1 4282 113 MICRORNA AND EXOSOME: KEY PLAYERS IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS KNOWN AS ONE OF IMPORTANT AUTOIMMUNE DISORDERS WHICH CAN LEAD TO JOINT PAIN AND DAMAGE THROUGHOUT BODY. GIVEN THAT INTERNAL (IE, GENETIC AND EPIGENETIC ALTERATIONS) AND EXTERNAL FACTORS (IE, LIFESTYLE CHANGES, AGE, HORMONES, SMOKING, STRESS, AND OBESITY) INVOLVED IN RA PATHOGENESIS. INCREASING EVIDENCE INDICATED THAT CELLULAR AND MOLECULAR ALTERATIONS PLAY CRITICAL ROLES IN THE INITIATION AND PROGRESSION OF RA. AMONG VARIOUS TARGETS AND MOLECULAR SIGNALING PATHWAYS, MICRORNAS (MIRNAS) AND THEIR REGULATORY NETWORKS HAVE KEY ROLES IN THE RA PATHOGENESIS. IT HAS BEEN SHOWED THAT DEREGULATION OF MANY MIRNAS INVOLVED IN DIFFERENT STAGES OF RA. HENCE, IDENTIFICATION OF MIRNAS AND THEIR SIGNALING PATHWAYS IN RA, COULD CONTRIBUTE TO NEW KNOWLEDGE WHICH HELP TO BETTER TREATMENT OF PATIENTS WITH RA. BESIDES MIRNAS, EXOSOMES HAVE BEEN EMERGED AS KEY MESSENGERS IN RA PATHOGENESIS. EXSOSOMES ARE NANOCARRIERS WHICH COULD BE RELEASED FROM VARIOUS CELLS AND LEAD TO CHANGING OF BEHAVIORS RECIPIENT CELLS VIA TARGETING THEIR CARGOS (EG, PROTEINS, MESSENGER RNAS, MIRNAS, LONG NONCODING RNAS, DNAS). HERE, WE SUMMARIZED SEVERAL MIRNAS INVOLVED IN RA PATHOGENESIS. MOREOVER, WE HIGHLIGHTED THE ROLES OF EXOSOMES IN RA PATHOGENESIS. 2019 2 640 32 BIOMARKERS OF AGING IN FRAILTY AND AGE-ASSOCIATED DISORDERS: STATE OF THE ART AND FUTURE PERSPECTIVE. ACCORDING TO THE GEROSCIENCE CONCEPT THAT ORGANISMAL AGING AND AGE-ASSOCIATED DISEASES SHARE THE SAME BASIC MOLECULAR MECHANISMS, THE IDENTIFICATION OF BIOMARKERS OF AGE THAT CAN EFFICIENTLY CLASSIFY PEOPLE AS BIOLOGICALLY OLDER (OR YOUNGER) THAN THEIR CHRONOLOGICAL (I.E. CALENDAR) AGE IS BECOMING OF PARAMOUNT IMPORTANCE. THESE PEOPLE WILL BE IN FACT AT HIGHER (OR LOWER) RISK FOR MANY DIFFERENT AGE-ASSOCIATED DISEASES, INCLUDING CARDIOVASCULAR DISEASES, NEURODEGENERATION, CANCER, ETC. IN TURN, PATIENTS SUFFERING FROM THESE DISEASES ARE BIOLOGICALLY OLDER THAN HEALTHY AGE-MATCHED INDIVIDUALS. MANY BIOMARKERS THAT CORRELATE WITH AGE HAVE BEEN DESCRIBED SO FAR. THE AIM OF THE PRESENT REVIEW IS TO DISCUSS THE USEFULNESS OF SOME OF THESE BIOMARKERS (ESPECIALLY SOLUBLE, CIRCULATING ONES) IN ORDER TO IDENTIFY FRAIL PATIENTS, POSSIBLY BEFORE THE APPEARANCE OF CLINICAL SYMPTOMS, AS WELL AS PATIENTS AT RISK FOR AGE-ASSOCIATED DISEASES. AN OVERVIEW OF SELECTED BIOMARKERS WILL BE DISCUSSED IN THIS REGARD, IN PARTICULAR WE WILL FOCUS ON BIOMARKERS RELATED TO METABOLIC STRESS RESPONSE, INFLAMMATION, AND CELL DEATH (IN PARTICULAR IN NEURODEGENERATION), ALL PHENOMENA CONNECTED TO INFLAMMAGING (CHRONIC, LOW-GRADE, AGE-ASSOCIATED INFLAMMATION). IN THE SECOND PART OF THE REVIEW, NEXT-GENERATION MARKERS SUCH AS EXTRACELLULAR VESICLES AND THEIR CARGOS, EPIGENETIC MARKERS AND GUT MICROBIOTA COMPOSITION, WILL BE DISCUSSED. SINCE RECENT PROGRESSES IN OMICS TECHNIQUES HAVE ALLOWED AN EXPONENTIAL INCREASE IN THE PRODUCTION OF LABORATORY DATA ALSO IN THE FIELD OF BIOMARKERS OF AGE, MAKING IT DIFFICULT TO EXTRACT BIOLOGICAL MEANING FROM THE HUGE MASS OF AVAILABLE DATA, ARTIFICIAL INTELLIGENCE (AI) APPROACHES WILL BE DISCUSSED AS AN INCREASINGLY IMPORTANT STRATEGY FOR EXTRACTING KNOWLEDGE FROM RAW DATA AND PROVIDING PRACTITIONERS WITH ACTIONABLE INFORMATION TO TREAT PATIENTS. 