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Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 126 - 126
2 Jan 2024
Schmidt S Klampfleuthner F Diederichs S
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The signaling molecule prostaglandin E2 (PGE2), synthesized by cyclooxygenase-2 (COX-2), is immunoregulatory and reported to be essential for skeletal stem cell function. Nonsteroidal anti-inflammatory drugs (NSAIDs) are widely used in osteoarthritis (OA) analgesia, but cohort studies suggested that long-term use may accelerate pathology. Interestingly, OA chondrocytes secrete high amounts of PGE2. Mesenchymal stromal cell (MSC) chondrogenesis is an in vitro OA model that phenocopies PGE2 secretion along with a hypertrophic OA-like cell morphology. Our aim was to investigate cause and effects of PGE2 secretion in MSC-based cartilage neogenesis and hypertrophy and identify molecular mechanisms responsible for adverse effects in OA analgesia. Human bone marrow-derived MSCs were cultured in chondrogenic medium with TGFβ (10ng/mL) and treated with PGE2 (1µM), celecoxib (COX-2 inhibitor; 0.5µM), AH23848/AH6809 (PGE2 receptor antagonists; 10µM), or DMSO as a control (n=3–4). Assessment criteria were proteoglycan deposition (histology), chondrocyte/hypertrophy marker expression (qPCR), and ALP activity. PGE2 secretion was measured (ELISA) after TGFβ withdrawal (from day 21, n=2) or WNT inhibition (2µM IWP-2 from day 14; n=3). Strong decrease in PGE2 secretion upon TGFβ deprivation or WNT inhibition identified both pathways as PGE2 drivers. Homogeneous proteoglycan deposition and COL2A1 expression analysis showed that MSC chondrogenesis was not compromised by any treatment. Importantly, hypertrophy markers (COL10A1, ALPL, SPP1, IBSP) were significantly reduced by PGE2 treatment, but increased by all inhibitors. Additionally, PGE2 significantly decreased ALP activity (2.9-fold), whereas the inhibitors caused a significant increase (1.3-fold, 1.7-fold, 1.8-fold). This identified PGE2 as an important inhibitor of chondrocyte hypertrophy. Although TGFβ and WNT are known pro-arthritic signaling pathways, they appear to induce a PGE2-mediated antihypertrophic effect that can counteract pathological cell changes in chondrocytes. Hampering this rescue mechanism via COX inhibition using NSAIDs thus risks acceleration of OA progression, indicating the need of OA analgesia adjustment


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_9 | Pages 67 - 67
17 Apr 2023
Sharp V Bury N Masieri F
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The development of a representative human, in vitro OA model could deepen understanding of disease mechanisms. Our research aimed to reprogram healthy and OA-derived synoviocytes to induced pluripotent stem cells (iPSCs), thereby generating a novel OA in vitro model. Comparison between the two models shall enable research into underlying processes with potential for clinical translation. A meta-analysis of OA synovial biomarkers was conducted, identifying up to thirteen relevant pathophysiology-related factors, including, amongst others, IL-13, IL-10, IL-6, PIICP, and HA, with PIICP demonstrating the largest effect (SMD 6.11 [3.50, 8.72], p <0.00001). With these findings in mind, human fibroblast-like synoviocytes (HFLS) from healthy and OA patients were transduced using Sendai viral reprogramming. Two clones for each of the resulting iPSC lines were expanded and preliminarily analysed in triplicate by ICC and RT-qPCR for pluripotency characteristics. Healthy HFLS-derived and OA-HFLS-derived iPSC (UoS-B and UoS-C lines, respectively) were generated, indicating successful reprogramming. Morphological observations demonstrated typical iPSC appearance, and ICC confirmed presence of pluripotency markers Tra-1-60, Oct3/4 and Nanog. Expression of Oct3/4, Nanog and Sox2 were confirmed by RT-qPCR with OA-iPSC lines expressing higher levels of all markers compared to non-OA iPSC. In particular, expression of Oct3/4 and Sox2 was 3.5 fold and 4.6 fold higher (p <0.001) in OA-iPSCs (UoS-C) vs. non-OA iPSCs (UoS-B), respectively. Sendai virus clearance was confirmed by passage 4. The successfully obtained OA and non-OA iPSCs can be differentiated towards mesenchymal lineages, including chondrocyte and bone progenitor cells, enabling phenotypic comparison and biomarker analysis as identified in meta-analysis. Cell bank dissemination of these cell lines could deepen further in vitro OA research, with potential impact for clinical translation via the identification of novel cellular and molecular targets


