1 6581 137 TREPONEMA DENTICOLA UPREGULATES MMP-2 ACTIVATION IN PERIODONTAL LIGAMENT CELLS: INTERPLAY BETWEEN EPIGENETICS AND PERIODONTAL INFECTION. OBJECTIVE: PERIODONTAL PATHOGENS INITIATE CHRONIC DYSREGULATION OF INFLAMMATION AND TISSUE HOMEOSTASIS THAT CHARACTERIZE PERIODONTAL DISEASE. TO BETTER UNDERSTAND ORAL MICROBE-HOST TISSUE INTERACTIONS, WE INVESTIGATED EXPRESSION AND ACTIVATION OF MMP-2 IN PERIODONTAL LIGAMENT CELLS FOLLOWING TREPONEMA DENTICOLA CHALLENGE. DESIGN: CULTURED PDL CELLS WERE CHALLENGED WITH T. DENTICOLA, AND BACTERIAL ADHERENCE, INTERNALIZATION AND SURVIVAL WERE ASSAYED BY IMMUNOFLUORESCENCE MICROSCOPY AND ANTIBIOTIC PROTECTION ASSAYS, RESPECTIVELY. MMP-2 ACTIVATION WAS DETECTED BY ZYMOGRAPHY. MMP-2, MT1/MMP AND TIMP-2 EXPRESSION FOLLOWING T. DENTICOLA CHALLENGE WAS DETERMINED BY QRT-PCR. PROMOTER METHYLATION OF MMP-2 AND MT1/MMP WAS SCREENED BY METHYLATION-SENSITIVE RESTRICTION ANALYSIS AND BY BISULFITE DNA SEQUENCING. RESULTS: T. DENTICOLA ADHERED TO AND WAS INTERNALIZED BY PDL CELLS BUT DID NOT SURVIVE INTRACELLULARLY BEYOND 24H. IMPORTANTLY, WHILE DENTILISIN ACTIVITY IN PDL CULTURE SUPERNATANTS GRADUALLY DECREASED FOLLOWING T. DENTICOLA CHALLENGE, MMP-2 ACTIVATION PERSISTED FOR UP TO 5 DAYS, SUGGESTING INVOLVEMENT OF OTHER REGULATORY MECHANISMS. TRANSCRIPTION AND EXPRESSION OF MT1/MMP AND TIMP-2 INCREASED IN RESPONSE TO T. DENTICOLA CHALLENGE. HOWEVER, CONSISTENT WITH PREVIOUSLY REPORTED CONSTITUTIVE PRO-MMP-2 EXPRESSION IN PDL CELLS, THE MMP-2 PROMOTER WAS HYPOMETHYLATED, INDEPENDENT OF T. DENTICOLA CHALLENGE. CONCLUSIONS: MMP-2 PROMOTER HYPOMETHYLATION IS CONSISTENT WITH CONSTITUTIVE PRO-MMP-2 EXPRESSION IN PDL CELLS. THIS, COUPLED WITH T. DENTICOLA-MEDIATED UPREGULATION OF MMP-2-RELATED GENES AND CHRONIC ACTIVATION OF PRO-MMP-2, MIMICS KEY IN VIVO MECHANISMS OF PERIODONTAL DISEASE CHRONICITY, IN PARTICULAR MMP-2-DEPENDENT MATRIX DEGRADATION AND BONE RESORPTION. ADHERENCE AND/OR INTERNALIZATION OF T. DENTICOLA MAY CONTRIBUTE TO THESE PROCESSES BY ONE OR MORE REGULATORY MECHANISMS, INCLUDING CONTACT-DEPENDENT SIGNAL TRANSDUCTION OR OTHER EPIGENETIC MECHANISMS. 2014 2 6580 45 TREPONEMA DENTICOLA INCREASES MMP-2 EXPRESSION AND ACTIVATION IN THE PERIODONTIUM VIA REVERSIBLE DNA AND HISTONE MODIFICATIONS. HOST-DERIVED MATRIX METALLOPROTEINASES (MMPS) AND BACTERIAL PROTEASES MEDIATE DESTRUCTION OF EXTRACELLULAR MATRICES AND SUPPORTING ALVEOLAR BONE IN PERIODONTITIS. THE TREPONEMA DENTICOLA DENTILISIN PROTEASE INDUCES MMP-2 EXPRESSION AND ACTIVATION IN PERIODONTAL LIGAMENT (PDL) CELLS, AND DENTILISIN-MEDIATED ACTIVATION OF PRO-MMP-2 IS REQUIRED FOR CELLULAR FIBRONECTIN DEGRADATION. HERE, WE REPORT THAT T. DENTICOLA REGULATES MMP-2 EXPRESSION THROUGH EPIGENETIC MODIFICATIONS IN THE PERIODONTIUM. PDL CELLS WERE TREATED WITH EPIGENETIC ENZYME INHIBITORS BEFORE OR AFTER T. DENTICOLA CHALLENGE. FIBRONECTIN FRAGMENTATION, MMP-2 EXPRESSION, AND ACTIVATION WERE ASSESSED BY IMMUNOBLOT, ZYMOGRAPHY, AND QRT-PCR, RESPECTIVELY. CHROMATIN MODIFICATION ENZYME EXPRESSION IN T. DENTICOLA-CHALLENGED PDL CELLS AND PERIODONTAL TISSUES WERE EVALUATED USING GENE ARRAYS. SEVERAL CLASSES