1 757 129 CARTILAGE REPAIR BY MESENCHYMAL STEM CELLS: CLINICAL TRIAL UPDATE AND PERSPECTIVES. OSTEOARTHRITIS IS A DEGENERATIVE DISEASE OF JOINTS WITH DESTRUCTION OF ARTICULAR CARTILAGE ASSOCIATED WITH SUBCHONDRAL BONE HYPERTROPHY AND INFLAMMATION. OA IS THE LEADING CAUSE OF JOINT PAIN RESULTING IN SIGNIFICANT WORSENING OF THE QUALITY-OF-LIFE IN THE ELDERLY. NUMEROUS EFFORTS HAVE BEEN SPENT TO OVERCOME THE INHERENTLY POOR HEALING ABILITY OF ARTICULAR CARTILAGE. MESENCHYMAL STEM CELLS (MSCS) HAVE BEEN IN THE LIMELIGHT OF CELL-BASED THERAPIES TO PROMOTE CARTILAGE REPAIR. DESPITE PROGRESSIVE ADVANCEMENTS IN MSC MANIPULATION AND THE INTRODUCTION OF VARIOUS BIOACTIVE SCAFFOLDS AND GROWTH FACTORS IN PRECLINICAL STUDIES, CURRENT CLINICAL TRIALS ARE STILL AT EARLY STAGES WITH PRELIMINARY AIMS TO EVALUATE SAFETY, FEASIBILITY AND EFFICACY. THIS REVIEW SUMMARISES RECENTLY REPORTED MSC-BASED CLINICAL TRIALS AND DISCUSSES NEW RESEARCH DIRECTIONS WITH PARTICULAR FOCUS ON THE POTENTIAL APPLICATION OF MSC-DERIVED EXTRACELLULAR VEHICLES, MIRNAS AND ADVANCED GENE EDITING TECHNIQUES WHICH MAY SHED LIGHT ON THE DEVELOPMENT OF NOVEL TREATMENT STRATEGIES. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: THIS REVIEW SUMMARISES RECENT MSC-RELATED CLINICAL RESEARCH THAT FOCUSES ON CARTILAGE REPAIR. WE ALSO PROPOSE A NOVEL POSSIBLE TRANSLATIONAL DIRECTION FOR HYALINE CARTILAGE FORMATION AND A NEW PARADIGM MAKING USE OF EXTRA-CELLULAR SIGNALLING AND EPIGENETIC REGULATION IN THE APPLICATION OF MSCS FOR CARTILAGE REPAIR. 2017 2 2460 36 EPIGENETIC THERAPIES FOR OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS AN AGE-ASSOCIATED DISEASE CHARACTERIZED BY CHRONIC JOINT PAIN RESULTING FROM DEGRADATION OF ARTICULAR CARTILAGE, INFLAMMATION OF THE SYNOVIAL LINING, AND CHANGES TO THE SUBCHONDRAL BONE. DESPITE THE WIDE PREVALENCE, NO FDA-APPROVED DISEASE-MODIFYING DRUGS EXIST. RECENT EVIDENCE HAS DEMONSTRATED THAT EPIGENETIC DYSREGULATION OF MULTIPLE MOLECULAR PATHWAYS UNDERLIES OA PATHOGENESIS, PROVIDING A NEW MECHANISTIC AND THERAPEUTIC AXIS WITH THE ADVANTAGE OF TARGETING MULTIPLE DEREGULATED PATHWAYS SIMULTANEOUSLY. IN THIS REVIEW, WE FOCUS ON THE EPIGENETIC REGULATORS THAT HAVE BEEN IMPLICATED IN OA, THEIR INDIVIDUAL ROLES, AND POTENTIAL CROSSTALK. FINALLY, WE DISCUSS THE PHARMACOLOGICAL MOLECULES THAT CAN MODULATE THEIR ACTIVITIES AND DISCUSS THE POTENTIAL ADVANTAGES AND CHALLENGES ASSOCIATED WITH EPIGENOME-BASED THERAPEUTICS FOR OA. 2020 3 5109 48 POLYPHENOL-RELATED EPIGENETIC MODIFICATIONS IN OSTEOARTHRITIS: CURRENT THERAPEUTIC PERSPECTIVES. THE HYALINE CARTILAGE IS AN AVASCULAR, ANEURAL AND ALYMPHATIC TISSUE WITH A LIMITED ABILITY TO REPAIR ITSELF. WHEN THE CARTILAGE IS EXPOSED TO SOME KIND OF INJURY, IT USUALLY TRIGGERS OSTEOARTHRITIS (OA), A PREVALENT AND DEGENERATIVE JOINT DISEASE CLOSELY RELATED TO AGING. OA IS BOTH COMPLEX AND MULTIFACTORIAL, AND IS THE MOST COMMON FORM OF ARTHRITIS, BEING POSITIONED AS A MAJOR CAUSE OF PAIN AND DYSFUNCTION IN THE WORLD. IN ADDITION, HIGH OA PREVALENCE CAN GREATLY AFFECT WORK CAPACITY, MAKING