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_4 | Pages 81 - 81
1 Apr 2018
Ripmeester E Caron MMJ van Rhijn LW Welting TJM
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Osteoarthritis (OA) is the most common degenerative joint disease causing joint immobility and chronic pain. Treatment is mainly based on alleviating pain and reducing disease progression. During OA progression the chondrocyte undergoes a hypertrophic switch in which extracellular matrix (ECM) -degrading enzymes are released, actively degrading the ECM. However, cell biological based therapies to slow down or reverse this katabolic phenotype are still to be developed. Bone morphogenetic protein 7 (BMP-7) has been shown to have OA disease-modifying properties. BMP-7 suppresses the chondrocyte hypertrophic and katabolic phenotype and may be the first biological treatment to target the chondrocyte phenotype in OA. However, intra-articular use of BMP-7 is at risk in the proteolytic and hydrolytic joint-environment. Weekly intra-articular injections are necessary to maintain biological activity, a frequency unacceptable for clinical use. Additionally, production of GMP-grade BMP-7 is challenging and expensive. To enable its clinical use, we sought for BMP-7 mimicking peptides better compatible with the joint-environment while still biologically active and which potentially can be incorporated in a drug-delivery system. We hypothesized that human BMP-7 derived peptides are able to mimic the disease modifying properties of the full-length human BMP-7 protein on the OA chondrocyte phenotype. A BMP-7 peptide library was synthesized consisting of overlapping 20-mer peptides with 18 amino-acids overlap between sequential peptides. OA human articular chondrocytes (HACs) were isolated from OA cartilage from total knee arthroplasty (n=18 donors). HACs were exposed to BMP-7 (1 nM) or BMP-7 library peptides at different concentrations (1, 10, 100 or 1000 nM). Gene-expression levels of important chondrogenic-, hypertrophic-, cartilage degrading- and inflammatory mediators were determined by RT-qPCR. GAG and ALP activity were determined using a colorimetric assay and PGE levels were measured by EIA. During the BMP-7 peptide library screening human BMP-7 derived peptides were screened for their full-length human BMP-7 mimicking properties at different concentrations (1, 10, 100 or 1000nM) on a pool of human chondrocytes. Gene expression as well as GAG, ALP and PGE2 level analysis revealed two distinct peptide regions in the BMP-7 protein based on their pro-chondrogenic and anti-OA phenotype actions on human OA chondrocytes. The two most promising peptides were further analysed for their OA chondrocyte disease modifying properties in the presence of OA synovial fluid, showing similar OA phenotype suppressive activity. Conclusively, we successfully identified two peptide regions in the BMP-7 protein with in vitro OA suppressive actions. Further biochemical fine-tuning of the peptides, and in vivo evaluation, will potentially result in the first peptide-based experimental OA treatment, addressing the hypertrophic and katabolic chondrocyte phenotype in OA


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 100 - 100
1 Jul 2014
Smith M Schiavinato A Little C
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Introduction. Osteoarthritis (OA) involves pathological change in all joint tissues, including cartilage degradation and synovitis. Synovial inflammation is significantly associated with pain severity and incidence in knee OA. It is becoming evident that synovitis also plays an active role in the initiation and progression of cartilage erosion in OA, through direct secretion of catabolic enzymes as well as factors that stimulate chondrocyte catabolic activity. Therapeutic agents that target both synovitis and cartilage pathology are likely to be maximally beneficial in treating pain and slowing cartilage breakdown in OA. We have previously shown that an amide-derivative of HA (HYMOVIS™) was superior to native HA of the same MW in improving gait, and reducing synovial hyperplasia in a sheep OA model. In the present study the mechanisms whereby the chemically modified HA may be beneficial were examined using chondrocytes and synovial fibroblasts from knees of OA patients. Patients & Methods. Chondrocytes (HAC, n=6) and synovial fibroblasts (HSF, n=6) were isolated from OA patients at the time of knee replacement. HYMOVIS™ (0, 0.5, 1.0 or 1.5mg/mL) was added to simultaneously or 1 hour before interleukin-1β (IL1, 2ng/mL). Cultures were terminated 30 minutes later for Bioplex. ®. quantitation of p-JNK, p-NFκB and p-p38; or 24 hours later for RNA isolation and analysis of gene expression by real time RT-PCR, and measurement of MMP13 activity in the media. Only statistically significant results are reported. Results. In HAC in the absence of IL1, HYMOVIS™ decreased MMP13, ADAMTS5, PTGS2 and IL6 and increased COL2A1 mRNA (2–10fold). In HSF in absence of IL1, HYMOVIS™ decreased TIMP1, TIMP3, CD44, IL6 and increased PTGS2 (2–3fold). In HAC and HSF, IL1 increased expression of MMP1, MMP13, PTGS2, IL6 (>100fold), ADAMTS4 (∼10 fold), all phosphoproteins (3–10fold), and APMA-activated MMP13 activity in media. IL1 increased expression of ADAMTS5 (∼10fold) only in HSF. As expected, IL1 reduced expression of the key matrix proteins in HAC (2–3 fold decrease in COL2A1 and ACAN) and HSF (2 fold decrease in COL1A1). When added simultaneously with IL1, HYMOVIS™ decreased expression of MMP13, ADAMTS5, PTGS2, IL6 expression, and normalised matrix protein expression in both HAC and HAS. Pre-incubation with HYMOVIS™ for 1 hour inhibited IL1-stimulated p-JNK, p-NFκB and p-p38 in both cell types (excluding p-JNK in HSF). In HAC, HYMOVIS™ pre-incubation was superior to simultaneous addition in reducing expression of MMP1, MMP13, ADAMTS4, PTGS2, and IL6 expression. There was a less dramatic effect of HYMOVIS™ pre-incubation on gene expression in HSF compared with HAC. The inhibitory effects of HYMOVIS™ on IL1 stimulated gene expression in HAC and HSF was partially ameliorated by pre-incubation with a CD-44 blocking antibody. Discussion/Conclusions. The present studies have demonstrated several potential key mechanisms whereby the intra-articular injection of a hexadecylamide-derivative of HA (HYMOVIS™) may have both symptom and disease-modifying effects in OA. The previously described increased joint retention of the hexadecylamide-derivative, might act in a similar manner to the pre-incubation studies in our cell culture studies, to reduce the initiation of degradative events with recurrent/cyclic inflammatory episodes that typify OA