OF EPIGENETIC ENZYMES SHOWED SIGNIFICANT ALTERATIONS IN TRANSCRIPTION IN DISEASED TISSUE AND T. DENTICOLA-CHALLENGED PDL CELLS. T. DENTICOLA-MEDIATED MMP-2 EXPRESSION AND ACTIVATION WERE SIGNIFICANTLY REDUCED IN PDL CELLS TREATED WITH INHIBITORS OF AURORA KINASES AND HISTONE DEACETYLASES. IN CONTRAST, DNA METHYLTRANSFERASE INHIBITORS HAD LITTLE EFFECT, AND INHIBITORS OF HISTONE ACETYLTRANSFERASES, METHYLTRANSFERASES, AND DEMETHYLASES EXACERBATED T. DENTICOLA-MEDIATED MMP-2 EXPRESSION AND ACTIVATION. CHRONIC EPIGENETIC CHANGES IN PERIODONTAL TISSUES MEDIATED BY T. DENTICOLA OR OTHER ORAL MICROBES MAY CONTRIBUTE TO THE LIMITED SUCCESS OF CONVENTIONAL TREATMENT OF CHRONIC PERIODONTITIS AND MAY BE AMENABLE TO THERAPEUTIC REVERSAL. 2018 3 5968 22 TERPENOID TREATMENT IN OSTEOPOROSIS: THIS IS WHERE WE HAVE COME IN RESEARCH. LOWER BONE RESISTANCE TO LOAD IS DUE TO THE IMBALANCE OF BONE HOMEOSTASIS, WHERE EXCESSIVE BONE RESORPTION, COMPARED WITH BONE FORMATION, DETERMINES A PROGRESSIVE OSTEOPENIA, LEADING TO A HIGH RISK OF FRACTURES AND CONSEQUENT PAIN AND FUNCTIONAL LIMITATIONS. TERPENOIDS, WITH THEIR ACTIVITIES AGAINST BONE RESORPTION, HAVE RECENTLY RECEIVED INCREASED ATTENTION FROM RESEARCHERS. THEY ARE POTENTIALLY MORE SUITABLE FOR LONG-TERM USE COMPARED WITH TRADITIONAL THERAPEUTICS. IN THIS REVIEW OF THE LITERATURE OF THE PAST 5 YEARS, WE PROVIDE COMPREHENSIVE INFORMATION ON TERPENOIDS, WITH THEIR ANTI-OSTEOPOROTIC EFFECTS, HIGHLIGHTING MOLECULAR MECHANISMS THAT ARE OFTEN IN EPIGENETIC KEY AND A POSSIBLE PHARMACOLOGICAL USE IN OSTEOPOROSIS PREVENTION AND TREATMENT. 2021 4 2824 19 FLAVONOIDS IN BONE EROSIVE DISEASES: PERSPECTIVES IN OSTEOPOROSIS TREATMENT. IMBALANCE OF BONE HOMEOSTASIS, WITH EXCESSIVE BONE RESORPTION COMPARED WITH BONE FORMATION, LEADS TO THE DEVELOPMENT OF PROGRESSIVE OSTEOPENIA LEADING TO LOWER BONE RESISTANCE TO LOAD, WITH CONSEQUENT PAIN AND FUNCTIONAL LIMITATIONS. PHYTOCHEMICALS WITH THERAPEUTIC AND PREVENTIVE EFFECTS AGAINST BONE RESORPTION HAVE RECENTLY RECEIVED INCREASING ATTENTION SINCE THEY ARE POTENTIALLY MORE SUITABLE FOR LONG-TERM USE THAN TRADITIONAL THERAPEUTIC CHEMICAL COMPOUNDS. IN THIS SYSTEMATIC REVIEW OF THE LITERATURE OF THE PAST 5 YEARS, COMPREHENSIVE INFORMATION IS PROVIDED ON FLAVONOIDS WITH POTENTIAL ANTIRESORPTION AND PRO-OSTEOGENIC EFFECTS. IT AIMS TO HIGHLIGHT THE MOLECULAR MECHANISMS OF THESE MOLECULES, OFTEN EPIGENETIC, AND THEIR POSSIBLE PHARMACOLOGICAL USE, WHICH IS OF GREAT IMPORTANCE FOR THE PREVENTION AND TREATMENT OF OSTEOPOROSIS (OP). 2021 5 2361 25 EPIGENETIC REGULATION OF SKELETAL TISSUE INTEGRITY AND OSTEOPOROSIS DEVELOPMENT. BONE TURNOVER IS SOPHISTICATEDLY BALANCED BY A DYNAMIC COUPLING OF BONE FORMATION AND RESORPTION AT VARIOUS RATES. THE ORCHESTRATION OF THIS CONTINUOUS REMODELING OF THE SKELETON FURTHER AFFECTS OTHER SKELETAL TISSUES THROUGH ORGAN CROSSTALK. CHRONIC EXCESSIVE BONE RESORPTION COMPROMISES BONE MASS AND ITS POROUS MICROSTRUCTURE AS WELL AS PROPER BIOMECHANICS. THIS ACCELERATES THE DEVELOPMENT OF OSTEOPOROTIC DISORDERS, A LEADING CAUSE OF SKELETAL DEGENERATION-ASSOCIATED DISABILITY AND PREMATURE DEATH. BONE-FORMING