2023 3 2723 36 EXOSOMES: NOMENCLATURE, ISOLATION, AND BIOLOGICAL ROLES IN LIVER DISEASES. THE BIOGENESIS AND BIOLOGICAL ROLES OF EXTRACELLULAR VESICLES (EVS) IN THE PROGRESSION OF LIVER DISEASES HAVE ATTRACTED CONSIDERABLE ATTENTION IN RECENT YEARS. EVS ARE MEMBRANE-BOUND NANOSIZED VESICLES FOUND IN DIFFERENT TYPES OF BODY FLUIDS AND CONTAIN VARIOUS BIOACTIVE MATERIALS, INCLUDING PROTEINS, LIPIDS, NUCLEIC ACIDS, AND MITOCHONDRIAL DNA. BASED ON THEIR ORIGIN AND BIOGENESIS, EVS CAN BE CLASSIFIED AS APOPTOTIC BODIES, MICROVESICLES, AND EXOSOMES. AMONG THESE, EXOSOMES ARE THE SMALLEST EVS (30-150 NM IN DIAMETER), WHICH PLAY A SIGNIFICANT ROLE IN CELL-TO-CELL COMMUNICATION AND EPIGENETIC REGULATION. MOREOVER, EXOSOMAL CONTENT ANALYSIS CAN REVEAL THE FUNCTIONAL STATE OF THE PARENTAL CELL. THEREFORE, EXOSOMES CAN BE APPLIED TO VARIOUS PURPOSES, INCLUDING DISEASE DIAGNOSIS AND TREATMENT, DRUG DELIVERY, CELL-FREE VACCINES, AND REGENERATIVE MEDICINE. HOWEVER, EXOSOME-RELATED RESEARCH FACES TWO MAJOR LIMITATIONS: ISOLATION OF EXOSOMES WITH HIGH YIELD AND PURITY AND DISTINCTION OF EXOSOMES FROM OTHER EVS (ESPECIALLY MICROVESICLES). NO STANDARDIZED EXOSOME ISOLATION METHOD HAS BEEN ESTABLISHED TO DATE; HOWEVER, VARIOUS EXOSOME ISOLATION STRATEGIES HAVE BEEN PROPOSED TO INVESTIGATE THEIR BIOLOGICAL ROLES. EXOSOME-MEDIATED INTERCELLULAR COMMUNICATIONS ARE KNOWN TO BE INVOLVED IN ALCOHOLIC LIVER DISEASE AND NONALCOHOLIC FATTY LIVER DISEASE DEVELOPMENT. DAMAGED HEPATOCYTES OR NONPARENCHYMAL CELLS RELEASE LARGE NUMBERS OF EXOSOMES THAT PROMOTE THE PROGRESSION OF INFLAMMATION AND FIBROGENESIS THROUGH INTERACTIONS WITH NEIGHBORING CELLS. EXOSOMES ARE EXPECTED TO PROVIDE INSIGHT ON THE PROGRESSION OF LIVER DISEASE. HERE, WE REVIEW THE BIOGENESIS OF EXOSOMES, EXOSOME ISOLATION TECHNIQUES, AND BIOLOGICAL ROLES OF EXOSOMES IN ALCOHOLIC LIVER DISEASE AND NONALCOHOLIC FATTY LIVER DISEASE. 2023 4 6328 28 THE ROLE OF CELL ORGANELLES IN RHEUMATOID ARTHRITIS WITH FOCUS ON EXOSOMES. AUTO-IMMUNE DISEASES INVOLVED AT LEAST 25% OF THE POPULATION IN WEALTHY COUNTRIES. SEVERAL FACTORS INCLUDING GENETIC, EPIGENETIC, AND ENVIRONMENTAL ELEMENTS ARE IMPLICATED IN DEVELOPMENT OF RHEUMATOID ARTHRITIS AS AN AUTOIMMUNE DISEASE. AUTOANTIBODIES CAUSE SYNOVIAL INFLAMMATION AND ARTHRITIS, IF LEFT UNTREATED OR BEING UNDER CONTINUAL EXTERNAL STIMULATION, COULD RESULT IN CHRONIC INFLAMMATION, JOINT INJURY, AND DISABILITY. T- AND B-CELLS, SIGNALING MOLECULES, PROINFLAMMATORY MEDIATORS, AND SYNOVIUM-SPECIFIC TARGETS ARE AMONG THE NEW THERAPEUTIC TARGETS. EXOSOMES COULD BE EMPLOYED AS THERAPEUTIC VECTORS IN THE TREATMENT OF AUTOIMMUNE DISEASES. HEREIN, THE ROLE OF CELL ORGANELLE PARTICULARLY EXOSOMES IN RHEUMATOID ARTHRITIS HAD DISCUSSED AND SOME THERAPEUTIC APPLICATIONS OF EXOSOME HIGHLIGHTED. 2021 5 2722 30 EXOSOMES AS A NEW PAIN BIOMARKER OPPORTUNITY. EXOSOMES ARE EXTRACELLULAR MICROVESICLES IMPLICATED IN INTERCELLULAR COMMUNICATION WITH ABILITY TO TRANSFER CARGO MOLECULES, INCLUDING PROTEIN, LIPIDS, AND NUCLEIC ACIDS, AT BOTH CLOSE AND DISTANT TARGET SITES. IT HAS BEEN SHOWN THAT EXOSOMES ARE IMPLICATED IN PHYSIOLOGICAL AND PATHOLOGICAL PROCESSES. IN RECENT YEARS, THE INTEREST ON EXOSOMES' ROLE IN MANY PAIN STATES HAS INCREASED. THEIR INVOLVEMENTS IN PAIN PROCESSES HAVE BEEN DEMONSTRATED BY STUDIES ON DIFFERENT CHRONIC PAIN DISEASES, BOTH INFLAMMATORY AND NEUROPATHIC, SUCH AS OSTEOARTHRITIS, RHEUMATOID ARTHRITIS, INFLAMMATORY BOWEL DISEASES, NEURODEGENERATIVE PATHOLOGIES, COMPLEX REGIONAL PAIN SYNDROME, AND PERIPHERAL NERVE INJURY. ANIMAL AND CLINICAL STUDIES INVESTIGATED EXOSOMES-BASED TREATMENTS, SHOWING THEIR ABILITY TO IMPROVE PAINFUL SYMPTOMS WITH FEWER SIDE EFFECTS, WITH POTENTIAL IMMUNOPROTECTIVE AND ANTI-INFLAMMATORY EFFECT. SPECIFIC MOLECULAR PATTERNS CHARACTERIZE EXOSOMES' CARGO ACCORDING TO THE CELLULAR ORIGIN, EPIGENETIC MODIFICATIONS, ENVIRONMENTAL STATE, AND STRESSOR FACTORS. THEREFORE, THE IDENTIFICATION OF SPECIFIC CARGO'S PROFILE ASSOCIATED TO PAIN STATES MAY LEAD TO RECOGNIZE SPECIFIC PATHOLOGICAL STATES AND TO CONSIDER THE USE OF EXOSOMES AS BIOMARKERS OF DISEASES. FURTHERMORE, EXOSOMES' ABILITY TO TRANSFER INFORMATION AND THEIR PRESENCE IN MANY ACCESSIBLE BIOLOGICAL FLUIDS SUGGEST A POTENTIAL USE AS NOVEL NON-INVASIVE THERAPEUTIC TOOLS IN PAIN FIELD. 