Bone & Joint Research
Vol. 3, Issue 2 | Pages 32 - 37
1 Feb 2014
Singh A Goel SC Gupta KK Kumar M Arun GR Patil H Kumaraswamy V Jha S

Introduction. Osteoarthritis (OA) is a progressively debilitating disease that affects mostly cartilage, with associated changes in the bone. The increasing incidence of OA and an ageing population, coupled with insufficient therapeutic choices, has led to focus on the potential of stem cells as a novel strategy for cartilage repair. Methods. In this study, we used scaffold-free mesenchymal stem cells (MSCs) obtained from bone marrow in an experimental animal model of OA by direct intra-articular injection. MSCs were isolated from 2.8 kg white New Zealand rabbits. There were ten in the study group and ten in the control group. OA was induced by unilateral transection of the anterior cruciate ligament of the knee joint. At 12 weeks post-operatively, a single dose of 1 million cells suspended in 1 ml of medium was delivered to the injured knee by direct intra-articular injection. The control group received 1 ml of medium without cells. The knees were examined at 16 and 20 weeks following surgery. Repair was investigated radiologically, grossly and histologically using haematoxylin and eosin, Safranin-O and toluidine blue staining. Results. Radiological assessment confirmed development of OA changes after 12 weeks. Rabbits receiving MSCs showed a lower degree of cartilage degeneration, osteophyte formation, and subchondral sclerosis than the control group at 20 weeks post-operatively. The quality of cartilage was significantly better in the cell-treated group compared with the control group after 20 weeks. Conclusions. Bone marrow-derived MSCs could be promising cell sources for the treatment of OA. Neither stem cell culture nor scaffolds are absolutely necessary for a favourable outcome. Cite this article: Bone Joint Res 2014;3:32–7


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_2 | Pages 44 - 44
2 Jan 2024
Ciftci E Grad S Alini M Li Z
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Osteoarthritis (OA) is the most prevalent degenerative joint disease that is a leading cause of disability worldwide. Existing therapies of OA only address the symptoms. Liraglutide is a well-known anti-diabetic medication that is used to treat type 2 diabetes and obesity. In inflammatory and post-traumatic OA animal models, liraglutide has demonstrated anti-inflammatory, pain-relieving, and cartilage-regenerating effects1 . The objective of this study is to investigate liraglutide's ability to reduce inflammation and promote anabolism in human OA chondrocytes in vitro. Pellets formed with human OA chondrocytes were cultured with a chondrogenic medium for one week to form cartilage tissue. Afterward, pellets were cultured for another 2 weeks with a chondropermissive medium. The OA group was treated with IL-1β to mimic an inflammatory OA condition. The drug group was treated with 0.5 or 10 µM liraglutide. On days 0, 1, and 14, pellets were collected. Conditioned medium was collected over the 2 weeks culture period. The gene and protein expression levels of regenerative and inflammatory biomarkers were evaluated and histological analyzes were performed. Results showed that the nitric oxide release of the OA + 0.5 µM liraglutide and OA + 10 µM liraglutide groups were lower than the OA group. The DNA content of the OA + 0.5 µM liraglutide and OA + 10 µM liraglutide groups were higher than the OA group on day 14. The RT-qPCR results showed that the anabolism (ACAN, COMP, and COL2) markers were higher expressed in the OA + 0.5 µM liraglutide and OA + 10 µM liraglutide groups when compared with the OA group. The inflammation (CCL-2 and IL-8) markers and catabolism markers (MMP-1, MMP-3, ADAMTS4, and ADAMTS5) had lower expression levels in the OA + liraglutide groups compared to the OA group. The histomorphometric analysis (Figure 1) supported the RT-qPCR results. The results indicate that liraglutide has anabolic and anti-inflammatory effects on human OA chondrocyte pellets. Acknowledgments: This project has received funding from the Eurostars-2 joint program with co-funding from the European Union Horizon 2020 research and innovation program. The funding agencies supporting this work are (in alphabetical order of participating countries): France: BPI France; Germany: Project Management Agency (DLR), which acts on behalf of the Federal Ministry of Education and Research (BMBF); The Netherlands: Netherlands Enterprise Agency (RVO); Switzerland: Innosuisse (the Swiss Innovation Agency). For any figures and tables, please contact the authors directly


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_18 | Pages 54 - 54
14 Nov 2024
Pann P Taheri S Schilling AF Graessel S
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Introduction. Osteoarthritis (OA) causes pain, stiffness, and loss of function due to degenerative changes in joint cartilage and bone. In some forms of OA, exercise can alleviate symptoms by improving joint mobility and stability. However, excessive training after joint injury may have negative consequences for OA development. Sensory nerve fibers in joints release neuropeptides like alpha-calcitonin gene-related peptide (alpha-CGRP), potentially affecting OA progression. This study investigates the role of alpha-CGRP in OA pathogenesis under different exercise regimen in mice. Method. OA was induced in C57Bl/6J WT mice and alpha-CGRP KO mice via surgical destabilization of the medial meniscus (DMM) at 12 weeks of age (N=6). Treadmill exercise began 2 weeks post-surgery and was performed for 30 minutes, 5 days a week, for 2 or 6 weeks at intense (16 m/min, 15° incline) or moderate (10 m/min, 5° incline) levels. Histomorphometric assessment of cartilage degradation (OARSI scoring), serum cytokine analysis, immunohistochemistry, and nanoCT analysis were conducted. Result. OARSI scoring confirmed OA induction 4 weeks post-DMM surgery, with forced exercise exacerbating cartilage degradation regardless of intensity. No significant genotype-dependent differences were observed. Serum analysis revealed elevated cytokine levels associated with OA and inflammation in KO mice compared to WT mice 4 and 8 weeks post-surgery (VEGF-A, MCP-1, CXCL10, RANTES, MIP1-alpha, MIP1-beta, and RANKL). The observed effects were often exacerbated by intense exercise but rarely by DMM surgery. NanoCT analysis demonstrated increased sclerotic bone changes after 6 weeks of forced exercise in KO mice compared to WT mice. Conclusion. Our results suggest an OA promoting effect of exercise in early disease stages of posttraumatic OA. Intense exercise induced inflammatory processes correlated to increased cytokine levels in the serum that might exacerbate OA pathogenesis in later stages. The neuropeptide alpha-CGRP might play a role in protecting against these adverse effects