CELLS PLAY IMPORTANT ROLES IN MAINTAINING BONE DEPOSIT AND OSTEOCLASTIC RESORPTION. A POOR ORGANELLE MACHINERY, SUCH AS MITOCHONDRIAL DYSFUNCTION, ENDOPLASMIC RETICULUM STRESS, AND DEFECTIVE AUTOPHAGY, ETC., DYSREGULATES GROWTH FACTOR SECRETION, MINERALIZATION MATRIX PRODUCTION, OR OSTEOCLAST-REGULATORY CAPACITY IN OSTEOBLASTIC CELLS. A PLETHORA OF EPIGENETIC PATHWAYS REGULATE BONE FORMATION, SKELETAL INTEGRITY, AND THE DEVELOPMENT OF OSTEOPOROSIS. MICRORNAS INHIBIT PROTEIN TRANSLATION BY BINDING THE 3'-UNTRANSLATED REGION OF MRNAS OR PROMOTE TRANSLATION THROUGH POST-TRANSCRIPTIONAL PATHWAYS. DNA METHYLATION AND POST-TRANSLATIONAL MODIFICATION OF HISTONES ALTER THE CHROMATIN STRUCTURE, HINDERING HISTONE ENRICHMENT IN PROMOTER REGIONS. MICRORNA-PROCESSING ENZYMES AND DNA AS WELL AS HISTONE MODIFICATION ENZYMES CATALYZE THESE MODIFYING REACTIONS. GAIN AND LOSS OF THESE EPIGENETIC MODIFIERS IN BONE-FORMING CELLS AFFECT THEIR EPIGENETIC LANDSCAPES, INFLUENCING BONE HOMEOSTASIS, MICROARCHITECTURAL INTEGRITY, AND OSTEOPOROTIC CHANGES. THIS ARTICLE CONVEYS PRODUCTIVE INSIGHTS INTO BIOLOGICAL ROLES OF DNA METHYLATION, MICRORNA, AND HISTONE MODIFICATION AND HIGHLIGHTS THEIR INTERACTIONS DURING SKELETAL DEVELOPMENT AND BONE LOSS UNDER PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS. 2020 6 6768 32 ZOLEDRONIC ACID EPIGENETICALLY ALLEVIATES HIGH-GLUCOSE-SUPPRESSED OSTEOGENIC DIFFERENTIATION OF MC3T3-E1 CELLS. OBJECTIVE: DUE TO THE IMPACT OF EXCESSIVE GLUCOSE ON OSTEOGENIC DIFFERENTIATION, DIABETIC OSTEOPATHY FREQUENTLY RESULTS IN SKELETAL FRAGILITY, OSTEOPOROSIS, AND BONE PAIN. ZOLEDRONIC ACID, A BISPHOSPHONATE (BP) THAT EFFECTIVELY INHIBITS OSTEOCLASTIC BONE RESORPTION IS GIVEN YEARLY TO IMPROVE BONE MINERAL DENSITY (BMD) IN PATIENTS WITH OSTEOPOROSIS. HOWEVER, THE DETAILED MOLECULAR MECHANISMS REMAINED UNCLEAR. THIS STUDY INVESTIGATES THE POSSIBLE PATHWAYS BY WHICH ZOLEDRONIC ACID REGULATES OSTEOGENESIS WHEN BLOOD GLUCOSE LEVELS ARE HIGH. MATERIALS AND METHODS: MC3T3-E1 CELLS WERE TREATED WITH ONE MM ZOLEDRONIC ACID OR NOT IN A STANDARD OR HIGH GLUCOSE CULTURE MEDIUM. A QUANTITATIVE POLYMERASE CHAIN REACTION (QPCR) ASSAY WAS UTILIZED TO ASSESS THE EXPRESSION OF THE TARGET CANDIDATE GENES, INCLUDING RUNX2, MALAT1, MIR-133, MIR-20A, AND MIR-204. RESULTS: IN A HIGH-GLUCOSE CONDITION, ZOLEDRONIC ACID TREATMENT SIGNIFICANTLY LOWERED MALAT1 (P < 0.0001) AND MIR-20A (P < 0.0001) EXPRESSION. CONVERSELY, IN A HIGH-GLUCOSE CONDITION, RUNX2, MIR-133, AND MIR-204 EXPRESSIONS WERE FOUND TO BE SIGNIFICANTLY INCREASED IN THE ZOLEDRONIC ACID TREATMENT GROUP AS COMPARED TO NO TREATMENT (ALL P < 0.0001). CONCLUSIONS: IN CONCLUSION, UNDER A HIGH-GLUCOSE ENVIRONMENT, ZOLEDRONIC ACID CAN MODULATE THE EXPRESSION OF THE RUNX2 TRANSCRIPTION FACTOR THROUGH EPIGENETIC REGULATION. 