THIS DISEASE A SIGNIFICANT SOCIAL PROBLEM, THEREFORE, ITS PREVENTION AND TREATMENT BECOMES A PRIORITY. AT THIS TIME, THERE ARE NUMEROUS THERAPEUTIC STRATEGIES AVAILABLE TO IMPROVE HYALINE CARTILAGE REPAIR BY USING CHONDROCYTES OR MESENCHYMAL CELLS, BUT NEITHER IS EFFECTIVE ENOUGH TO GENERATE FUNCTIONAL AND DURABLE TISSUE REPARATION OVER TIME. IN OA, CHONDROCYTES HAVE AN ABERRANT GENE EXPRESSION AND PHENOTYPE, RESULTING IN A LOSS OF BALANCE BETWEEN ANABOLIC AND CATABOLIC PROCESSES. ENVIRONMENTAL INFLUENCES SUCH AS RADIATION, INFECTION, SMOKING, NUTRIENTS, TOXINS AND STRESS CAN AFFECT GENE EXPRESSION PATTERNS, WHICH MAY CONSTITUTE RISK FACTORS FOR VARIOUS CHRONIC AND DEGENERATIVE DISEASES, SUCH AS OA. IN ADDITION, CONSIDERABLE EVIDENCE SHOWS THAT EPIGENETIC MECHANISMS PLAY AN IMPORTANT ROLE IN OA CHONDROGENESIS AND PATHOGENESIS. NATURAL PLANT-DERIVED PRODUCTS SUCH AS POLYPHENOLS, WHICH ARE SECONDARY METABOLITES CONSIDERED TO HAVE POTENTIAL ACTIVITY TO BLOCK INFLAMMATION IN SEVERAL DEGENERATIVE DISEASES, CAN STIMULATE EPIGENETIC MODIFICATIONS, AND MAY PROVIDE NEW THERAPEUTIC TARGETS AND COST-EFFECTIVE TREATMENTS. THIS REVIEW AIMS TO PRESENT VARIOUS POLYPHENOLBASED THERAPIES CURRENTLY USED FOR THE TREATMENT OF SEVERAL PROGRESSIVE DISEASES, INCLUDING OA. 2016 4 2309 38 EPIGENETIC REGULATION OF CHONDROCYTES AND SUBCHONDRAL BONE IN OSTEOARTHRITIS. THE AIM OF THIS REVIEW IS TO PROVIDE AN UPDATED REVIEW OF THE EPIGENETIC FACTORS INVOLVED IN THE ONSET AND DEVELOPMENT OF OSTEOARTHRITIS (OA). OA IS A PREVALENT DEGENERATIVE JOINT DISEASE CHARACTERIZED BY CHRONIC INFLAMMATION, ECTOPIC BONE FORMATION WITHIN THE JOINT, AND PHYSICAL AND PROTEOLYTIC CARTILAGE DEGRADATION WHICH RESULT IN CHRONIC PAIN AND LOSS OF MOBILITY. AT PRESENT, NO DISEASE-MODIFYING THERAPEUTICS EXIST FOR THE PREVENTION OR TREATMENT OF THE DISEASE. RESEARCH HAS IDENTIFIED SEVERAL OA RISK FACTORS INCLUDING MECHANICAL STRESSORS, PHYSICAL ACTIVITY, OBESITY, TRAUMATIC JOINT INJURY, GENETIC PREDISPOSITION, AND AGE. RECENTLY, THERE HAS BEEN INCREASED INTEREST IN IDENTIFYING EPIGENETIC FACTORS INVOLVED IN THE PATHOGENESIS OF OA. IN THIS REVIEW, WE DETAIL SEVERAL OF THESE EPIGENETIC MODIFICATIONS WITH KNOWN FUNCTIONS IN THE ONSET AND PROGRESSION OF THE DISEASE. WE ALSO REVIEW CURRENT THERAPEUTICS TARGETING ABERRANT EPIGENETIC REGULATION AS POTENTIAL OPTIONS FOR PREVENTIVE OR THERAPEUTIC TREATMENT. 2022 5 4679 45 NEW MOLECULAR TARGETS FOR THE TREATMENT OF OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A CHRONIC DEGENERATIVE JOINT DISORDER CHARACTERIZED BY DESTRUCTION OF THE ARTICULAR CARTILAGE, SUBCHONDRAL BONE ALTERATIONS AND SYNOVITIS. CURRENT TREATMENTS ARE FOCUSED ON SYMPTOMATIC RELIEF BUT THEY LACK EFFICACY TO CONTROL THE PROGRESSION OF THIS DISEASE WHICH IS A LEADING CAUSE OF DISABILITY. THEREFORE, THE DEVELOPMENT OF EFFECTIVE DISEASE-MODIFYING DRUGS IS URGENTLY NEEDED. DIFFERENT INITIATIVES ARE IN PROGRESS TO DEFINE THE MOLECULAR MECHANISMS INVOLVED IN THE INITIATION AND PROGRESSION OF OA. THESE STUDIES SUPPORT THE THERAPEUTIC POTENTIAL