2020 6 1051 30 CLINICAL IMPLICATIONS OF EXOSOME-DERIVED NONCODING RNAS IN LIVER. EXOSOMES, ONE OF THREE MAIN TYPES OF EXTRACELLULAR VESICLES, ARE ~30-100 NM IN DIAMETER AND HAVE A LIPID BILAYER MEMBRANE. THEY ARE WIDELY DISTRIBUTED IN ALMOST ALL BODY FLUIDS. EXOSOMES HAVE THE POTENTIAL TO REGULATE UNKNOWN CELLULAR AND MOLECULAR MECHANISMS IN INTERCELLULAR COMMUNICATION, ORGAN HOMEOSTASIS, AND DISEASES. THEY ARE CRITICAL SIGNAL CARRIERS THAT TRANSFER NUCLEIC ACIDS, PROTEINS, LIPIDS, AND OTHER SUBSTANCES INTO RECIPIENT CELLS, PARTICIPATING IN CELLULAR SIGNAL TRANSDUCTION AND MATERIAL EXCHANGE. NCRNAS ARE NON-PROTEIN-CODING GENES THAT ACCOUNT FOR OVER 90% OF THE GENOME AND INCLUDE MICRORNAS (MIRNAS), LONG NCRNAS (LNCRNAS), AND CIRCULAR RNAS (CIRCRNAS). NCRNAS ARE CRUCIAL FOR PHYSIOLOGICAL AND PATHOLOGICAL ACTIVITIES IN THE LIVER BY PARTICIPATING IN GENE TRANSCRIPTION, POSTTRANSCRIPTIONAL EPIGENETIC REGULATION, AND CELLULAR PROCESSES THROUGH INTERACTING WITH DNA, RNA, OR PROTEINS. RECENT EVIDENCE FROM BOTH CLINICAL AND PRECLINICAL STUDIES INDICATES THAT EXOSOME-DERIVED NONCODING RNAS (NCRNAS) ARE HIGHLY INVOLVED IN THE PROGRESSION OF ACUTE AND CHRONIC LIVER DISEASES BY REGULATING HEPATIC LIPID METABOLISM, INNATE IMMUNITY, VIRAL INFECTION, FIBROSIS, AND CANCER. THEREFORE, EXOSOME-DERIVED NCRNAS HAVE PROMISING POTENTIAL AND CLINICAL IMPLICATIONS FOR THE EARLY DIAGNOSIS, TARGETED THERAPY, AND PROGNOSIS OF LIVER DISEASES. 2022 7 6188 26 THE IMPACT OF INSOMNIA ON FRAILTY AND THE HALLMARKS OF AGING. THROUGHOUT THE COURSE OF LIFE, THERE ARE AGE-RELATED CHANGES IN SLEEP. DESPITE THESE NORMAL CHANGES, THERE IS A HIGH PERCENTAGE OF OLDER ADULTS THAT REPORT SLEEP DISSATISFACTION WITH A HIGH PERVASIVENESS OF CHRONIC INSOMNIA, THE MOST COMMON SLEEP DISORDER WORLDWIDE, WITH ITS PREVALENCE BEING EXPECTED TO CONTINUOUSLY INCREASE DUE TO THE GROWING RATES OF AGING AND OBESITY. THIS CAN HAVE DIFFERENT ADVERSE HEALTH OUTCOMES, ESPECIALLY BY PROMOTING BOTH PHYSICAL AND COGNITIVE DECLINE, WHICH ULTIMATELY MAY AGGRAVATE FRAILTY IN OLDER ADULTS. MOREOVER, AGE-RELATED FRAILTY AND SLEEP DYSFUNCTION MAY HAVE A COMMON MECHANISM RELATED TO THE HALLMARKS OF CELLULAR AGING. CELLULAR AGING WAS CATEGORIZED INTO NINE HALLMARKS, SUCH AS DNA DAMAGE, TELOMERE ATTRITION AND EPIGENETIC CHANGES. IN THE CONTEXT OF GERIATRIC AND CHRONIC INSOMNIA RESEARCH, THIS REVIEW AIMS AT DISCUSSING THE CURRENT EVIDENCE FROM BOTH ANIMAL MODELS AND HUMAN COHORTS ADDRESSING THE LINK BETWEEN CHRONIC INSOMNIA, THE HALLMARKS OF AGING AND THEIR IMPACT ON FRAILTY. MOREOVER, THE MOST RECENT RESEARCH ABOUT THE PUTATIVE EFFECT OF INSOMNIA THERAPEUTIC APPROACHES ON HALLMARKS OF AGING WILL BE ALSO HIGHLIGHTED. 2023 8 1136 37 COMPREHENSIVE OVERVIEW OF MICRORNA FUNCTION IN RHEUMATOID ARTHRITIS. MICRORNAS (MIRNAS), A CLASS OF ENDOGENOUS SINGLE-STRANDED SHORT NONCODING RNAS, HAVE EMERGED AS VITAL EPIGENETIC REGULATORS OF BOTH PATHOLOGICAL AND PHYSIOLOGICAL PROCESSES IN ANIMALS. THEY DIRECT FUNDAMENTAL CELLULAR PATHWAYS AND PROCESSES BY FINE-TUNING THE EXPRESSION OF MULTIPLE GENES AT THE POSTTRANSCRIPTIONAL LEVEL. GROWING EVIDENCE SUGGESTS THAT MIRNAS ARE IMPLICATED IN THE ONSET AND DEVELOPMENT OF RHEUMATOID ARTHRITIS (RA). RA IS A CHRONIC INFLAMMATORY DISEASE THAT MAINLY AFFECTS SYNOVIAL JOINTS. THIS COMMON AUTOIMMUNE DISORDER IS CHARACTERIZED BY A COMPLEX AND MULTIFACETED PATHOGENESIS, AND ITS MORBIDITY, DISABILITY AND MORTALITY RATES REMAIN CONSISTENTLY HIGH. MORE IN-DEPTH INSIGHTS INTO THE UNDERLYING MECHANISMS OF RA ARE REQUIRED TO ADDRESS UNMET CLINICAL NEEDS AND OPTIMIZE TREATMENT. HEREIN, WE COMPREHENSIVELY REVIEW THE DEREGULATED MIRNAS AND IMPAIRED CELLULAR FUNCTIONS IN RA TO SHED LIGHT ON SEVERAL ASPECTS OF RA PATHOGENESIS, WITH A FOCUS ON EXCESSIVE INFLAMMATION, SYNOVIAL HYPERPLASIA AND PROGRESSIVE JOINT DAMAGE. THIS REVIEW ALSO PROVIDES PROMISING TARGETS FOR INNOVATIVE THERAPIES OF RA. IN ADDITION, WE DISCUSS THE REGULATORY ROLES AND CLINICAL POTENTIAL OF EXTRACELLULAR MIRNAS IN RA, HIGHLIGHTING THEIR PROSPECTIVE APPLICATIONS AS DIAGNOSTIC AND PREDICTIVE BIOMARKERS. 