2023 7 5802 38 STIMULATION OF HUMAN PERIODONTAL LIGAMENT FIBROBLASTS USING PURIFIED DENTILISIN EXTRACTED FROM TREPONEMA DENTICOLA. PERIODONTAL DISEASE IS A CHRONIC MULTIFACTORIAL DISEASE TRIGGERED BY A COMPLEX OF BACTERIAL SPECIES. THESE INTERACT WITH HOST TISSUES TO CAUSE THE RELEASE OF A BROAD ARRAY OF PRO-INFLAMMATORY CYTOKINES, CHEMOKINES, AND TISSUE REMODELERS, SUCH AS MATRIX METALLOPROTEINASES (MMPS), WHICH LEAD TO THE DESTRUCTION OF PERIODONTAL TISSUES. PATIENTS WITH SEVERE FORMS OF PERIODONTITIS ARE LEFT WITH A PERSISTENT PRO-INFLAMMATORY TRANSCRIPTIONAL PROFILE THROUGHOUT THE PERIODONTIUM, EVEN AFTER CLINICAL INTERVENTION, LEADING TO THE DESTRUCTION OF TEETH-SUPPORTING TISSUES. THE ORAL SPIROCHETE, TREPONEMA DENTICOLA , IS CONSISTENTLY FOUND AT SIGNIFICANTLY ELEVATED LEVELS AT SITES WITH ADVANCED PERIODONTAL DISEASE. OF ALL T. DENTICOLA VIRULENCE FACTORS THAT HAVE BEEN DESCRIBED, ITS CHYMOTRYPSIN-LIKE PROTEASE COMPLEX, ALSO CALLED DENTILISIN, HAS DEMONSTRATED A MULTITUDE OF CYTOPATHIC EFFECTS CONSISTENT WITH PERIODONTAL DISEASE PATHOGENESIS, INCLUDING ALTERATIONS IN CELLULAR ADHESION ACTIVITY, DEGRADATION OF VARIOUS ENDOGENOUS EXTRACELLULAR MATRIX-SUBSTRATES, DEGRADATION OF HOST CHEMOKINES AND CYTOKINES, AND ECTOPIC ACTIVATION OF HOST MMPS. THUS, THE FOLLOWING MODEL OF T. DENTICOLA -HUMAN PERIODONTAL LIGAMENT CELL INTERACTIONS MAY PROVIDE NEW KNOWLEDGE ABOUT THE MECHANISMS THAT DRIVE THE CHRONICITY OF PERIODONTAL DISEASE AT THE PROTEIN, TRANSCRIPTIONAL, AND EPIGENETIC LEVELS, WHICH COULD AFFORD NEW PUTATIVE THERAPEUTIC TARGETS. THIS PROTOCOL WAS VALIDATED IN: PLOS PATHOG (2021), DOI: 10.1371/JOURNAL.PPAT.1009311. 2022 8 4416 26 MOLECULAR AND CELLULAR PATHWAYS CONTRIBUTING TO JOINT DAMAGE IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS IS A CHRONIC AUTOIMMUNE SYNDROME ASSOCIATED WITH SEVERAL GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS AFFECTING THE ARTICULAR JOINTS CONTRIBUTING TO CARTILAGE AND BONE DAMAGE. ALTHOUGH ETIOLOGY OF THIS DISEASE IS NOT CLEAR, SEVERAL IMMUNE PATHWAYS, INVOLVING IMMUNE (T CELLS, B CELLS, DENDRITIC CELLS, MACROPHAGES, AND NEUTROPHILS) AND NONIMMUNE (FIBROBLASTS AND CHONDROCYTES) CELLS, PARTICIPATE IN THE SECRETION OF MANY PROINFLAMMATORY CYTOKINES, CHEMOKINES, PROTEASES (MMPS, ADAMTS), AND OTHER MATRIX LYSING ENZYMES THAT COULD DISTURB THE IMMUNE BALANCE LEADING TO CARTILAGE AND BONE DAMAGE. THE PRESENCE OF AUTOANTIBODIES PRECEDING THE CLINICAL ONSET OF ARTHRITIS AND THE INDUCTION OF BONE EROSION EARLY IN THE DISEASE COURSE CLEARLY SUGGEST THAT INITIATION EVENTS DAMAGING THE CARTILAGE AND BONE START VERY EARLY DURING THE AUTOIMMUNE PHASE OF THE ARTHRITIS DEVELOPMENT. DURING THIS PROCESS, SEVERAL SIGNALING MOLECULES (RANKL-RANK, NF-KAPPAB, MAPK, NFATC1, AND SRC KINASE) ARE ACTIVATED IN THE OSTEOCLASTS, CELLS RESPONSIBLE FOR BONE RESORPTION. HENCE, COMPREHENSIVE KNOWLEDGE ON PATHOGENESIS IS A PREREQUISITE FOR PREVENTION AND DEVELOPMENT OF TARGETED CLINICAL TREATMENT FOR RA PATIENTS THAT CAN RESTORE THE IMMUNE BALANCE IMPROVING CLINICAL THERAPY. 