OF PATHWAYS RELEVANT IN JOINT METABOLISM SUCH AS WNT/BETA-CATENIN, DISCOIDIN DOMAIN RECEPTOR 2 OR PROTEINASE-ACTIVATED RECEPTOR 2. THE DYSREGULATION IN CARTILAGE CATABOLISM AND SUBCHONDRAL BONE REMODELING COULD BE IMPROVED BY SELECTIVE INHIBITORS OF MATRIX METALLOPROTEINASES, AGGRECANASES AND OTHER PROTEASES. ANOTHER APPROACH WOULD FAVOR THE ACTIVITY OF ANABOLIC PROCESSES BY USING GROWTH FACTORS OR REGULATORY MOLECULES. RECENT STUDIES HAVE ALSO REVEALED THE ROLE OF OXIDATIVE STRESS AND SYNOVITIS IN THE PROGRESSION OF THIS DISEASE, SUPPORTING THE DEVELOPMENT OF A NUMBER OF INHIBITORY STRATEGIES. NOVEL TARGETS IN OA ARE REPRESENTED BY GENES INVOLVED IN OA PATHOPHYSIOLOGY DISCOVERED USING GENE NETWORK, EPIGENETIC AND MICRORNA APPROACHES. FURTHER INSIGHTS INTO THE MOLECULAR MECHANISMS INVOLVED IN OA INITIATION AND PROGRESSION MAY LEAD TO THE DEVELOPMENT OF NEW THERAPIES ABLE TO CONTROL JOINT DESTRUCTION AND REPAIR. 2010 6 3800 35 INTERPLAY OF INFLAMMATORY MEDIATORS WITH EPIGENETICS AND CARTILAGE MODIFICATIONS IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA), A DEGENERATIVE DISEASE OF DIARTHRODIAL JOINTS, IS INFLUENCED BY MECHANICAL AND INFLAMMATORY FACTORS WITH AGING, OBESITY, CHRONIC INJURIES, AND SECONDARY DISEASES THOUGHT TO BE MAJOR FACTORS DRIVING THE PROCESS OF ARTICULAR CARTILAGE DEGENERATION. CHONDROCYTES, THE CELLULAR COMPONENT OF CARTILAGE, RESIDE IN AN AVASCULAR ENVIRONMENT AND NORMALLY HAVE LIMITED POTENTIAL TO REPLICATE. HOWEVER, EXTRINSIC FACTORS SUCH AS INJURY TO THE JOINT OR INTRINSIC ALTERATIONS TO THE CHONDROCYTES THEMSELVES CAN LEAD TO AN ALTERED PHENOTYPE AND DEVELOPMENT OF OA. SYNOVIAL INFLAMMATION IS ALSO A PIVOTAL ELEMENT OF THE OSTEOARTHRITIC, DEGENERATIVE PROCESS: INFLUX OF PRO-INFLAMMATORY CYTOKINES AND PRODUCTION OF MATRIX METALLOPROTEINASES ACCELERATE ADVANCED CELLULAR PROCESSES SUCH AS SYNOVITIS AND CARTILAGE DAMAGE. AS WELL AS A GENETIC INPUT, RECENT DATA HAVE HIGHLIGHTED EPIGENETIC FACTORS AS CONTRIBUTING TO DISEASE. STUDIES CONDUCTED OVER THE LAST DECADE HAVE FOCUSED ON THREE KEY ASPECTS IN OA; INFLAMMATION AND THE IMMUNE RESPONSE, GENOME-WIDE ASSOCIATION STUDIES THAT HAVE IDENTIFIED IMPORTANT GENES UNDERGOING EPIGENETIC MODIFICATIONS, AND FINALLY HOW CHONDROCYTES TRANSFORM IN THEIR FUNCTION DURING DEVELOPMENT AND DISEASE. DATA HIGHLIGHTED HERE HAVE IDENTIFIED CRITICAL INFLAMMATORY GENES INVOLVED IN OA AND HOW THESE FACTORS IMPACT CHONDROCYTE HYPERTROPHY IN THE DISEASE. THIS REVIEW ALSO ADDRESSES KEY INFLAMMATORY FACTORS IN SYNOVIAL INFLAMMATION, EPIGENETICS, AND CHONDROCYTE FATE, AND HOW AGENTS THAT INHIBIT EPIGENETIC MECHANISMS LIKE DNA METHYLATION AND HISTONE MODIFICATIONS COULD AID IN DEVELOPMENT OF LONG-TERM TREATMENT STRATEGIES FOR THE DISEASE. 