2023 9 6169 22 THE GUT MICROBIOTA AND HEALTHY AGING: A MINI-REVIEW. THE GUT MICROBIOTA SHOWS A WIDE INTER-INDIVIDUAL VARIATION, BUT ITS WITHIN-INDIVIDUAL VARIATION IS RELATIVELY STABLE OVER TIME. A FUNCTIONAL CORE MICROBIOME, PROVIDED BY ABUNDANT BACTERIAL TAXA, SEEMS TO BE COMMON TO VARIOUS HUMAN HOSTS REGARDLESS OF THEIR GENDER, GEOGRAPHIC LOCATION, AND AGE. WITH ADVANCING CHRONOLOGICAL AGE, THE GUT MICROBIOTA BECOMES MORE DIVERSE AND VARIABLE. HOWEVER, WHEN MEASURES OF BIOLOGICAL AGE ARE USED WITH ADJUSTMENT FOR CHRONOLOGICAL AGE, OVERALL RICHNESS DECREASES, WHILE A CERTAIN GROUP OF BACTERIA ASSOCIATED WITH FRAILTY INCREASES. THIS HIGHLIGHTS THE IMPORTANCE OF CONSIDERING BIOLOGICAL OR FUNCTIONAL MEASURES OF AGING. STUDIES USING MODEL ORGANISMS INDICATE THAT AGE-RELATED GUT DYSBIOSIS MAY CONTRIBUTE TO UNHEALTHY AGING AND REDUCED LONGEVITY. THE GUT MICROBIOME DEPENDS ON THE HOST NUTRIENT SIGNALING PATHWAYS FOR ITS BENEFICIAL EFFECTS ON HOST HEALTH AND LIFESPAN, AND GUT DYSBIOSIS DISRUPTING THE INTERDEPENDENCE MAY DIMINISH THE BENEFICIAL EFFECTS OR EVEN HAVE REVERSE EFFECTS. GUT DYSBIOSIS CAN TRIGGER THE INNATE IMMUNE RESPONSE AND CHRONIC LOW-GRADE INFLAMMATION, LEADING TO MANY AGE-RELATED DEGENERATIVE PATHOLOGIES AND UNHEALTHY AGING. THE GUT MICROBIOTA COMMUNICATES WITH THE HOST THROUGH VARIOUS BIOMOLECULES, NUTRIENT SIGNALING-INDEPENDENT PATHWAYS, AND EPIGENETIC MECHANISMS. DISTURBANCE OF THESE COMMUNICATIONS BY AGE-RELATED GUT DYSBIOSIS CAN AFFECT THE HOST HEALTH AND LIFESPAN. THIS MAY EXPLAIN THE IMPACT OF THE GUT MICROBIOME ON HEALTH AND AGING. 2018 10 5372 37 RECENT ADVANCES IN UNDERSTANDING THE PATHOGENESIS OF RHEUMATOID ARTHRITIS: NEW TREATMENT STRATEGIES. RHEUMATOID ARTHRITIS (RA) IS CONSIDERED A CHRONIC SYSTEMIC, MULTI-FACTORIAL, INFLAMMATORY, AND PROGRESSIVE AUTOIMMUNE DISEASE AFFECTING MANY PEOPLE WORLDWIDE. WHILE PATIENTS SHOW VERY INDIVIDUAL COURSES OF DISEASE, WITH RA FOCUSING ON THE MUSCULOSKELETAL SYSTEM, JOINTS ARE OFTEN SEVERELY AFFECTED, LEADING TO LOCAL INFLAMMATION, CARTILAGE DESTRUCTION, AND BONE EROSION. TO PREVENT JOINT DAMAGE AND PHYSICAL DISABILITY AS ONE OF MANY SYMPTOMS OF RA, EARLY DIAGNOSIS IS CRITICAL. AUTO-ANTIBODIES PLAY A PIVOTAL CLINICAL ROLE IN PATIENTS WITH SYSTEMIC RA. AS BIOMARKERS, THEY COULD HELP TO MAKE A MORE EFFICIENT DIAGNOSIS, PROGNOSIS, AND TREATMENT DECISION. BESIDES AUTO-ANTIBODIES, SEVERAL OTHER FACTORS ARE INVOLVED IN THE PROGRESSION OF RA, SUCH AS EPIGENETIC ALTERATIONS, POST-TRANSLATIONAL MODIFICATIONS, GLYCOSYLATION, AUTOPHAGY, AND T-CELLS. UNDERSTANDING THE INTERPLAY BETWEEN THESE FACTORS WOULD CONTRIBUTE TO A DEEPER INSIGHT INTO THE CAUSES, MECHANISMS, PROGRESSION, AND TREATMENT OF THE DISEASE. IN THIS REVIEW, THE LATEST RA RESEARCH FINDINGS ARE DISCUSSED TO BETTER UNDERSTAND THE PATHOGENESIS, AND FINALLY, TREATMENT STRATEGIES FOR RA THERAPY ARE PRESENTED, INCLUDING BOTH CONVENTIONAL APPROACHES AND NEW METHODS THAT HAVE BEEN DEVELOPED IN RECENT YEARS OR ARE CURRENTLY UNDER INVESTIGATION. 2021 11 6218 29 THE JOINT SYNOVIUM: A CRITICAL DETERMINANT OF ARTICULAR CARTILAGE FATE IN INFLAMMATORY JOINT DISEASES. THE SYNOVIUM CONSTITUTES THE ENVELOPE OF ARTICULAR JOINTS AND IS A CRITICAL PROVIDER OF SYNOVIAL FLUID COMPONENTS AND ARTICULAR CARTILAGE NUTRIENTS. ITS INFLAMMATION IS A PREDOMINANT FEATURE AND CAUSE OF JOINT DEGENERATION IN DISEASES AS DIVERSE AS RHEUMATOID, PSORIATIC, JUVENILE AND IDIOPATHIC ARTHRITIS, AND LUPUS, GOUT AND LYME DISEASE. THESE INFLAMMATORY JOINT DISEASES (IJDS) ARE DUE TO A WIDE VARIETY OF GENETIC, EPIGENETIC AND ENVIRONMENTAL FACTORS THAT TRIGGER, PROMOTE, AND