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_7 | Pages 55 - 55
4 Apr 2023
Ge Q Shi Z Ying J Chen J Yuan W Wang P Chen D Feng X Tong P Jin H
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TGF-β/Smad2 signaling is considered to be one of the important pathways involved in osteoarthritis (OA) and protein phosphatase magnesium-dependent 1A (PPM1A) functions as an exclusive phosphatase of Smad2 and regulates TGF-β signaling, here, we investigated the functional role of PPM1A in OA pathogenesis. PPM1A expressions in both human OA cartilage and experimental OA mice chondrocytes were analyzed immunohistochemically. Besides, the mRNA and protein expression of PPM1A induced by IL-1β treatment were also detected by q-PCR and immunofluorescence in vitro. OA was induced in PPM1A knockout (KO) mice by destabilization of the medial meniscus (DMM), and histopathological examination was performed. OA was also induced in wild-type (WT) mice, which were then treated with an intra-articular injection of a selective PPM1A inhibitor for 8 weeks. PPM1A protein expressions were increased in both human OA cartilage and experimental OA mice chondrocytes. We also found that treatment with IL-1β in mouse primary chondrocytes significantly increased both mRNA and protein expression of PPM1A in vitro. Importantly, our data showed that PPM1A deletion could substantially protect against surgically induced OA. Concretely, the average OARSI score and quantification of BV/TV of subchondral bone in KO mice were significantly lower than that in WT mice 8 weeks after DMM surgery. Besides, TUNEL staining revealed a significant decrease in apoptotic chondrocytes in PPM1A-KO mice with DMM operation. With OA induction, the rates of chondrocytes positive for Mmp-13 and Adamts-5 in KO mice were also significantly lower than those in WT mice. Moreover, compared with WT mice, the phosphorylation of Smad2 in chondrocytes was increased in KO mice underwent DMM surgery. However, articular-injection with SD-208, a selective inhibitor of TGF-β/Smad2 signaling could significantly abolish the chondroprotective phenotypes in PPM1A-KO mice. Additionally, both cartilage degeneration and subchondral bone subchondral bone sclerosis in DMM model were blunted following intra-articular injection with BC-21, a small-molecule inhibitor for PPM1A. Our study demonstrated that PPM1A inhibition attenuates OA by regulating TGF-β/Smad2 signaling. Furthermore, PPM1A is a potential target for OA treatment and BC-21 may be employed as alternative therapeutic agents for the management of OA


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_18 | Pages 119 - 119
14 Nov 2024
Rösch G Rapp AE Tsai PL Kohler H Taheri S Schilling AF Zaucke F Slattery D Lanzl ZJ
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Introduction. Osteoarthritis (OA) is a chronic degenerative disease of the entire joint leading to joint stiffness and pain (PMID:33571663). Recent evidence suggests that the sympathetic nervous system (SNS) plays a role in the pathogenesis of OA (PMID:34864169). A typical cause for long-term hyperactivity of the SNS is chronic stress. To study the contribution of increased sympathetic activity, we analyzed the progression of OA in chronically stressed mice. Method. We induced OA in male C57BL/6J mice by destabilizing the medial meniscus (DMM)(PMID:17470400) and exposed half of these mice to chronic unpredictable mild stress (CUMS)(PMID:28808696). Control groups consisted of sham-operated mice with and without CUMS exposure. After 12 weeks, CUMS efficacy was determined by assessing changes in body weight gain and activity of mice, measuring splenic norepinephrine and serum corticosterone levels. OA progression was studied by histological analysis of cartilage degeneration and synovitis, and by μCT to evaluate changes in calcified cartilage and subchondral bone microarchitecture. A dynamic weight-bearing system was used to assess OA-related pain. Result. CUMS resulted in significantly decreased body weight gain and activity, as well as increased splenic norepinephrine and serum corticosterone concentrations compared to the respective controls. Surprisingly, already DMM alone resulted in elevated stress hormone levels. CUMS significantly exacerbated cartilage degeneration and synovial inflammation and increased OA pain in DMM mice. The underlying cellular and molecular mechanisms are currently being analyzed using FACS, single cell RNAseq, and spatial proteomics. Conclusion. Overall, chronic stress exacerbates OA severity and pain. Moreover, increased levels of stress hormones were observed in OA mice without CUMS induction, suggesting a complex bi-directional interaction between the SNS and OA. Targeting the autonomic nervous system, such as attenuating the SNS but also stimulating the activity of the parasympathetic nervous system, as a counterpart of the SNS, may therefore be promising for novel preventive or causal treatments of OA