2018 7 3829 23 INVOLVEMENT OF EPIGENETICS IN OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS THE MOST PREVALENT CHRONIC AGE-RELATED ARTHRITIC DISEASE THAT MAINLY AFFECTS THE DIARTHRODIAL JOINTS. NEVERTHELESS, THERE IS NO TREATMENT CURRENTLY AVAILABLE THAT CAN EFFECTIVELY REDUCE SYMPTOMS OR SLOW DOWN OR STOP DISEASE PROGRESSION. THE LACK OF DISEASE-MODIFYING THERAPIES COULD BE EXPLAINED BY THE COMPLEX PATHOGENESIS OF OA, WHICH IS STILL NOT COMPLETELY UNDERSTOOD. INTERTWINED EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS, AND NONCODING RNAS (NCRNAS) HAVE BEEN INDICATED AS IMPORTANT CELLULAR TOOLS TO MAINTAIN TISSUE HOMEOSTASIS UPON ENVIRONMENTAL CHALLENGES. THE CURRENT REVIEW ILLUSTRATES THAT DYSFUNCTIONAL EPIGENETIC CONTROL MECHANISMS IN THE ARTICULAR CARTILAGE LIKELY PLAY AN IMPORTANT ROLE IN DRIVING OA PATHOPHYSIOLOGY. 2017 8 2550 37 EPIGENETICS IN OSTEOARTHRITIS: POTENTIAL OF HDAC INHIBITORS AS THERAPEUTICS. OSTEOARTHRITIS (OA) IS THE MOST COMMON JOINT DISEASE AND THE LEADING CAUSE OF CHRONIC DISABILITY IN MIDDLE-AGED AND OLDER POPULATIONS WORLDWIDE. THE DEVELOPMENT OF DISEASE MODIFYING THERAPY FOR OA IS IN ITS INFANCY LARGELY BECAUSE THE REGULATORY MECHANISMS FOR THE MOLECULAR EFFECTORS OF OA PATHOGENESIS ARE POORLY UNDERSTOOD. RECENT STUDIES IDENTIFIED EPIGENETIC EVENTS AS A CRITICAL REGULATOR OF MOLECULAR PLAYERS INVOLVED IN THE INDUCTION AND DEVELOPMENT OF OA. EPIGENETIC MECHANISMS INCLUDE DNA METHYLATION, NON-CODING RNA AND HISTONE MODIFICATIONS. THE AIM OF THIS REVIEW IS TO BRIEFLY HIGHLIGHT THE RECENT ADVANCES IN THE EPIGENETICS OF CARTILAGE AND POTENTIAL OF HDACS (HISTONE DEACETYLASES) INHIBITORS IN THE THERAPEUTIC MANAGEMENT OF OA. WE SUMMARIZE THE RECENT STUDIES UTILIZING HDAC INHIBITORS AS POTENTIAL THERAPEUTICS FOR INHIBITING DISEASE PROGRESSION AND PREVENTING THE CARTILAGE DESTRUCTION IN OA. HDACS CONTROL NORMAL CARTILAGE DEVELOPMENT AND HOMEOSTASIS AND UNDERSTANDING THE IMPACT OF HDACS INHIBITORS ON THE DISEASE PATHOGENESIS IS OF INTEREST BECAUSE OF ITS IMPORTANCE IN AFFECTING OVERALL CARTILAGE HEALTH AND HOMEOSTASIS. THESE FINDINGS ALSO SHED NEW LIGHT ON CARTILAGE DISEASE PATHOPHYSIOLOGY AND PROVIDE SUBSTANTIAL EVIDENCE THAT HDACS MAY BE POTENTIAL NOVEL THERAPEUTIC TARGETS IN OA. 2018 9 1867 40 EMERGING GENE-EDITING MODALITIES FOR OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A PATHOLOGICAL DEGENERATIVE CONDITION OF THE JOINTS THAT IS WIDELY PREVALENT WORLDWIDE, RESULTING IN SIGNIFICANT PAIN, DISABILITY, AND IMPAIRED QUALITY OF LIFE. THE DIVERSE ETIOLOGY AND PATHOGENESIS OF OA CAN EXPLAIN THE PAUCITY OF VIABLE PREVENTIVE AND DISEASE-MODIFYING STRATEGIES TO COUNTER IT. ADVANCES IN GENOME-EDITING TECHNIQUES MAY IMPROVE DISEASE-MODIFYING SOLUTIONS BY ADDRESSING INHERITED PREDISPOSING RISK FACTORS AND THE ACTIVITY OF INFLAMMATORY MODULATORS. RECENT PROGRESS ON TECHNOLOGIES SUCH AS CRISPR/CAS9 AND CELL-BASED GENOME-EDITING THERAPIES TARGETING THE GENETIC AND EPIGENETIC ALTERNATIONS IN OA OFFER PROMISING AVENUES FOR EARLY DIAGNOSIS AND THE DEVELOPMENT OF PERSONALIZED THERAPIES. THE PURPOSE OF THIS LITERATURE REVIEW WAS TO CONCISELY SUMMARIZE THE GENOME-EDITING OPTIONS AGAINST CHRONIC DEGENERATIVE JOINT CONDITIONS SUCH AS OA WITH A FOCUS ON THE MORE RECENTLY EMERGING MODALITIES, ESPECIALLY CRISPR/CAS9. FUTURE ADVANCEMENTS IN NOVEL GENOME-EDITING THERAPIES MAY IMPROVE THE EFFICACY OF SUCH TARGETED TREATMENTS. 