2020 9 589 33 BET BROMODOMAIN INHIBITORS SUPPRESS INFLAMMATORY ACTIVATION OF GINGIVAL FIBROBLASTS AND EPITHELIAL CELLS FROM PERIODONTITIS PATIENTS. BET BROMODOMAIN PROTEINS ARE IMPORTANT EPIGENETIC REGULATORS OF GENE EXPRESSION THAT BIND ACETYLATED HISTONE TAILS AND REGULATE THE FORMATION OF ACETYLATION-DEPENDENT CHROMATIN COMPLEXES. BET INHIBITORS SUPPRESS INFLAMMATORY RESPONSES IN MULTIPLE CELL TYPES AND ANIMAL MODELS, AND PROTECT AGAINST BONE LOSS IN EXPERIMENTAL PERIODONTITIS IN MICE. HERE, WE ANALYZED THE ROLE OF BET PROTEINS IN INFLAMMATORY ACTIVATION OF GINGIVAL FIBROBLASTS (GFS) AND GINGIVAL EPITHELIAL CELLS (GECS). WE SHOW THAT THE BET INHIBITORS I-BET151 AND JQ1 SIGNIFICANTLY REDUCED EXPRESSION AND/OR PRODUCTION OF DISTINCT, BUT OVERLAPPING, PROFILES OF CYTOKINE-INDUCIBLE MEDIATORS OF INFLAMMATION AND BONE RESORPTION IN GFS FROM HEALTHY DONORS (IL6, IL8, IL1B, CCL2, CCL5, COX2, AND MMP3) AND THE GEC LINE TIGK (IL6, IL8, IL1B, CXCL10, MMP9) WITHOUT AFFECTING CELL VIABILITY. ACTIVATION OF MITOGEN-ACTIVATED PROTEIN KINASE AND NUCLEAR FACTOR-KAPPAB PATHWAYS WAS UNAFFECTED BY I-BET151, AS WAS THE HISTONE ACETYLATION STATUS, AND NEW PROTEIN SYNTHESIS WAS NOT REQUIRED FOR THE ANTI-INFLAMMATORY EFFECTS OF BET INHIBITION. I-BET151 AND JQ1 ALSO SUPPRESSED EXPRESSION OF INFLAMMATORY CYTOKINES, CHEMOKINES, AND OSTEOCLASTOGENIC MEDIATORS IN GFS AND TIGKS INFECTED WITH THE KEY PERIODONTAL PATHOGEN PORPHYROMONAS GINGIVALIS. NOTABLY, P. GINGIVALIS INTERNALIZATION AND INTRACELLULAR SURVIVAL IN GFS AND TIGKS REMAINED UNAFFECTED BY BET INHIBITORS. FINALLY, INHIBITION OF BET PROTEINS SIGNIFICANTLY REDUCED P. GINGIVALIS-INDUCED INFLAMMATORY MEDIATOR EXPRESSION IN GECS AND GFS FROM PATIENTS WITH PERIODONTITIS. OUR RESULTS DEMONSTRATE THAT BET INHIBITORS MAY BLOCK THE EXCESSIVE INFLAMMATORY MEDIATOR PRODUCTION BY RESIDENT CELLS OF THE GINGIVAL TISSUE AND IDENTIFY THE BET FAMILY OF EPIGENETIC READER PROTEINS AS A POTENTIAL THERAPEUTIC TARGET IN THE TREATMENT OF PERIODONTAL DISEASE. 2019 10 6741 17 WHERE TO STAND WITH STROMAL CELLS AND CHRONIC SYNOVITIS IN RHEUMATOID ARTHRITIS? THE SYNOVIUM EXERCISES ITS MAIN FUNCTION IN JOINT HOMEOSTASIS THROUGH THE SECRETION OF FACTORS (SUCH AS LUBRICIN AND HYALURONIC ACID) THAT ARE CRITICAL FOR THE JOINT LUBRICATION AND FUNCTION. THE MAIN SYNOVIUM CELL COMPONENTS ARE FIBROBLAST-LIKE SYNOVIOCYTES, MESENCHYMAL STROMAL/STEM CELLS AND MACROPHAGE-LIKE SYNOVIAL CELLS. IN THE SYNOVIUM, CELLS OF MESENCHYMAL ORIGIN MODULATE LOCAL INFLAMMATION AND FIBROSIS, AND INTERACT WITH DIFFERENT FIBROBLAST SUBTYPES AND WITH RESIDENT MACROPHAGES. IN PATHOLOGIC CONDITIONS, SUCH AS RHEUMATOID ARTHRITIS, FIBROBLAST-LIKE SYNOVIOCYTES PROLIFERATE ABNORMALLY, RECRUIT MESENCHYMAL STEM CELLS FROM SUBCHONDRAL BONE MARROW, AND INFLUENCE IMMUNE CELL ACTIVITY THROUGH EPIGENETIC AND METABOLIC ADAPTATIONS. THE RESULTING SYNOVIAL HYPERPLASIA LEADS TO SECONDARY CARTILAGE DESTRUCTION, JOINT SWELLING, AND PAIN. IN THE PRESENT REVIEW, WE SUMMARIZE RECENT FINDINGS ON THE MOLECULAR SIGNATURE AND THE ROLES OF STROMAL CELLS DURING SYNOVIAL PANNUS FORMATION AND RHEUMATOID ARTHRITIS PROGRESSION. 