PERPETUATE JOINT DESTABILIZATION. IN SPITE OF THIS VARIETY OF CAUSES, IJDS SHARE MAIN PATHOLOGICAL FEATURES, NAMELY INFLAMMATION OF THE JOINT SYNOVIUM (SYNOVITIS) AND PROGRESSIVE DEGENERATION OF ARTICULAR CARTILAGE. IN ADDITION TO BEING A DRIVING FORCE BEHIND THE DESTRUCTION OF ARTICULAR CARTILAGE IN IJD, SYNOVITIS IS ALSO INCREASINGLY BEING RECOGNIZED AS A SIGNIFICANT CONTRIBUTOR OF ARTICULAR CARTILAGE DEGENERATION IN OSTEOARTHRITIS, A DISEASE PRIMARILY DUE TO AGING- OR TRAUMA-RELATED WEAR AND TEAR OF CARTILAGE SURFACES. IN VIEW OF THIS IMPORTANT ROLE OF THE SYNOVIUM IN DETERMINING THE FATE OF ARTICULAR CARTILAGE, THIS REVIEW FOCUSES ON ITS UNDERLYING MECHANISMS IN THE PATHOLOGY OF IJD. WE ADDRESS THE ROLES OF SYNOVIAL FIBROBLASTS, MACROPHAGES AND ENDOTHELIAL CELLS IN THE MAINTENANCE OF JOINT HEALTH AND IN THE DESTRUCTION OF ARTICULAR CARTILAGE INTEGRITY DURING IJD. MOLECULAR MECHANISMS THAT HAVE BEEN RECENTLY SHOWN TO GOVERN THE PATHOLOGICAL ACTIVITIES OF THE RESIDENT SYNOVIAL CELLS ARE HIGHLIGHTED. FINALLY, ADVANTAGES AND DISADVANTAGES OF TARGETING THESE NEW MOLECULAR MECHANISMS FOR PREVENTING CARTILAGE DEGENERATION DUE TO CHRONIC INFLAMMATION ARE ALSO DISCUSSED. 2017 12 4589 23 NANOPARTICLES IN THE DIAGNOSIS AND TREATMENT OF VASCULAR AGING AND RELATED DISEASES. AGING-INDUCED ALTERNATIONS OF VASCULATURE STRUCTURES, PHENOTYPES, AND FUNCTIONS ARE KEY IN THE OCCURRENCE AND DEVELOPMENT OF VASCULAR AGING-RELATED DISEASES. MULTIPLE MOLECULAR AND CELLULAR EVENTS, SUCH AS OXIDATIVE STRESS, MITOCHONDRIAL DYSFUNCTION, VASCULAR INFLAMMATION, CELLULAR SENESCENCE, AND EPIGENETIC ALTERATIONS ARE HIGHLY ASSOCIATED WITH VASCULAR AGING PHYSIOPATHOLOGY. ADVANCES IN NANOPARTICLES AND NANOTECHNOLOGY, WHICH CAN REALIZE SENSITIVE DIAGNOSTIC MODALITIES, EFFICIENT MEDICAL TREATMENT, AND BETTER PROGNOSIS AS WELL AS LESS ADVERSE EFFECTS ON NON-TARGET TISSUES, PROVIDE AN AMAZING WINDOW IN THE FIELD OF VASCULAR AGING AND RELATED DISEASES. THROUGHOUT THIS REVIEW, WE PRESENTED CURRENT KNOWLEDGE ON CLASSIFICATION OF NANOPARTICLES AND THE RELATIONSHIP BETWEEN VASCULAR AGING AND RELATED DISEASES. IMPORTANTLY, WE COMPREHENSIVELY SUMMARIZED THE POTENTIAL OF NANOPARTICLES-BASED DIAGNOSTIC AND THERAPEUTIC TECHNIQUES IN VASCULAR AGING AND RELATED DISEASES, INCLUDING CARDIOVASCULAR DISEASES, CEREBROVASCULAR DISEASES, AS WELL AS CHRONIC KIDNEY DISEASES, AND DISCUSSED THE ADVANTAGES AND LIMITATIONS OF THEIR CLINICAL APPLICATIONS. 2022 13 929 19 CHRONIC INFLAMMATION: ACCELERATOR OF BIOLOGICAL AGING. BIOLOGICAL AGING IS CHARACTERIZED BY A CHRONIC LOW-GRADE INFLAMMATION LEVEL. THIS CHRONIC PHENOMENON HAS BEEN NAMED "INFLAMM-AGING" AND IS A HIGHLY SIGNIFICANT RISK FACTOR FOR MORBIDITY AND MORTALITY IN THE OLDER PERSONS. THE MOST COMMON THEORIES OF INFLAMM-AGING INCLUDE REDOX STRESS, MITOCHONDRIAL DYSFUNCTION, GLYCATION, DEREGULATION OF THE IMMUNE SYSTEM, HORMONAL CHANGES, EPIGENETIC MODIFICATIONS, AND DYSFUNCTION TELOMERE ATTRITION. INFLAMM-AGING PLAYS A ROLE IN THE INITIATION AND PROGRESSION OF AGE-RELATED DISEASES SUCH AS TYPE II DIABETES, ALZHEIMER'S DISEASE, CARDIOVASCULAR DISEASE, FRAILTY, SARCOPENIA, OSTEOPOROSIS, AND CANCER. THIS REVIEW WILL COVER THE IDENTIFICATION OF PATHWAYS THAT CONTROL AGE-RELATED INFLAMMATION ACROSS MULTIPLE SYSTEMS AND ITS POTENTIAL CAUSAL ROLE IN CONTRIBUTING TO ADVERSE HEALTH OUTCOMES. 