2020 10 296 39 AGING, CELL SENESCENCE, THE PATHOGENESIS AND TARGETED THERAPIES OF OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A CHRONIC, DEBILITATING JOINT DISEASE CHARACTERIZED BY PROGRESSIVE DESTRUCTION OF ARTICULAR CARTILAGE. FOR A LONG TIME, OA HAS BEEN CONSIDERED AS A DEGENERATIVE DISEASE, WHILE RECENT OBSERVATIONS INDICATE THE MECHANISMS RESPONSIBLE FOR THE PATHOGENESIS OF OA ARE MULTIFACETED. AGING IS A KEY FACTOR IN ITS DEVELOPMENT. CURRENT TREATMENTS ARE PALLIATIVE AND NO DISEASE MODIFYING ANTI-OSTEOARTHRITIS DRUGS (DMOADS) ARE AVAILABLE. IN ADDITION TO ARTICULAR CARTILAGE DEGRADATION, CELLULAR SENESCENCE, SYNOVIAL INFLAMMATION, AND EPIGENETIC ALTERATIONS MAY ALL HAVE A ROLE IN ITS FORMATION. ACCUMULATING DATA DEMONSTRATE A CLEAR RELATIONSHIP BETWEEN THE SENESCENCE OF ARTICULAR CHONDROCYTES AND OA FORMATION AND PROGRESSION. INHIBITION OF CELL SENESCENCE MAY HELP IDENTIFY NEW AGENTS WITH THE PROPERTIES OF DMOADS. SEVERAL ANTI-CELLULAR SENESCENCE STRATEGIES HAVE BEEN PROPOSED AND THESE INCLUDE SIRTUIN-ACTIVATING COMPOUNDS (STACS), SENOLYTICS, AND SENOMORPHICS DRUGS. THESE AGENTS MAY SELECTIVELY REMOVE SENESCENT CELLS OR AMELIORATE THEIR HARMFUL EFFECTS. THE RESULTS FROM PRECLINICAL EXPERIMENTS AND CLINICAL TRIALS ARE INSPIRING. HOWEVER, MORE STUDIES ARE WARRANTED TO CONFIRM THEIR EFFICACY, SAFETY PROFILES AND ADVERSE EFFECTS OF THESE AGENTS. 2021 11 1258 36 CURRENT UNDERSTANDING OF OSTEOARTHRITIS PATHOGENESIS AND RELEVANT NEW APPROACHES. OSTEOARTHRITIS (OA) IS THE MOST COMMON DEGENERATIVE JOINT DISEASE THAT CAUSES PAINFUL SWELLING AND PERMANENT DAMAGE TO THE JOINTS IN THE BODY. THE MOLECULAR MECHANISMS OF OA ARE CURRENTLY UNKNOWN. OA IS A HETEROGENEOUS DISEASE THAT AFFECTS THE ENTIRE JOINT, AND MULTIPLE TISSUES ARE ALTERED DURING OA DEVELOPMENT. TO BETTER UNDERSTAND THE PATHOLOGICAL MECHANISMS OF OA, NEW APPROACHES, METHODS, AND TECHNIQUES NEED TO BE USED TO UNDERSTAND OA PATHOGENESIS. IN THIS REVIEW, WE FIRST FOCUS ON THE EPIGENETIC REGULATION OF OA, WITH A PARTICULAR FOCUS ON DNA METHYLATION, HISTONE MODIFICATION, AND MICRORNA REGULATION, FOLLOWED BY A SUMMARY OF SEVERAL KEY MEDIATORS IN OA-ASSOCIATED PAIN. WE THEN INTRODUCE SEVERAL INNOVATIVE TECHNIQUES THAT HAVE BEEN AND WILL CONTINUE TO BE USED IN THE FIELDS OF OA AND OA-ASSOCIATED PAIN, SUCH AS CRISPR, SCRNA SEQUENCING, AND LINEAGE TRACING. NEXT, WE DISCUSS THE TIMELY UPDATES CONCERNING CELL DEATH REGULATION IN OA PATHOLOGY, INCLUDING PYROPTOSIS, FERROPTOSIS, AND AUTOPHAGY, AS WELL AS THEIR INDIVIDUAL ROLES IN OA AND POTENTIAL MOLECULAR TARGETS IN TREATING OA. FINALLY, OUR REVIEW HIGHLIGHTS NEW DIRECTIONS ON THE ROLE OF THE SYNOVIAL LYMPHATIC SYSTEM IN OA. AN IMPROVED UNDERSTANDING OF OA PATHOGENESIS WILL AID IN THE DEVELOPMENT OF MORE SPECIFIC AND EFFECTIVE THERAPEUTIC INTERVENTIONS FOR OA. 2022 12 1878 34 EMERGING ROLES OF LONG NONCODING RNA IN CHONDROGENESIS, OSTEOGENESIS, AND OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS THE MOST PREVALENT AGE-RELATED DEBILITATING JOINT DISEASE, AND IS CHARACTERIZED