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_9 | Pages 66 - 66
17 Apr 2023
Sharp V Scott C Hing C Masieri F
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Establishing disease biomarkers has been a long-sought after goal to improve Osteoarthritis (OA) diagnosis, prognosis, clinical and pharmaceutical interventions. Given the role of the synovium in contributing to OA, a meta-analysis was performed to determine significant synovial biomarkers in human OA tissue, compared to non-OA patients. Outcomes will direct future research on marker panels for OA disease modelling in vitro/in vivo, aiding clinical research into OA disease targets. A PRISMA compliant search of databases was performed to identify potential biomarker studies analysing human, OA, synovial samples compared to non-OA/healthy participants. The Risk of Bias In Non-Randomised Studies of Interventions (ROBINS-I) tool assessed methodological quality, with outcome analysed by Grading of Recommendations Assessment, Development and Evaluation (GRADE). Meta-analyses were conducted for individual biomarkers using fixed or random effect models, as appropriate. Where three or more studies included a specific biomarker, Forest Plot comparisons were generated. 3230 studies were screened, resulting in 34 studies encompassing 25 potential biomarkers (1581 OA patients and 695 controls). Significant outcomes were identified for thirteen comparisons. Eleven favoured OA (IL-6, IL-10, IL-13, IP-10, IL-8, CCL4, CCL5, PIICP, TIMP1, Leptin and VEGF), two favoured non-OA controls (BMP-2 and HA). Notably, PIICP showed the largest effect (SMD 6.11 [3.50, 8.72], p <0.00001, I. 2. 99%), and TIMP1 resulted critically important (0.95 [0.65, 1.25], p <0.00001, I. 2. 82%). Leptin and CCL4 showed lower effects (SMD 0.81 [0.33, 1.28], p =0.0009; 0.59 [0.32, 0.86], p <0.0001, respectively). Thirteen significant synovial biomarkers showed links with OA bioprocesses including collagen turnover, inflammatory mediators and ECM components. Limitations arose due to bias risk from incomplete or missing data, publication bias of inconclusive results, and confounding factors from patient criteria. These findings suggest markers of potential clinical viability for OA diagnosis and prognosis that could be correlated with specific disease stages


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 127 - 127
11 Apr 2023
Nau T Cutts S Naidoo N
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There is an evolving body of evidence that demonstrates the role of epigenetic mechanisms, such as DNA-methylation in the pathogenesis of OA. This systematic review aims to summarize the current evidence of DNA methylation and its influence on the pathogenesis of OA. A pre-defined protocol in alignment with the PRISMA guidelines was employed to systematically review eight bibliographic databases, to identify associations between DNA-methylation of articular chondrocytes and osteoarthritis. A search of Medline (Ovid), Embase, Web-of-Science, Scopus, PubMed, Cinahl (EBSCOhost), Cochrane Central and Google Scholar was performed between 1st January 2015 to 31st January 2021. Data extraction was performed by two independent reviewers. During the observation period, we identified 15 gene specific studies and 24 genome wide methylation analyses. The gene specific studies mostly focused on the expression of pro-inflammatory markers, such as IL8 and MMP13 which are overexpressed in OA chondrocytes. DNA hypomethylation in the promoter region resulted in overexpression, whereas hypermethylation was seen in non-OA chondrocytes. Others reported on the association between OA risk genes and the DNA methylation pattern close to RUNX2, which is an important OA signal. The genome wide methylation studies reported mostly on differentially methylated regions comparing OA chondrocytes and non-OA chondrocytes. Clustering of the regions identified genes that are involved in skeletal morphogenesis and development. Differentially methylated regions were seen in hip OA and knee OA chondrocytes, and even within different regions of an OA affected knee joint, differentially methylated regions were identified depending on the disease stage. This systematic review demonstrates the growing evidence of epigenetic mechanisms, such as DNA methylation, in the pathogenesis of OA. In recent years, there has been a focus on the interplay between OA risk genes and DNA methylation changes which revealed a reactivation of genes responsible for endochondral ossification during development. These are important findings and may help to identify eventual future therapeutic targets. However, the current body of literature is mostly showing the differences in DNA methylation of OA chondrocytes and non-OA chondrocytes, but a true longitudinal analysis demonstrating the DNA methylation changes actually happening is still not available


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 3 - 3
2 Jan 2024
Sohn R Assar T Braun S Brenneis M Kaufhold I Zaucke F Pongratz G Jenei-Lanzl Z
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Osteoarthritis (OA) is the most common degenerative joint disorder. Its multifactorial etiology includes age, sex, joint overloading, genetic or nervous influences. In particular, the autonomic nervous system is increasingly gaining in importance. Its two branches, the sympathetic (SNS) and parasympathetic nervous system, are well-balanced under healthy conditions. OA patients seem to be prone to an autonomic imbalance and therefore, we analyzed their autonomic status. More than 200 participants including patients with early and late stage knee OA (before and 1 year after knee replacement surgery) and healthy probands (age-matched) were analyzed. Heart rate variability was measured via electrocardiogram to assess long-term sympathetic (low-frequency=LF) and parasympathetic (high-frequency=HF, pRR50) activities or general variability (RMSSD, SDRR). Serum cortisol concentrations were measured by ELISA. Perceived chronic stress (PSQ) was assessed via questionnaire. Multivariant regression was performed for data analysis. LF/HF value of early OA was slightly increased compared to healthy controls but significantly higher compared to late OA patients before (p>0.05) and after TKR (p>0.01). HF in late OA patients before TKR was significantly decreased compared to patients after TKR (p>0.001) or healthy controls (p>0.05). Healthy probands exhibited the highest SDRR values, early OA patients had slightly lower levels and late OA patients before TKR displayed significantly reduced SDRR (p>0.001). The same differences were observed in pRR50 and RMSSD. Serum cortisol concentrations and PSQ scores increased in late OA patients before TKR. At the time point of TKR, women with beta blocker medication had significantly higher age (71 ± 9 years) than those without (63 ± 12 years)(p>0.01). An autonomic dysfunction with sympathetic dominance occurs in OA patients. The fact that beta blocker medication in women delayed the need of TKR indicates that SNS inhibition might counteract OA. Future therapeutic interventions for OA should consider a systemic approach with special regard on the ANS