2017 14 1514 18 DNA METHYLATION AND THE EPIGENETIC CLOCK IN RELATION TO PHYSICAL FRAILTY IN OLDER PEOPLE: THE LOTHIAN BIRTH COHORT 1936. BACKGROUND: THE BIOLOGICAL MECHANISMS UNDERLYING FRAILTY IN OLDER PEOPLE ARE POORLY UNDERSTOOD. THERE IS SOME EVIDENCE TO SUGGEST THAT DNA METHYLATION PATTERNS MAY BE ALTERED IN FRAIL INDIVIDUALS. METHODS: PARTICIPANTS WERE 791 PEOPLE AGED 70 YEARS FROM THE LOTHIAN BIRTH COHORT 1936. DNA METHYLATION WAS MEASURED IN WHOLE BLOOD. BIOLOGICAL AGE WAS ESTIMATED USING TWO MEASURES OF DNA METHYLATION-BASED AGE ACCELERATION-EXTRINSIC AND INTRINSIC EPIGENETIC AGE ACCELERATION. WE CARRIED OUT AN EPIGENOME-WIDE ASSOCIATION STUDY OF PHYSICAL FRAILTY, AS DEFINED BY THE FRIED PHENOTYPE. MULTINOMIAL LOGISTIC REGRESSION WAS USED TO CALCULATE RELATIVE RISK RATIOS FOR BEING PHYSICALLY FRAIL OR PRE-FRAIL ACCORDING TO EPIGENETIC AGE ACCELERATION. RESULTS: THERE WAS A SINGLE SIGNIFICANT (P = 1.16 X 10-7) ASSOCIATION IN THE EPIGENOME-WIDE ASSOCIATION STUDY COMPARING FRAIL VERSUS NOT FRAIL. THE SAME CPG WAS NOT SIGNIFICANT WHEN COMPARING PRE-FRAIL VERSUS NOT FRAIL. GREATER EXTRINSIC EPIGENETIC AGE ACCELERATION WAS ASSOCIATED WITH AN INCREASED RISK OF BEING PHYSICALLY FRAIL, BUT NOT OF BEING PRE-FRAIL. FOR A YEAR INCREASE IN EXTRINSIC EPIGENETIC AGE ACCELERATION, AGE- AND SEX-ADJUSTED RELATIVE RISK RATIOS (95% CI) FOR BEING PHYSICALLY FRAIL OR PRE-FRAIL WERE 1.06 (1.02, 1.10) AND 1.02 (1.00, 1.04), RESPECTIVELY. AFTER FURTHER ADJUSTMENT FOR SMOKING AND CHRONIC DISEASE, THE ASSOCIATION WITH PHYSICAL FRAILTY REMAINED SIGNIFICANT. INTRINSIC EPIGENETIC AGE ACCELERATION WAS NOT ASSOCIATED WITH PHYSICAL FRAILTY STATUS. CONCLUSIONS: PEOPLE WHO ARE BIOLOGICALLY OLDER, AS INDEXED BY GREATER EXTRINSIC EPIGENETIC AGE ACCELERATION, ARE MORE LIKELY TO BE PHYSICALLY FRAIL. FUTURE RESEARCH WILL NEED TO INVESTIGATE WHETHER EPIGENETIC AGE ACCELERATION PLAYS A CAUSAL ROLE IN THE ONSET OF PHYSICAL FRAILTY. 2018 15 484 31 ARTICULAR CARTILAGE CHANGES IN MATURING ATHLETES: NEW TARGETS FOR JOINT REJUVENATION. CONTEXT: ARTICULAR CARTILAGE HAS A UNIQUE FUNCTIONAL ARCHITECTURE CAPABLE OF PROVIDING A LIFETIME OF PAIN-FREE JOINT MOTION. THIS TISSUE, HOWEVER, UNDERGOES SUBSTANTIAL AGE-RELATED PHYSIOLOGIC, MECHANICAL, BIOCHEMICAL, AND FUNCTIONAL CHANGES THAT REDUCE ITS ABILITY TO OVERCOME THE EFFECTS OF MECHANICAL STRESS AND INJURY. MANY FACTORS AFFECT JOINT FUNCTION IN THE MATURING ATHLETE-FROM CHONDROCYTE SURVIVAL AND METABOLISM TO STRUCTURAL COMPOSITION AND GENETIC/EPIGENETIC FACTORS GOVERNING CARTILAGE AND SYNOVIUM. AN EVALUATION OF AGE-RELATED CHANGES FOR JOINT HOMEOSTASIS AND RISK FOR OSTEOARTHRITIS IS IMPORTANT TO THE DEVELOPMENT OF NEW STRATEGIES TO REJUVENATE AGING JOINTS. OBJECTIVE: THIS REVIEW SUMMARIZES THE CURRENT LITERATURE ON THE BIOCHEMICAL, CELLULAR, AND PHYSIOLOGIC CHANGES OCCURRING IN AGING ARTICULAR CARTILAGE. DATA SOURCES: PUBMED (1969-2013) AND PUBLISHED BOOKS IN SPORTS HEALTH, CARTILAGE BIOLOGY, AND AGING. STUDY SELECTION: KEYWORDS INCLUDED AGING, ATHLETE, ARTICULAR CARTILAGE, EPIGENETICS, AND FUNCTIONAL PERFORMANCE WITH AGE. STUDY DESIGN: SYSTEMATIC REVIEW. LEVEL OF EVIDENCE: LEVEL 3. DATA EXTRACTION: TO BE INCLUDED, RESEARCH QUESTIONS ADDRESSED THE EFFECT OF AGE-RELATED CHANGES ON PERFORMANCE, ARTICULAR CARTILAGE BIOLOGY, MOLECULAR MECHANISM, AND MORPHOLOGY. RESULTS: THE MATURE ATHLETE FACES CHALLENGES IN MAINTAINING CARTILAGE HEALTH AND JOINT FUNCTION DUE TO AGE-RELATED CHANGES TO ARTICULAR CARTILAGE BIOLOGY, MORPHOLOGY, AND PHYSIOLOGY. THESE CHANGES INCLUDE CHONDROCYTE LOSS AND A DECLINE IN METABOLIC RESPONSE, ALTERATIONS TO MATRIX AND SYNOVIAL TISSUE COMPOSITION, AND DYSREGULATION OF REPARATIVE RESPONSES. CONCLUSION: ALTHOUGH PHYSICAL DECLINE HAS BEEN REGARDED AS A NORMAL PART OF AGING, MANY INDIVIDUALS MAINTAIN OVERALL FITNESS AND ENJOY TARGETED IMPROVEMENT TO THEIR ATHLETIC CAPACITY THROUGHOUT LIFE. HEALTHY ARTICULAR CARTILAGE AND JOINTS ARE NEEDED TO MAINTAIN ATHLETIC PERFORMANCE AND GENERAL ACTIVITIES. GENETIC AND POTENTIALLY REVERSIBLE EPIGENETIC FACTORS INFLUENCE CARTILAGE PHYSIOLOGY AND ITS RESPONSE TO MECHANICAL AND INJURIOUS STIMULI. IMPROVED UNDERSTANDINGS OF THE PHYSICAL AND MOLECULAR CHANGES TO ARTICULAR CARTILAGE WITH AGING ARE IMPORTANT TO DEVELOP SUCCESSFUL STRATEGIES FOR JOINT REJUVENATION. 