERNAL SMOKING AND LATER ASTHMA-RELATED OUTCOMES. EPIGENETIC MARKS (DNA METHYLATION, MODIFICATIONS OF HISTONE TAILS OR NONCODING RNAS) WORK WITH OTHER COMPONENTS OF THE CELLULAR REGULATORY MACHINERY TO CONTROL THE LEVELS OF EXPRESSED GENES, AND SEVERAL ALLERGY- AND ASTHMA-RELATED GENES HAVE BEEN FOUND TO BE SUSCEPTIBLE TO EPIGENETIC REGULATION, INCLUDING GENES IMPORTANT TO T-EFFECTOR PATHWAYS (IFN-GAMMA, INTERLEUKIN [IL] 4, IL-13, IL-17) AND T-REGULATORY PATHWAYS (FOXP3). THEREFORE, THE MECHANISM BY WHICH EPIGENETIC REGULATION CONTRIBUTES TO ALLERGIC DISEASES IS A CRITICAL ISSUE. IN THE PAST MOST PUBLISHED EXPERIMENTAL WORK, WITH FEW EXCEPTIONS, HAS ONLY COMPRISED SMALL OBSERVATIONAL STUDIES AND MODELS IN CELL SYSTEMS AND ANIMALS. HOWEVER, VERY RECENTLY EXCITING AND ELEGANT EXPERIMENTAL STUDIES AND NOVEL TRANSLATIONAL RESEARCH WORKS WERE PUBLISHED WITH NEW AND ADVANCED TECHNOLOGIES INVESTIGATING EPIGENETIC MARK ON A GENOMIC SCALE AND COMPREHENSIVE APPROACHES TO DATA ANALYSIS. INTERESTINGLY, A POTENTIAL LINK BETWEEN EXPOSURE TO ENVIRONMENTAL POLLUTANTS AND THE OCCURRENCE OF ALLERGIC DISEASES IS REVEALED RECENTLY, PARTICULAR IN DEVELOPED AND INDUSTRIALIZED COUNTRIES, AND ENDOCRINE DISRUPTING CHEMICALS (EDCS) AS ENVIRONMENTAL HORMONE MAY PLAY A KEY ROLE. THIS REVIEW ADDRESSES THE IMPORTANT QUESTION OF HOW EDCS (NONYLPHENOL, 4 OCTYLPHENOL, AND PHTHALATES) INFLUENCES ON ASTHMA-RELATED GENE EXPRESSION VIA EPIGENETIC REGULATION IN IMMUNE CELLS, AND HOW ANTI-ASTHMATIC AGENTS PROHIBIT EXPRESSION OF INFLAMMATORY GENES VIA EPIGENETIC MODIFICATION. THE DISCOVERY AND VALIDATION OF EPIGENETIC BIOMARKERS LINKING EXPOSURE TO ALLERGIC DISEASES MIGHT LEAD TO BETTER EPIGENOTYPING OF RISK, PROGNOSIS, TREATMENT PREDICTION, AND DEVELOPMENT OF NOVEL THERAPIES. 2014