PRIMARILY BY ARTICULAR CARTILAGE DEGRADATION AND SUBCHONDRAL BONE LESIONS. IT IS ALSO THE LEADING CAUSE OF CHRONIC MORBIDITY IN OLDER POPULATIONS. THE ETIOLOGY OF OA IS MULTIFACTORIAL, WITH THE UNDERLYING REGULATORY MECHANISMS REMAINING LARGELY UNKNOWN. LONG NONCODING RNA (LNCRNA) IS A GROUP OF NONCODING RNAS DEFINED AS BEING >200 NUCLEOTIDES IN LENGTH. INCREASING EVIDENCE DEMONSTRATES THAT MANY LNCRNAS SERVE AS CRITICAL REGULATORS OF CHONDROGENESIS AND BONE AND CARTILAGE HOMEOSTASIS, THEREBY INFLUENCING OA DEVELOPMENT. IN THIS REVIEW, WE HIGHLIGHT THE CURRENT UNDERSTANDING CONCERNING LNCRNAS, INCLUDING THEIR PHYSICAL FEATURES, BIOLOGICAL FUNCTIONS, AND POTENTIAL ROLES IN CHONDROGENESIS, OSTEOGENESIS, AND OA. THIS INFORMATION MAY SHED NEW LIGHT ON THE EPIGENETIC REGULATION OF CARTILAGE AND SUBSTANTIATE LNCRNAS AS NOVEL THERAPEUTIC TARGETS IN OA. 2019 13 4776 35 NUTRACEUTICAL ACTIVITY IN OSTEOARTHRITIS BIOLOGY: A FOCUS ON THE NUTRIGENOMIC ROLE. OSTEOARTHRITIS (OA) IS A DISEASE ASSOCIATED TO AGE OR CONDITIONS THAT PRECIPITATE AGING OF ARTICULAR CARTILAGE, A POST-MITOTIC TISSUE THAT REMAINS FUNCTIONAL UNTIL THE FAILURE OF MAJOR HOMEOSTATIC MECHANISMS. OA SEVERELY IMPACTS THE NATIONAL HEALTH SYSTEM COSTS AND PATIENTS' QUALITY OF LIFE BECAUSE OF PAIN AND DISABILITY. IT IS A WHOLE-JOINT DISEASE SUSTAINED BY INFLAMMATORY AND OXIDATIVE SIGNALING PATHWAYS AND MARKED EPIGENETIC CHANGES RESPONSIBLE FOR CATABOLISM OF THE CARTILAGE EXTRACELLULAR MATRIX. OA USUALLY PROGRESSES UNTIL ITS SEVERITY REQUIRES JOINT ARTHROPLASTY. TO DELAY THIS PROGRESSION AND TO IMPROVE SYMPTOMS, A WIDE RANGE OF NATURALLY DERIVED COMPOUNDS HAVE BEEN PROPOSED AND ARE SUMMARIZED IN THIS REVIEW. PRECLINICAL IN VITRO AND IN VIVO STUDIES HAVE PROVIDED PROOF OF PRINCIPLE THAT MANY OF THESE NUTRACEUTICALS ARE ABLE TO EXERT PLEIOTROPIC AND SYNERGISTIC EFFECTS AND EFFECTIVELY COUNTERACT OA PATHOGENESIS BY EXERTING BOTH ANTI-INFLAMMATORY AND ANTIOXIDANT ACTIVITIES AND BY TUNING MAJOR OA-RELATED SIGNALING PATHWAYS. THE LATTER ARE THE BASIS FOR THE NUTRIGENOMIC ROLE PLAYED BY SOME OF THESE COMPOUNDS, GIVEN THE MARKED CHANGES IN THE TRANSCRIPTOME, MIRNOME, AND METHYLOME. ONGOING AND FUTURE CLINICAL TRIALS WILL HOPEFULLY CONFIRM THE DISEASE-MODIFYING ABILITY OF THESE BIOACTIVE MOLECULES IN OA PATIENTS. 2020 14 2232 38 EPIGENETIC MODIFICATIONS OF MIRNAS IN OSTEOARTHRITIS: A SYSTEMATIC REVIEW ON THEIR METHYLATION LEVELS AND EFFECTS ON CHONDROCYTES, EXTRACELLULAR MATRIX AND JOINT INFLAMMATION. OSTEOARTHRITIS (OA) IS A JOINT DISORDER CHARACTERIZED BY PROGRESSIVE DEGENERATION OF CARTILAGE EXTRACELLULAR MATRIX (ECM), CHONDROCYTE HYPERTROPHY AND APOPTOSIS AND INFLAMMATION. THE CURRENT TREATMENTS MAINLY CONCERN PAIN CONTROL AND REDUCTION OF INFLAMMATION, BUT NO THERAPEUTIC STRATEGY HAS BEEN IDENTIFIED AS A DISEASE-MODIFYING TREATMENT. THEREFORE, IDENTIFYING SPECIFIC BIOMARKERS USEFUL TO PREVENT, TREAT OR DISTINGUISH THE STAGES OF OA DISEASE HAS BECOME AN IMMEDIATE NEED OF CLINICAL PRACTICE. THE ROLE OF MICRORNAS (MIRNAS) IN OA HAS BEEN INVESTIGATED IN THE LAST