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 104 - 104
11 Apr 2023
Vadgaonkar A Faymonville C Obertacke U
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Osteoarthritis (OA) is the most common disorder of the Sternoclavicular Joint (SCJ). In our case-control study, we evaluated the relationship between clavicular length and OA at the SCJ. CT scans of adults presenting to the Emergency Department of our hospital were examined to look for OA, defined as the presence of osteophytes, subchondral cysts, or cortical sclerosis at the SCJ. Medial-most and lateral-most points of the clavicle were marked on the slices passing through the SC and AC joints respectively. Using x, y, and z-axis coordinates from the DICOM metadata, clavicular length was calculated as the distance between these two points with 3D geometry. Preliminary data of 334 SCJs from 167 patients (64% males, 36% females) with a mean age of 48.5 ± 20.5 years were analysed. Multivariate regression models revealed that age and clavicular length were independent risk factors for OA while gender did not reach statistical significance. A 1mm increase in length was associated with 9% and 7% reduction in the odds of developing OA on the left and the right respectively. Comparing the mean clavicular length using t-test showed a significantly shorter clavicle in the group with OA (145.8 vs 152.7, p=0.0001, left and 144.2 vs 150.3, p=0.0007, right). Our data suggest that the risk of developing OA at the SCJ is higher for shorter clavicles. This could be of clinical relevance in cases of clavicular fracture where clavicular shortening might lead to a higher risk of developing OA. Biomechanical studies are needed to find out the mechanism of this effect


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_18 | Pages 16 - 16
14 Nov 2024
Mei J Pasoldt A Matalova E Graessel S
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Introduction. Osteoarthritis (OA) is a prevalent joint disorder characterized by cartilage degeneration, inflammation, and pain. Current treatments provide only symptomatic relief, necessitating novel molecular targets. The caspase family, known for its roles in apoptosis and inflammation regulation, may additionally influence crucial processes for cartilage homeostasis such as differentiation and proliferation. However, the specific roles of individual caspases in OA pathogenesis remain unclear. This study aims to investigate the involvement of the caspase family in OA and as potential targets for therapy, with a focus on caspase-1 and -8. Method. Chondrocytes from both healthy and OA donors were cultured in 2D and 3D culture models and stimulated with TNF-α or IL-1β. The expression and activation of caspase-1 and -8 was assessed using RT-PCR, ELISA. Transcriptome analysis of OA and healthy cartilage samples, along with Mendelian randomization (MR) analysis were conducted to explore the involvement of caspase family in OA and to assess its potential as therapeutic targets. Result. Higher expression levels of caspase-1, -8 were observed in OA cartilage compared to healthy cartilage. TNF-α stimulation increased their expression in both healthy and OA chondrocytes, while IL-1β had limited impact. Caspase-8 expression was causally associated with knee OA in MR analysis, suggesting a potential therapeutic target. The caspase-1 inhibitor VX-765 mildly reduced chondrocyte viability, with no significant effect in the presence of TNF-α. While the caspase-8 inhibitor Z-IETD-FMK exhibited slight enhancements in cell viability, these improvements were not statistically significant. Nevertheless, its effectiveness significantly increased in the presence of TNF-α. Conclusion. This study highlights the involvement of caspase-1 and caspase-8 in OA pathology, with caspase-8 emerging as a potential therapeutic target for knee OA treatment. Further investigation into the roles of caspase-1 and -8 in OA pathophysiology, including the efficacy and potential side effects of their corresponding inhibitors, is warranted. Acknowledgements. Funding Inter-Action/Inter-Excellence project (BTHA-JC-2022-36/LUABA22019)


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_18 | Pages 44 - 44
14 Nov 2024
Sohn R Assar T Kaufhold I Brenneis M Braun S Junker M Zaucke F Pongratz G Jenei-Lanzl Z
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Introduction. Recent studies suggested that the progression of osteoarthritis (OA), a chronic degenerative joint disease, may be affected by the autonomic nervous system (ANS). Under healthy conditions, the sympathetic (SNS) and parasympathetic (PNS) branches of the ANS are well coordinated to maintain homeostasis. However, pathological conditions are frequently associated with a disturbance of this fine-tuned balance. Therefore, we analyzed whether an autonomic dysfunction occurs in OA patients. Method. 225 participants with early- or late-stage knee OA as well as 40 healthy age-matched probands were included in this study. Autonomic activity was investigated by analyzing heart rate variability (HRV), which decreases under chronic sympathetic overactivity. Time- and frequency-domain HRV indices SDRR, RMSSD, pRR50 and LF were examined. Linear regression analysis was performed to adjust for clinical characteristics, such as age, sex, BMI, or medication. Moreover, perceived chronic stress (PSQ) and pain (WOMAC) were assessed via questionnaires. In addition, the serum stress hormones cortisol, DHEA-S and IL-6 were analyzed via ELISA. Result. SDRR, RMSSD, and pRR50 were slightly reduced in the early stage of OA and showed significant decrease in the later stage of the disease. Also LF decreased significantly with OA progression. HRV was significantly influenced by the grade of OA, but not other patient characteristics. Moreover, late-stage OA patients demonstrated significantly higher PSQ and WOMAC levels compared to healthy controls. In addition, cortisol/DHEA-S ratio and IL-6 serum concentrations were significantly higher in late-stage than in early-stage OA patients and healthy controls. Conclusion. Reduced HRV, increased cortisol/DHEA-S ratio and PSQ level as well as elevated systemic IL-6 concentration indicated an autonomic shift towards a more pronounced SNS activity due to PNS deficiency in OA patients, particularly in the late-stage of the disease. Therefore, modulation of the ANS, for example by vagus nerve stimulation, might be a potential treatment strategy for of knee OA patients