2019 11 5145 29 POTENTIAL ROLE OF NUTRACEUTICALS VIA TARGETING A WNT/BETA-CATENIN AND NF-KAPPAB PATHWAY IN TREATMENT OF OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A DISEASE DUE TO THE AGING OF THE ARTICULAR CARTILAGE, A POST-MITOTIC TISSUE THAT STAYS FUNCTIONING UNTIL PRIMARY HOMEOSTATIC PROCESSES FAIL. BECAUSE OF PAIN AND DISABILITY, OA SIGNIFICANTLY INFLUENCES NATIONAL HEALTHCARE EXPENSES AND PATIENT QUALITY OF LIFE. IT IS A WHOLE-JOINT ILLNESS CHARACTERIZED BY INFLAMMATORY AND OXIDATIVE SIGNALING PATHWAYS AND SIGNIFICANT EPIGENETIC ALTERATIONS THAT CAUSE CARTILAGE EXTRACELLULAR MATRIX DEGRADATION. THE CANONICAL WNT PATHWAY (WNT/BETA-CATENIN PATHWAY) AND NUCLEAR FACTOR KAPPA B (NF-KAPPAB) SIGNALING PATHWAYS MAY FUNCTION IN JOINT TISSUES BY MODULATING THE ACTIVITY OF SYNOVIAL CELLS, OSTEOBLASTS, AND CHONDROCYTES. HOWEVER, FINDING INNOVATIVE WAYS TO TREAT OSTEOARTHRITIS AND GET THE JOINT BACK TO AVERAGE BALANCE IS STILL A STRUGGLE. NUTRACEUTICALS ARE DIETARY SUPPLEMENTS THAT PROMOTE JOINT HEALTH BY BALANCING ANABOLIC AND CATABOLIC SIGNALS. NEW THERAPEUTIC METHODS FOR OA TREATMENT HAVE BEEN DEVELOPED BASED ON MANY RESEARCH FINDINGS THAT SHOW NUTRACEUTICALS HAVE STRONG ANTI-INFLAMMATION, ANTIOXIDANT, ANTI-BONE RESORPTION, AND ANABOLIC PROPERTIES. FOR THE TREATMENT OF OSTEOARTHRITIS, WE EXPLORE THE POSSIBLE INVOLVEMENT OF NUTRACEUTICALS THAT TARGET THE WNT/BETA-CATENIN AND NF-KAPPAB PATHWAYS. PRACTICAL APPLICATIONS: IN KEEPING WITH THE AGING POPULATION, OSTEOARTHRITIS IS BECOMING MORE WIDESPREAD. IN THIS EXTENSIVE RESEARCH, WE STUDIED THE ROLE OF THE WNT/BETA-CATENIN AND NF-KAPPAB PATHWAY IN OA FORMATION AND PROGRESSION. NUTRACEUTICALS THAT TARGET THESE OA-RELATED SIGNALING PATHWAYS ARE A VIABLE THERAPY OPTION. WNT/BETA-CATENIN AND NF-KAPPAB SIGNALING PATHWAY ARE INHIBITED BY POLYPHENOLS, FLAVONOIDS, ALKALOIDS, AND VITAMINS FROM THE NUTRACEUTICAL CATEGORY, MAKING THEM POSSIBLE THERAPEUTIC DRUGS FOR OA THERAPY. 2022 12 3789 31 INTERLEUKIN 17 CONTRIBUTES TO THE CHRONICITY OF INFLAMMATORY DISEASES SUCH AS RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY DISEASE LEADING TO JOINT DESTRUCTION AND BONE RESORPTION. THE PROINFLAMMATORY CYTOKINE INTERLEUKIN 17 (IL-17), PRIMARILY PRODUCED BY TH17 CELLS, HAS BEEN SHOWN TO BE INVOLVED IN ALL STAGES OF THE DISEASE AND TO BE AN IMPORTANT CONTRIBUTOR OF RA CHRONICITY. THREE MAJOR PROCESSES DRIVE THE IL-17-MEDIATED CHRONICITY. SEVERAL EPIGENETIC EVENTS, ENHANCED IN RA PATIENTS, LEAD TO THE INCREASED PRODUCTION OF IL-17 BY TH17 CELLS. IL-17 THEN INDUCES THE PRODUCTION OF SEVERAL INFLAMMATORY MEDIATORS IN THE DISEASED SYNOVIUM, WHICH ARE FURTHER SYNERGISTICALLY ENHANCED VIA COMBINATIONS OF IL-17 WITH OTHER CYTOKINES. IL-17 ALSO PROMOTES THE SURVIVAL OF BOTH THE SYNOVIOCYTES AND INFLAMMATORY CELLS AND PROMOTES THE MATURATION OF THESE IMMUNE CELLS. THIS LEADS TO AN INCREASED NUMBER OF SYNOVIOCYTES AND INFLAMMATORY CELLS IN THE SYNOVIAL FLUID AND IN THE SYNOVIUM LEADING TO THE HYPERPLASIA AND EXACERBATED INFLAMMATION OBSERVED IN JOINTS OF RA PATIENTS. FURTHERMORE, THESE IL-17-DRIVEN EVENTS INITIATE SEVERAL FEEDBACK-LOOP MECHANISMS LEADING TO INCREASED EXPANSION OF TH17 CELLS AND THEREBY INCREASED PRODUCTION OF IL-17. IN THIS REVIEW, WE AIM TO DEPICT A COMPLETE PICTURE OF THE IL-17-DRIVEN VICIOUS CIRCLE LEADING TO RA CHRONICITY AND TO PINPOINT THE KEY ASPECTS THAT REQUIRE FURTHER EXPLORATION. 