2014 16 1175 27 CONTRIBUTIONS OF AGE-RELATED THYMIC INVOLUTION TO IMMUNOSENESCENCE AND INFLAMMAGING. IMMUNE SYSTEM AGING IS CHARACTERIZED BY THE PARADOX OF IMMUNOSENESCENCE (INSUFFICIENCY) AND INFLAMMAGING (OVER-REACTION), WHICH INCORPORATE TWO SIDES OF THE SAME COIN, RESULTING IN IMMUNE DISORDER. IMMUNOSENESCENCE REFERS TO DISRUPTION IN THE STRUCTURAL ARCHITECTURE OF IMMUNE ORGANS AND DYSFUNCTION IN IMMUNE RESPONSES, RESULTING FROM BOTH AGED INNATE AND ADAPTIVE IMMUNITY. INFLAMMAGING, DESCRIBED AS A CHRONIC, STERILE, SYSTEMIC INFLAMMATORY CONDITION ASSOCIATED WITH ADVANCED AGE, IS MAINLY ATTRIBUTED TO SOMATIC CELLULAR SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP) AND AGE-RELATED AUTOIMMUNE PREDISPOSITION. HOWEVER, THE INABILITY TO REDUCE SENESCENT SOMATIC CELLS (SSCS), BECAUSE OF IMMUNOSENESCENCE, EXACERBATES INFLAMMAGING. AGE-RELATED ADAPTIVE IMMUNE SYSTEM DEVIATIONS, PARTICULARLY ALTERED T CELL FUNCTION, ARE DERIVED FROM AGE-RELATED THYMIC ATROPHY OR INVOLUTION, A HALLMARK OF THYMIC AGING. RECENTLY, THERE HAVE BEEN MAJOR DEVELOPMENTS IN UNDERSTANDING HOW AGE-RELATED THYMIC INVOLUTION CONTRIBUTES TO INFLAMMAGING AND IMMUNOSENESCENCE AT THE CELLULAR AND MOLECULAR LEVELS, INCLUDING GENETIC AND EPIGENETIC REGULATION, AS WELL AS DEVELOPMENTS OF MANY POTENTIAL REJUVENATION STRATEGIES. HEREIN, WE DISCUSS THE RESEARCH PROGRESS UNCOVERING HOW AGE-RELATED THYMIC INVOLUTION CONTRIBUTES TO IMMUNOSENESCENCE AND INFLAMMAGING, AS WELL AS THEIR INTERSECTION. WE ALSO DESCRIBE HOW T CELL ADAPTIVE IMMUNITY MEDIATES INFLAMMAGING AND PLAYS A CRUCIAL ROLE IN THE PROGRESSION OF AGE-RELATED NEUROLOGICAL AND CARDIOVASCULAR DISEASES, AS WELL AS CANCER. WE THEN BRIEFLY OUTLINE THE UNDERLYING CELLULAR AND MOLECULAR MECHANISMS OF AGE-RELATED THYMIC INVOLUTION, AND FINALLY SUMMARIZE POTENTIAL REJUVENATION STRATEGIES TO RESTORE AGED THYMIC FUNCTION. 2020 17 2557 37 EPIGENETICS IN RHEUMATOID ARTHRITIS; FIBROBLAST-LIKE SYNOVIOCYTES AS AN EMERGING PARADIGM IN THE PATHOGENESIS OF THE DISEASE. RHEUMATOID ARTHRITIS (RA) IS CHARACTERIZED BY IMMUNE DYSFUNCTIONS AND CHRONIC INFLAMMATION THAT MAINLY AFFECTS DIARTHRODIAL JOINTS. GENETICS HAS LONG BEEN SURVEYED IN SEARCHING FOR THE ETIOPATHOGENESIS OF THE DISEASE AND PARTIALLY CLARIFIED THE CONUNDRUMS WITHIN THIS CONTEXT. EPIGENETIC ALTERATIONS, SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, AND NONCODING RNAS, WHICH HAVE BEEN CONSIDERED TO BE INVOLVED IN RA PATHOGENESIS, LIKELY EXPLAIN THE NONGENETIC RISK FACTORS. EPIGENETIC MODIFICATIONS MAY INFLUENCE RA THROUGH FIBROBLAST-LIKE SYNOVIOCYTES (FLSS). IT HAS BEEN SHOWN THAT FLSS PLAY AN ESSENTIAL ROLE IN THE ONSET AND EXACERBATION OF RA, AND THEREFORE, THEY MAY ILLUSTRATE SOME ASPECTS OF RA PATHOGENESIS. THESE CELLS EXHIBIT A UNIQUE DNA METHYLATION PROFILE IN THE EARLY STAGE OF THE DISEASE THAT CHANGES WITH DISEASE PROGRESSION. HISTONE ACETYLATION PROFILE IN RA FLSS IS DISRUPTED THROUGH THE IMBALANCE OF HISTONE ACETYLTRANSFERASES AND HISTONE DEACETYLASE ACTIVITY. FURTHERMORE, DYSREGULATION OF MICRORNAS (MIRNAS) IS IMMENSE. MOST OF THESE MIRNAS HAVE SHOWN AN ABERRANT EXPRESSION IN FLSS THAT ARE INVOLVED IN PROLIFERATION AND CYTOKINE PRODUCTION. BESIDES, DYSREGULATION OF LONG NONCODING RNAS IN FLSS HAS BEEN REVEALED AND ATTRIBUTED TO RA PATHOGENESIS. FURTHER INVESTIGATIONS ARE NEEDED TO GET A BETTER VIEW OF EPIGENETIC ALTERATIONS AND THEIR INTERACTIONS. WE ALSO DISCUSS THE ROLE OF THESE EPIGENETIC ALTERATIONS IN RA PATHOGENESIS AND THEIR THERAPEUTIC POTENTIAL. 