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_7 | Pages 111 - 111
4 Apr 2023
Ding Y Wu C Li S Sun Y Lin S Wen Z Ouyang Z
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Osteoarthritis (OA), the most prevalent chronic joint disease, represents a relevant social and economic burden worldwide. Human umbilical cord mesenchymal stem cells (HUCMSCs) have been used for injection into the joint cavity to treat OA. The aim of this article is to clarify whether Huc-MSCs derived exosomes could inhibit the progression of OA and the mechanism in this process. A rabbit OA model was established by the transection of the anterior cruciate ligament. The effects of HUCMSCs or exosomes derived from HUCMSCs on repairing articular cartilage of knee osteoarthritis was examined by micro-CT. Immunohistochemical experiments were used to confirm the expression of relevant inflammatory molecules in OA. In vitro experiments, Transwell assay was used to assess the migration of macrophages induced by TNF-a. Results showed that a large number of macrophages migrated in arthcular cavity in OA model in vivo, while local injection of HUCMSCs and exosomes did repair the articular cartilage. Immunohistochemical results suggested that the expression of CCL2 and CD68 in the OA rabbit model increased significantly, but was significantly reduced by HUCMSCs or exosomes. Transwell assay showed that both HUCMSCs and exosomes can effectively inhibit the migration of macrophage. In conclusion, the exosomes derived by HUCMSCs might might rescue cartilage defects in rabbit through its anti-inflammatory effects through inhibiting CCL2


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 147 - 147
11 Apr 2023
Baker M Clinton M Lee S Castanheira C Peffers M Taylor S
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Osteoarthritis (OA) of the equine distal interphalangeal joint (DIPJ) is a common cause of lameness. MicroRNAs (miRNAs) from biofluids such as plasma and synovial fluid make promising biomarker and therapeutic candidates. The objectives of this study are (1) Identify differentially expressed (DE) miRNAs in mild and severe equine DIPJ OA synovial fluid samples and (2) Determine the effects of DE miRNAs on equine chondrocytes in monolayer culture. Synovial fluid samples from five horses with mild and twelve horses with severe DIPJ OA were submitted for RNA-sequencing; OA diagnosis was made from MRI T2 mapping, macroscopic and histological evaluation. Transfection of equine chondrocytes (n=3) was performed using the Lipofectamine® RNAiMAX system with a negative control and a miR-92a mimic and inhibitor. qPCR was used to quantify target mRNA genes. RNA-seq showed two miRNAs (miR-16 and miR-92a) were significantly DE (p<0.05). Ingenuity Pathway Analysis (IPA) identified important downstream targets of miR-92a involved in the pathogenesis of osteoarthritis and so this miRNA was used to transfect equine chondrocytes from three donor horses diagnosed with OA. Transfection was successfully demonstrated by a 1000-20000 fold increase in miR-92a expression in the equine chondrocytes. There was a significant (p<0.05) increase in COMP, COL3A1 and Sox9 in the miR-92a mimic treatment and there was no difference in ADAMTS-5 expression between the miR-92 mimic and inhibitor treatment. RNA-seq demonstrated miR-92a was downregulated in severe OA synovial fluid samples which has not previously been reported in horses, however miR-92a is known to play a role in the pathogenesis of OA in other species. Over expression of miR-92a in equine chondrocytes led to significantly increased COMP and Sox9 expression, consistent with a chondrogenic phenotype which has been identified in human and murine chondrocytes