2014 13 5114 42 PORPHYROMONAS GINGIVALIS LIPOPOLYSACCHARIDE STIMULATION IN HUMAN PERIODONTAL LIGAMENT STEM CELLS: ROLE OF EPIGENETIC MODIFICATIONS TO THE INFLAMMATION. PERIODONTITIS IS A CHRONIC ORAL INFLAMMATORY DISEASE PRODUCED BY BACTERIA. GINGIVAL RETRACTION AND BONE AND CONNECTIVE TISSUES RESORPTION ARE THE HALLMARKS OF THIS DISEASE. CHRONIC PERIODONTITIS MAY CONTRIBUTE TO THE RISK OF ONSET OR PROGRESSION OF NEUROINFLAMMATORY PATHOLOGICAL CONDITIONS, SUCH AS ALZHEIMER'S DISEASE. THE MAIN GOAL OF THE PRESENT STUDY WAS TO INVESTIGATE IF THE ROLE OF EPIGENETIC MODULATIONS IS INVOLVED IN PERIODONTITIS USING HUMAN PERIODONTAL LIGAMENT STEM CELLS (HPDLSCS) AS AN IN VITRO MODEL SYSTEM. HPDLSCS WERE TREATED WITH LIPOPOLYSACCHARIDE OF PORPHYROMONAS GINGIVALIS AND THE EXPRESSION OF PROTEINS ASSOCIATED WITH DNA METHYLATION AND HISTONE ACETYLATION, SUCH AS DNMT1 AND P300, RESPECTIVELY, AND INFLAMMATORY TRANSCRIPTION FACTOR NF-KB, WERE EXAMINED. IMMUNOFLUORESCENCE, WESTERN BLOT AND NEXT GENERATION SEQUENCING RESULTS DEMONSTRATED THAT P. GINGIVALIS LIPOPOLYSACCHARIDE SIGNIFICANTLY REDUCED DNA METHYLASE DNMT1, WHILE IT MARKEDLY UPREGULATED THE LEVEL OF HISTONE ACETYLTRANSFERASE P300 AND NF-KB IN HPDLSCS. OUR RESULTS SHOWED THAT P. GINGIVALIS LIPOPOLYSACCHARIDE MARKEDLY REGULATE THE GENES INVOLVED IN EPIGENETIC MECHANISM, WHICH MAY RESULT IN INFLAMMATION INDUCTION. WE PROPOSE THAT P. GINGIVALIS LIPOPOLYSACCHARIDE-TREATED HPDLSCS COULD BE A POTENTIAL IN VITRO MODEL SYSTEM TO STUDY EPIGENETICS MODULATIONS ASSOCIATED WITH PERIODONTITIS, WHICH MIGHT BE HELPFUL TO IDENTIFY NOVEL BIOMARKERS LINKED TO THIS ORAL INFLAMMATORY DISEASE. 2017 14 6218 24 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 15 4412 28 MOLECULAR AND CELLULAR BASIS OF RHEUMATOID JOINT DESTRUCTION. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY DISEASE ASSOCIATED WITH JOINT DESTRUCTION. SYNOVIAL FIBROBLASTS ARE KEY PLAYERS IN THIS PATHOLOGICAL PROCESS. THEY FAVORISE A PRO-INFLAMMATORY ENVIRONMENT IN THE SYNOVIAL TISSUE, INTERACT WITH THE IMMUNE SYSTEM AND REGULATE THE DIFFERENTIATION OF MONOCYTES INTO OSTEOCLASTS. SYNOVIAL HYPERPLASIA IS ANOTHER CHARACTERISTIC OF RA, REFLECTING NOT ONLY AN IMBALANCE BETWEEN PROLIFERATION AND APOPTOSIS, BUT ALSO THE MIGRATION OF CELLS INTO THE SYNOVIAL TISSUE. GENE TRANSFER EXPERIMENTS HAVE BEEN USED AS IMPORTANT TOOLS FOR THE UNDERSTANDING OF MOLECULAR AND CELLULAR CHANGES THAT CHARACTERIZE THE ACTIVATED RA SYNOVIAL FIBROBLASTS. ACTIVATED SYNOVIAL FIBROBLASTS CAN INVADE CARTILAGE AND BONE. SYNOVIAL ACTIVATION IS DRIVEN BY CYTOKINES, SUCH AS TNFALPHA AND IL-1, AS WELL AS IL-15, 16, 17, 18, 22, 23, BUT ALSO BY CYTOKINE-INDEPENDENT MECHANISMS THAT INVOLVE THE INNATE IMMUNE SYSTEM (I.E. TLRS), A UNIQUE COMMUNICATION NETWORK OF MICROPARTICLES AND EPIGENETIC CHANGES (E.G. L1 RETROELEMENTS). 2006 16 4298 27 MICRORNA-146A GOVERNS FIBROBLAST ACTIVATION AND JOINT PATHOLOGY IN ARTHRITIS. SYNOVIAL FIBROBLASTS ARE KEY CELLS ORCHESTRATING THE INFLAMMATORY RESPONSE IN ARTHRITIS. HERE WE DEMONSTRATE THAT LOSS OF MIR-146A, A KEY EPIGENETIC REGULATOR OF THE INNATE IMMUNE RESPONSE, LEADS TO INCREASED JOINT DESTRUCTION IN A TNF-DRIVEN MODEL OF ARTHRITIS BY SPECIFICALLY REGULATING THE BEHAVIOR OF SYNOVIAL FIBROBLASTS. ABSENCE OF MIR-146A IN SYNOVIAL FIBROBLASTS DISPLAY A HIGHLY DEREGULATED GENE