DECADE, AND INCREASING EVIDENCE HAS EMERGED THAT THE INFLUENCE OF THE ENVIRONMENT ON GENE EXPRESSION THROUGH EPIGENETIC PROCESSES CONTRIBUTES TO THE DEVELOPMENT, PROGRESSION AND AGGRESSIVENESS OF OA, IN PARTICULAR ACTING ON THE MICROENVIRONMENT MODULATIONS. THE EFFECTS OF EPIGENETIC REGULATION, PARTICULARLY DIFFERENT MIRNA METHYLATION DURING OA DISEASE, WERE HIGHLIGHTED IN THE PRESENT SYSTEMATIC REVIEW. THE EVIDENCE ARISING FROM THIS STUDY OF THE LITERATURE CONDUCTED IN THREE DATABASES (PUBMED, SCOPUS, WEB OF SCIENCE) SUGGESTED THAT MIRNA METHYLATION STATE ALREADY STRONGLY IMPACTS OA PROGRESSION, DRIVING CHONDROCYTES AND SYNOVIOCYTE PROLIFERATION, APOPTOSIS, INFLAMMATION AND ECM DEPOSITION. HOWEVER, THE POSSIBILITY OF UNDERSTANDING THE MECHANISM BY WHICH DIFFERENT EPIGENETIC MODIFICATIONS OF MIRNA OR PRE-MIRNA SEQUENCES DRIVE THE AGGRESSIVENESS OF OA COULD BE THE NEW FOCUS OF FUTURE INVESTIGATIONS. 2023 15 3038 43 GENOME ENGINEERING FOR OSTEOARTHRITIS: FROM DESIGNER CELLS TO DISEASE-MODIFYING DRUGS. BACKGROUND: OSTEOARTHRITIS (OA) IS A HIGHLY PREVALENT DEGENERATIVE JOINT DISEASE INVOLVING JOINT CARTILAGE AND ITS SURROUNDING TISSUES. OA IS THE LEADING CAUSE OF PAIN AND DISABILITY WORLDWIDE. AT PRESENT, THERE ARE NO DISEASE-MODIFYING OA DRUGS, AND THE PRIMARY THERAPIES INCLUDE EXERCISE AND NONSTEROIDAL ANTI-INFLAMMATORY DRUGS UNTIL TOTAL JOINT REPLACEMENT AT THE END-STAGE OF THE DISEASE. METHODS: IN THIS REVIEW, WE SUMMARIZED THE CURRENT STATE OF KNOWLEDGE IN GENETIC AND EPIGENETIC ASSOCIATIONS AND RISK FACTORS FOR OA AND THEIR POTENTIAL DIAGNOSTIC AND THERAPEUTIC APPLICATIONS. RESULTS: GENOME-WIDE ASSOCIATION STUDIES AND ANALYSIS OF EPIGENETIC MODIFICATIONS (SUCH AS MIRNA EXPRESSION, DNA METHYLATION AND HISTONE MODIFICATIONS) CONDUCTED ACROSS VARIOUS POPULATIONS SUPPORT THE NOTION THAT THERE IS A GENETIC BASIS FOR CERTAIN SUBSETS OF OA PATHOGENESIS. CONCLUSION: WITH RECENT ADVANCES IN THE DEVELOPMENT OF GENOME EDITING TECHNOLOGIES SUCH AS THE CRISPR-CAS9 SYSTEM, THESE GENETIC AND EPIGENETIC ALTERNATIONS IN OA CAN BE USED AS PLATFORMS FROM WHICH POTENTIAL BIOMARKERS FOR THE DIAGNOSIS, PROGNOSIS, DRUG RESPONSE, AND DEVELOPMENT OF POTENTIAL PERSONALIZED THERAPEUTIC TARGETS FOR OA CAN BE APPROACHED. FURTHERMORE, GENOME EDITING HAS ALLOWED THE DEVELOPMENT OF "DESIGNER" CELLS, WHEREBY THE RECEPTORS, GENE REGULATORY NETWORKS, OR TRANSGENES CAN BE MODIFIED AS A BASIS FOR NEW CELL-BASED THERAPIES. 2019 16 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 17 2508 35 EPIGENETICS AND OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS THE MOST COMMON FORM OF JOINT DISEASE AND THE LEADING CAUSE OF CHRONIC DISABILITY IN MIDDLE-AGED AND OLDER POPULATIONS. THE DEVELOPMENT OF DISEASE-MODIFYING THERAPY FOR OA CURRENTLY FACES MAJOR OBSTACLES LARGELY BECAUSE THE REGULATORY MECHANISMS FOR THE FUNCTION OF JOINT TISSUE CELLS REMAIN UNCLEAR. PREVIOUS STUDIES HAVE FOUND THAT THE ALTERATIONS IN GENE EXPRESSION OF SPECIFIC TRANSCRIPTION FACTORS (TFS), PRO- OR ANTI-INFLAMMATORY CYTOKINES, MATRIX PROTEINASES AND EXTRACELLULAR