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 92 - 92
2 Jan 2024
Forteza-Genestra MA Antich-Rosselló M Ráez-Meseguer C Ramis-Munar G Sangenís AT Calvo J Gayà A Monjo M Ramis JM
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Osteoarthritis (OA) is a degenerative disease that lacks regenerative treatment options. Current research focuses on mesenchymal stem cells (MSCs) and Platelet-Rich Plasma (PRP) as regenerative therapies, but extracellular vesicles (EVs) have shown to be more advantageous. This study compares the regenerative potential of human umbilical cord MSC-derived EVs (cEVs) and platelet-derived EVs (pEVs) in ex vivo and in vivo OA models. In the ex vivo study, OA conditions were induced in human cartilage explants, which were then treated either with pEVs or cEVs. Results showed a higher content of DNA and collagen in the pEVs group compared to control and cEVs groups, suggesting that pEVs could be a potential alternative to cEVs. In the in vivo study, an OA model was established in the knee joints of rats through MIA (monoiodoacetate) injection and then treated either with pEVs or cEVs. Results showed that pEVs-treated knee joints had better subchondral bone integrity and greater OA reversion, particularly in female rats, indicating that pEVs are a viable regeneration treatment for OA and outperform cEVs in terms of efficacy. Overall, the study demonstrates the potential of EVs as a regenerative treatment for OA, with pEVs showing promising results in both ex vivo and in vivo models. The use of pEVs in clinical practice could provide a faster path to translation due to the established use of platelet concentrates in therapeutics. However, further studies are needed to fully evaluate the potential of pEVs for OA treatment and to elucidate the mechanisms behind their regenerative effects. Acknowledgments: The authors thank Dr Fernando Hierro (UIB) for their technical contribution with TEM, Mª Trinidad García (UIB) for the access to radioactivity facilities, Aina Arbós (IUNICS) for her contribution in the histology staining, María Tortosa (IdISBa) for her assistance with the animal care and ADEMA School of Dentistry for the access to the cone beam computed tomography (CBCT). Funding: This research was funded by Instituto de Salud Carlos III, Ministerio de Economía y Competitividad, co-funded by the ESF European Social Fund and the ERDF European Regional Development Fund (MS16/00124; CP16/00124), PROGRAMA JUNIOR del proyecto TALENT PLUS, construyendo SALUD, generando VALOR (JUNIOR01/18), financed by the sustainable tourism tax of the Balearic Islands; the Direcció General d'Investigació and Conselleria d'Investigació, Govern Balear (FPI/2046/2017); the Mecanisme de Recuperació i Resiliència, intended to execute research projects of «Noves polítiques públiques per a un mercat de treball dinàmic, resilient i inclusiu», collected in Pla de Recuperació, Transformació i Resiliència, financed by European Union-Next Generation EU and driven by SOIB and Conselleria de Fons Europeus, Universitat i Cultura i la Conselleria de Model Econòmic, Turisme i Treball (NG0421) and the grant SYN20/03 from IdISBa


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 139 - 139
2 Jan 2024
Rösch G Rapp AE Tsai P Kohler H Taheri S Schilling AF Zaucke F Slattery D Jenei-Lanzl Z
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Osteoarthritis (OA) affects the whole joint and leads to chronic pain. The sympathetic nervous system (SNS) seems to be involved in OA pathogenesis, as indicated by in vitro studies as well as by our latest work demonstrating that sympathectomy in mice results in increased subchondral bone volume in the OA knee joint. We assume that chronic stress may lead to opposite effects, such as an increased bone loss in OA due to an elevated sympathetic tone. Therefore, we analyzed experimental OA progression in mice exposed to chronic stress. OA was induced in male C57BL/6J mice by surgical destabilization of the medial meniscus (DMM) and Sham as well as non-operated mice served as controls. Half of these groups were exposed to chronic unpredictable mild stress (CUMS). After 12 weeks, chronic stress efficiency was assessed using behavioral tests. In addition to measuring body weight and length, changes in subchondral bone were analyzed by μCT. Dynamic Weight Bearing system was used to monitor OA-related pain. Histological scoring will be conducted to investigate the severity cartilage degeneration and synovial inflammation. CUMS resulted in increased anxiety and significant decrease in body weight gain in all CUMS groups compared to non-CUMS groups. CUMS also increased serum corticosterone in healthy mice, with even higher levels in CUMS mice after DMM surgery. CUMS had no significant effect on subchondral bone, but subarticular bone mineral density and trabecular thickness were increased. Moreover, CUMS resulted in significant potentiation of DMM-associated pain. Our results suggest that the autonomic imbalance with increased sympathetic nervous activity induced by chronic stress exacerbates the severity of OA pain perception. We expect significantly increased cartilage degeneration as well as more severe synovial inflammation in CUMS DMM mice compared to DMM mice


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_8 | Pages 119 - 119
11 Apr 2023
Peffers M Anderson J Jacobsen S Walters M Bundgaard L Hackle M James V
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Joint tissues release extracellular vesicles (EVs) that potentially sustain joint homeostasis and contribute to osteoarthritis (OA) pathogenesis. EVs are putative novel therapeutics for OA, and transport biologically active molecules (including small non-coding RNAs (SNCRNAs)) between cells. This study identified altering SNCRNA cargo in EVs in OA which may act as early diagnostic markers and treatment targets. OA was surgically induced in four skeletally mature Standardbred horses using an osteochondral fragment model in the left middle carpal joint. The right joint underwent sham surgery. Synovial fluid (SF) and plasma were obtained weekly throughout the 70-day study. EVs were isolated using size exclusion chromatography and characterised using nanoparticle tracking (Nanosight), and exosome fluorescence detection and tetraspanin phenotyping (Exoview). RNA was extracted from EVs derived from SF (sham and OA joints) and plasma collected at days 10, 35, 42, 49, 56, 63, and subjected to small RNA sequencing on a NovaSeq SP100 flow cell (Illumina). Nanosight-derived EV characteristics of size and concentration were not significantly different following disease induction. The diameter of the temporal population of plasma and SF-derived exosomes changed significantly for CD9 and CD81 following OA induction with significant temporal, and disease-related changes in CD63 and CD81 protein expressin in plasma and SF. In SF and plasma-derived EVs snoRNAs, snRNAs, tRNAs, lncRNA, y-RNA, piRNAs and scRNA were found. Following pairwise analysis of all-time points we identified 27 miRs DE in plasma and 45 DE miRs in SF. Seven were DE in plasma and SF; miR-451, miR-25, miR-215, miR-92a, miR-let-7c, miR-486-5p, miR-23a. In plasma and SF 35 and 21 snoRNAs were DE with four DE in plasma and SF; U3, snord15, snord46, snord58. This work has identified alterations to OA EV sncRNAs in plasma and SF providing a greater understanding of the role of EVs in early OA