EXPRESSION PATTERN AND ENHANCED PROLIFERATION IN VITRO AND IN VIVO. DEFICIENCY OF MIR-146A INDUCES DEREGULATION OF TUMOR NECROSIS FACTOR (TNF) RECEPTOR ASSOCIATED FACTOR 6 (TRAF6) IN SYNOVIAL FIBROBLASTS, LEADING TO INCREASED PROLIFERATION. IN ADDITION, LOSS OF MIR-146A SHIFTS THE METABOLIC STATE OF FIBROBLASTS TOWARDS GLYCOLYSIS AND AUGMENTS THE ABILITY OF SYNOVIAL FIBROBLASTS TO SUPPORT THE GENERATION OF OSTEOCLASTS BY CONTROLLING THE BALANCE OF OSTEOCLASTOGENIC REGULATORY FACTORS RECEPTOR ACTIVATOR OF NF-KAPPAB LIGAND (RANKL) AND OSTEOPROTEGERIN (OPG). BONE MARROW TRANSPLANTATION EXPERIMENTS CONFIRMED THE IMPORTANCE OF MIR-146A IN THE RADIORESISTANT MESENCHYMAL COMPARTMENT FOR THE CONTROL OF ARTHRITIS SEVERITY, IN PARTICULAR FOR INFLAMMATORY JOINT DESTRUCTION. THIS STUDY THEREFORE IDENTIFIES MICRORNA-146A AS AN IMPORTANT LOCAL EPIGENETIC REGULATOR OF THE INFLAMMATORY RESPONSE IN ARTHRITIS. IT IS A CENTRAL ELEMENT OF AN ANTI-INFLAMMATORY FEEDBACK LOOP IN RESIDENT SYNOVIAL FIBROBLASTS, WHO ARE ORCHESTRATING THE INFLAMMATORY RESPONSE IN CHRONIC ARTHRITIS. MIR-146A RESTRICTS THEIR ACTIVATION, THEREBY PREVENTING EXCESSIVE TISSUE DAMAGE DURING ARTHRITIS. 2017 17 6102 28 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 18 5507 21 RHEUMATOID ARTHRITIS PROGRESSION MEDIATED BY ACTIVATED SYNOVIAL FIBROBLASTS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC INFLAMMATORY DISEASE CHARACTERIZED BY SYNOVIAL HYPERPLASIA AND PROGRESSIVE JOINT DESTRUCTION. RHEUMATOID ARTHRITIS SYNOVIAL FIBROBLASTS (RASFS) ARE LEADING CELLS IN JOINT EROSION AND CONTRIBUTE ACTIVELY TO INFLAMMATION. RASFS SHOW AN ACTIVATED PHENOTYPE THAT IS INDEPENDENT OF THE INFLAMMATORY ENVIRONMENT AND REQUIRES THE COMBINATION OF SEVERAL FACTORS. ALTHOUGH NEW ASPECTS REGARDING RASF ACTIVATION VIA MATRIX DEGRADATION PRODUCTS, EPIGENETIC MODIFICATIONS, INFLAMMATORY FACTORS, TOLL-LIKE RECEPTOR (TLR) ACTIVATION AND OTHERS HAVE RECENTLY BEEN UNCOVERED, THE PRIMARY PATHOPHYSIOLOGICAL PROCESSES IN EARLY ARTHRITIS LEADING TO PERMANENT ACTIVATION ARE MOSTLY UNKNOWN. HERE, WE REVIEW NEW FINDINGS REGARDING RASF ACTIVATION AND THEIR ALTERED BEHAVIOR THAT CONTRIBUTE TO MATRIX DESTRUCTION AND INFLAMMATION AS WELL AS THEIR POTENTIAL TO SPREAD RA. 2010 19 2221 27 EPIGENETIC MODIFICATIONS IN RHEUMATOID ARTHRITIS, A REVIEW. RHEUMATOID ARTHRITIS IS AN AUTOIMMUNE DISEASE CHARACTERIZED BY CHRONIC JOINT INFLAMMATION AND PROGRESSIVE DESTRUCTION OF CARTILAGE AND BONE WHICH LEADS TO ULTIMATELY LOSS OF FUNCTION AND PAIN. ACTIVATED SYNOVIAL FIBROBLASTS ARE KEY EFFECTOR CELLS IN THE PATHOGENESIS OF RHEUMATOID ARTHRITIS. IN THE RECENT YEARS, EPIGENETIC CHANGES INCLUDING DNA METHYLATION, HISTONE ACETYLATION AND OTHER HISTONE MODIFICATIONS WERE IDENTIFIED THAT ARE ASSOCIATED WITH AN INTRINSIC ACTIVATION AND THE AGGRESSIVE PHENOTYPE OF THESE CELLS. SO FAR, NO THERAPIES TARGETING RHEUMATOID ARTHRITIS SYNOVIAL FIBROBLASTS EXIST. THIS REVIEW COMPRISES RECENT RESEARCH EFFORTS THAT PROPOSE EPIGENETIC MECHANISMS BEHIND THE ACTIVATION OF RHEUMATOID ARTHRITIS SYNOVIAL FIBROBLASTS AND OTHER CELL TYPES. 2013 20 296 28 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