MATRIX (ECM) PROTEINS IN ARTICULAR CARTILAGE MAY BE INVOLVED IN THE DEVELOPMENT OF OA. HOWEVER, THE REGULATORY MECHANISMS FOR THE EXPRESSION OF THOSE GENES IN OA CHONDROCYTES ARE LARGELY UNKNOWN. THE RECENT ADVANCES IN EPIGENETIC STUDIES HAVE SHED LIGHTS ON THE IMPORTANCE OF EPIGENETIC REGULATION OF GENE EXPRESSION IN THE DEVELOPMENT OF OA. IN THIS REVIEW, WE SUMMARIZE AND DISCUSS THE RECENT STUDIES ON THE REGULATORY ROLES OF VARIOUS EPIGENETIC MECHANISMS IN THE EXPRESSION OF GENES FOR SPECIFIC TFS, CYTOKINES, ECM PROTEINS AND MATRIX PROTEINASES, AS WELL THE SIGNIFICANCE OF THESE EPIGENETIC MECHANISMS IN THE PATHOGENESIS OF OA. 2015 18 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 19 3039 32 GENOME ENGINEERING FOR PERSONALIZED ARTHRITIS THERAPEUTICS. ARTHRITIS REPRESENTS A FAMILY OF COMPLEX JOINT PATHOLOGIES RESPONSIBLE FOR THE MAJORITY OF MUSCULOSKELETAL CONDITIONS. NEARLY ALL DISEASES WITHIN THIS FAMILY, INCLUDING OSTEOARTHRITIS, RHEUMATOID ARTHRITIS, AND JUVENILE IDIOPATHIC ARTHRITIS, ARE CHRONIC CONDITIONS WITH FEW OR NO DISEASE-MODIFYING THERAPEUTICS AVAILABLE. ADVANCES IN GENOME ENGINEERING TECHNOLOGY, MOST RECENTLY WITH CRISPR-CAS9, HAVE REVOLUTIONIZED OUR ABILITY TO INTERROGATE AND VALIDATE GENETIC AND EPIGENETIC ELEMENTS ASSOCIATED WITH CHRONIC DISEASES SUCH AS ARTHRITIS. THESE TECHNOLOGIES, TOGETHER WITH CELL REPROGRAMMING METHODS, INCLUDING THE USE OF INDUCED PLURIPOTENT STEM CELLS, PROVIDE A PLATFORM FOR HUMAN DISEASE MODELING. WE SUMMARIZE NEW EVIDENCE FROM GENOME-WIDE ASSOCIATION STUDIES AND GENOMICS THAT SUBSTANTIATES A GENETIC BASIS FOR ARTHRITIS PATHOGENESIS. WE ALSO REVIEW THE POTENTIAL CONTRIBUTIONS OF GENOME ENGINEERING IN THE DEVELOPMENT OF NEW ARTHRITIS THERAPEUTICS. 2017 20 6102 40 THE EMERGING ROLE OF FIBROBLAST-LIKE SYNOVIOCYTES-MEDIATED SYNOVITIS IN OSTEOARTHRITIS: AN UPDATE. OSTEOARTHRITIS (OA), THE MOST UBIQUITOUS DEGENERATIVE DISEASE AFFECTING THE ENTIRE JOINT, IS CHARACTERIZED BY CARTILAGE DEGRADATION AND SYNOVIAL INFLAMMATION. ALTHOUGH THE PATHOGENESIS OF OA REMAINS POORLY UNDERSTOOD, SYNOVIAL INFLAMMATION IS KNOWN TO PLAY AN IMPORTANT ROLE IN OA DEVELOPMENT. HOWEVER, STUDIES ON OA PATHOPHYSIOLOGY HAVE FOCUSED MORE ON CARTILAGE DEGENERATION AND OSTEOPHYTES, RATHER THAN ON THE INFLAMED AND THICKENED SYNOVIUM. FIBROBLAST-LIKE SYNOVIOCYTES (FLS) PRODUCE A SERIES OF PRO-INFLAMMATORY REGULATORS, SUCH AS INFLAMMATORY CYTOKINES, NITRIC OXIDE (NO) AND PROSTAGLANDIN E(2) (PGE(2) ). THESE REGULATORS ARE POSITIVELY ASSOCIATED WITH THE CLINICAL SYMPTOMS OF OA, SUCH AS INFLAMMATORY PAIN, JOINT SWELLING AND DISEASE DEVELOPMENT. A BETTER UNDERSTANDING OF THE INFLAMMATORY IMMUNE RESPONSE IN OA-FLS COULD PROVIDE A NOVEL APPROACH TO COMPREHENSIVE TREATMENT STRATEGIES FOR OA. HERE, WE HAVE SUMMARIZED RECENTLY PUBLISHED LITERATURES REFERRING TO EPIGENETIC MODIFICATIONS, ACTIVATED SIGNALLING PATHWAYS AND INFLAMMATION-ASSOCIATED FACTORS THAT ARE INVOLVED IN OA-FLS-MEDIATED INFLAMMATION. IN ADDITION, THE CURRENT RELATED CLINICAL TRIALS AND FUTURE PERSPECTIVES WERE ALSO SUMMARIZED. 2020