2020 18 5685 30 SHOULD WE INVEST IN BIOLOGICAL AGE PREDICTORS TO TREAT COLORECTAL CANCER IN OLDER ADULTS? COLORECTAL CANCER (CRC) IS A CHRONIC DISEASE OF THE OLD POPULATION WITH SLOW DEVELOPMENT PROGRESSING INTO CLINICAL SIGNS AND SYMPTOMS. BIOLOGICAL AGING IS CHARACTERIZED BY E.G. MITOCHONDRIAL DYSFUNCTION AND EPIGENETIC ALTERATIONS (E.G. METHYLATION) - MECHANISMS THAT ARE ALSO IMPORTANT IN CANCER DEVELOPMENT. FOR CRC, SPECIFIC TYPES OF TUMORS ARE DISTINGUISHABLE BY THEIR METHYLATION PATTERNS AND SEVERAL DETECTION METHODS USING DIFFERENT EPIGENETIC MARKS HAVE BEEN DEVELOPED AS SIGNATURES FOR THE DISEASE. BIOLOGICAL AGE ASSESSED BY DNA METHYLATION PATTERNS FROM BLOOD, I.E. THE EPIGENETIC CLOCK, IS HIGHER IN CRC PATIENTS COMPARED TO CONTROLS, AND MAY BE A TOOL FOR IDENTIFYING INDIVIDUALS AT INCREASED RISK FOR CRC. OTHER TYPES OF BIOMARKERS OF AGING ARE USEFUL TO CALCULATE BIOLOGICAL AGE, SUCH AS METABOLITES, PROTEIN LEVELS, INFLAMMATORY MARKERS AND CLINICAL BIOMARKERS, WHERE COMPOSITE SCORES OF BIOMARKERS HAVE BEEN USED TO ASSESS THE RISK OF CRC AND COLORECTAL ADENOMAS. CLINICAL ASSESSMENTS OF BIOLOGICAL AGING INCLUDES FRAILTY, WHICH IS A GERIATRIC SYNDROME CHARACTERIZED BY INCREASED VULNERABILITY TO ADVERSE OUTCOMES. MORE THAN HALF OF THE CRC PATIENTS ARE ESTIMATED TO BE FRAIL OR PRE-FRAIL, AND THESE INDIVIDUALS ARE AT INCREASED RISK OF POSTOPERATIVE COMPLICATIONS, POORER PROGNOSIS, TREATMENT INTOLERANCE AND DEATH. HENCE, CONSIDERING FRAILTY AS PART OF BIOLOGICAL AGE IN CRC PATIENTS MAY HELP IDENTIFYING THOSE AT NEED OF CLOSE MONITORING. IN SUMMARY, FUTURE SCREENING PROGRAMS FOR CRC MAY MAKE USE OF BIOLOGICAL AGE ASSESSMENTS, E.G. BY EPIGENETIC CLOCK OR COMPOSITE SCORES. MONITORING DISEASE RELAPSE AND TREATMENT RESPONSE SHOULD BE ENHANCED IN FRAIL INDIVIDUALS FOR BETTER PROGNOSIS. 2020 19 5672 28 SHARED AND DIVERGENT EPIGENETIC MECHANISMS IN CACHEXIA AND SARCOPENIA. SIGNIFICANT LOSS OF MUSCLE MASS MAY OCCUR IN CACHEXIA AND SARCOPENIA, WHICH ARE MAJOR CAUSES OF MORTALITY AND DISABILITY. CACHEXIA REPRESENTS A COMPLEX MULTI-ORGAN SYNDROME ASSOCIATED WITH CANCER AND CHRONIC DISEASES. IT IS OFTEN CHARACTERIZED BY BODY WEIGHT LOSS, INFLAMMATION, AND MUSCLE AND ADIPOSE WASTING. PROGRESSIVE MUSCLE LOSS IS ALSO A HALLMARK OF HEALTHY AGING, WHICH IS EMERGING WORLDWIDE AS A MAIN DEMOGRAPHIC TREND. A GREAT CHALLENGE FOR THE HEALTH CARE SYSTEMS IS THE AGE-RELATED DECLINE IN FUNCTIONALITY WHICH THREATENS THE INDEPENDENCE AND QUALITY OF LIFE OF ELDERLY PEOPLE. THIS BIOLOGICAL DECLINE CAN ALSO BE ASSOCIATED WITH FUNCTIONAL MUSCLE LOSS, KNOWN AS SARCOPENIA. PREVIOUS STUDIES HAVE SHOWN THAT MICRORNAS (MIRNAS) PLAY PIVOTAL ROLES IN THE DEVELOPMENT AND PROGRESSION OF MUSCLE WASTING IN BOTH CACHEXIA AND SARCOPENIA. THESE SMALL NON-CODING RNAS, OFTEN CARRIED IN EXTRACELLULAR VESICLES, INHIBIT TRANSLATION BY TARGETING MESSENGER RNAS, THEREFORE REPRESENTING POTENT EPIGENETIC MODULATORS. THE MOLECULAR MECHANISMS BEHIND CACHEXIA AND SARCOPENIA, INCLUDING THE EXPRESSION OF SPECIFIC MIRNAS, SHARE COMMON AND DISTINCTIVE TRENDS. THE AIM OF THE PRESENT REVIEW IS TO COMPILE RECENT EVIDENCE ABOUT SHARED AND DIVERGENT EPIGENETIC MECHANISMS, PARTICULARLY FOCUSING ON MIRNAS, BETWEEN CACHEXIA AND SARCOPENIA TO UNDERSTAND A FACET IN THE UNDERLYING MUSCLE WASTING ASSOCIATED WITH THESE MORBIDITIES AND DISCLOSE POTENTIAL THERAPEUTIC INTERVENTIONS. 2022 20 2556 21 EPIGENETICS IN RHEUMATOID ARTHRITIS. EPIGENETICS IS A STEADILY GROWING RESEARCH AREA. IN MANY HUMAN DISEASES, ESPECIALLY IN CANCERS, BUT ALSO IN AUTOIMMUNE DISEASES, EPIGENETIC ABERRATIONS HAVE BEEN FOUND. RHEUMATOID ARTHRITIS IS AN AUTOIMMUNE DISEASE CHARACTERIZED BY CHRONIC INFLAMMATION AND DESTRUCTION OF SYNOVIAL JOINTS. EVEN THOUGH THE ETIOLOGY IS NOT YET FULLY UNDERSTOOD, RHEUMATOID ARTHRITIS IS GENERALLY CONSIDERED TO BE CAUSED BY A COMBINATION OF GENETIC PREDISPOSITION, DEREGULATED IMMUNOMODULATION, AND ENVIRONMENTAL INFLUENCES. TO GAIN A BETTER UNDERSTANDING OF THIS DISEASE, RESEARCHERS HAVE BECOME INTERESTED IN STUDYING EPIGENETIC CHANGES IN RHEUMATOID ARTHRITIS. HERE, WE WANT TO REVIEW THE CURRENT KNOWLEDGE ON EPIGENETICS IN RHEUMATOID ARTHRITIS. 2010