Lubricin is a proteoglycan that is a boundary lubricant in synovial joints and both a surface and collagen inter-fascicular lubricant in ligaments. The purpose of this study was to characterise the mRNA levels for lubricin in the anterior cruciate ligament (ACL), posterior cruciate ligament (PCL), medial collateral ligament (MCL), and lateral collateral ligament (LCL) in aging and surgically-induced menopausal rabbits. We hypothesised that lubricin mRNA levels would be increased in ligaments from aging and menopausal rabbits compared with ligaments from normal rabbits. All four knee ligaments (ACL, PCL, MCL, LCL) were isolated from normal (1-year-old rabbits, n=8), aging (3-year-old rabbits, n=6), and menopausal (1-year-old rabbits fourteen weeks after surgical ovariohysterectomy, n=8) female New Zealand White rabbits. RT-qPCR was used to evaluate the mRNA levels for lubricin normalised to the housekeeping gene 18S. After removing outliers, data for normal, aging, and menopausal rabbits for each knee ligament (ACL, PCL, MCL, LCL) were compared using ANOVA with linear contrasts or Kruskal-Wallis test with Conover post-hoc analysis. For ACLs, the mRNA levels for lubricin were increased in menopausal and aging rabbits compared with normal rabbits (p<0.056). For PCLs, trends for increased lubricin mRNA levels were found when comparing menopausal and aging rabbits with normal rabbits (p<0.092). For MCLs, the mRNA levels for lubricin were increased in menopausal and aging rabbits compared with normal rabbits (p<0.050). For LCLs, no differences in lubricin mRNA levels were detected comparing the three groups. For all four knee ligaments (ACL, PCL, MCL, LCL), no differences in lubricin mRNA levels were detected comparing the ligaments from menopausal rabbits with those from aging rabbits. Lubricin plays a role in collagen fascicle lubrication in ligaments (1,2). Increased lubricin gene expression was associated with mechanical changes (including decreased modulus and increased failure strain) in the aging rabbit MCL (3). Detection of similar molecular changes in the ACL, and possibly the PCL, may indicate that their mechanical properties may also change as a result of increased lubricin gene expression, thereby potentially pre-disposing these ligaments to damage accumulation. Compared to aging ligaments, aging tendons exhibited decreased lubricin gene and protein expression, and increased stiffness (4). Although opposite changes than aging ligaments, these findings support the relationship between lubricin and modulus/stiffness. The similarities between ligaments in the aging and menopausal groups may suggest that surgically-induced menopause results in a form of accelerated aging in the rabbit ACL, MCL and possibly PCL

Introduction. Macrophages phagocytes implant wear debris and produce various cytokines to evoke inflammation and periprosthetic osteolysis of aseptic loosening. It had been reported that expression of Toll-like receptor (TLR) 2 and other TLRs increased in periprosthetic tissues of aseptic loosening. Pathogen-associated molecular patterns (PAMPs) and damaged-associated molecular patterns (DAMPs) have been known as ligands of TLRs and considered to be involved in the osteolytic reactions via TLRs. Another type of immune sensors, nucleotide-binding and oligomerization domain (NOD)-like receptors (NLR) with a pyrin domain 3 (NLRP3) can also recognize PAMPs and DAMPs as their lignds, which has been presumed to participate in the local host response of macrophage cascade via phagocytosis of implant wear particles. However, the contribution of NLRP3 in periprosthetic tissues of aseptic loosening and the correlation between TLR2 and NLRP3 are still unclear. Materials and methods. TLR1, TLR2, TLR6, NLRP3, TNF-α and IL-1β of macrophages in aseptic loose periprosthetic tissues were immnohistorically evaluated and compared to osteoarthritic synovium. RAW264.7 cells, macrophagic cell line, were stimulated by titanium particles (Ti) and lipoteichoic acid (LTA)-coated Ti. The celluar reaction associated with TLR2 and NLRP3 and the correlation of them were analyzed at mRNA expression levels with small-interfering RNA of Irak2, one of adaptor molecules in TLR2 cascades. Results. Macrophages, which expressed abundant TLR2, NLRP3, TNF-α and IL-1β, were observed dominantly in foreign body granuloma of aseptic periprosthetic tissues. The features of abundant expression were quite different from osteoarthritic synovium. In vitro experiment of RAW264.7, mRNA levels of NLRP3 and TNF-α increased after stimulation of Ti. mRNA levels of TLR2, NLRP3, TNF-α and IL-1β were enhanced by LTA-coated Ti. mRNA expression level of NLRP3 were suppressed by silencing Irak2. Discussion and conclusion. This study indicated that innate immune sensors, TLR2 and NLRP3, could respond to foreign body particles in aseptic loose periprosthetic connective tissues. In this process, mRNA expression levels of TLR2 and NLRP3 in RAW264.7 were increased by phagocytosis of Ti particles, especially by LTA-coated Ti stimulation. Suppressed mRNA expression level of NLRP3 by knocked down of Irak2 indicated that TLR2 cascade could enhance activation NLRP3 cascade and/or free LTA may stimulate NLRP3 cascade directly. It may be possible that TLR2 and NLRP3 cascades in macrophages recognising PAMPs and/or DAMPs are activated each other and they play an important role of the pathogenesis of wear debris around loose hip joints

The poor prognosis of patients with soft-tissue sarcoma as not changed in the past several decades, highlighting the necessity for new therapeutic approaches. T-cell based immunotherapies are a promising alternative to traditional cancer treatments due to their ability to target only malignant cells, leaving benign cells unharmed. The development of successful immunotherapy requires the identification and characterization of targetable immunogenic tumor antigens. Cancer-testis antigens (CTA) are a group of highly immunogenic tumor-associated proteins that have emerged as potential targets for CD8+ T-cell recognition. In addition to identifying a targetable antigen, it is crucial to understand the tumor immune microenvironment. The level of immune infiltration and mechanisms of immune suppression within the tumor play important roles in the outcome of immunotherapy. The goal of this study is to identify targetable immunogenic antigens for T-cell based immunotherapy and to characterize the tumor immune microenvironment in human dedifferentiated liposarcoma (DDLS) by Nanostring and IHC. To assess the complexity of the human DDLS tumor immune microenvironment and to identify target antigens we used the nCounter NanoString platform to generate a gene expression profile for hundreds of genes from RNA obtained from 29 DDLS and 10 control fat FFPE samples. To classify inflammatory status of DDLS tumors, we performed hierarchical clustering based on expression levels of selected tumor inflammatory signature genes (CCL5, CD27, CD274, CD276, CD8A, CMKLR1, CXCL9, CXCR6, HLA-DQA1, HLA-E, IDO1, LAG3, PDCDILG2, PSMB10, STAT1, TIGIT). To confirm protein expression and distribution of identified antigens, we performed immunohistochemistry on human tissue micro-arrays encompassing DDLPS tumor tissues and matched normal control tissue from 63 patients. IHC for the cancer testis antigens PBK, SPA17, MAGE-A3, NY-ESO-1 and SSX2 was performed, and the staining results were scored by two authors based on maximal staining intensity on a scale of zero to three (absent=0, weak=1, moderate=2, or strong=3) and the percentage of tumor cells that stained. Hierarchical clustering of DDLS tumors based on expression of tumor inflammation signature genes revealed two distinct groups, consisting of 15 inflamed tumor and 14 non-inflamed tumors, demonstrating tumor heterogeneity within the DDLS sarcoma subtype. All antigens were found to be expressed in DDLS at an mRNA level. SPA17 was expressed at the highest levels in DDLS, however, this antigen was expressed at high levels in normal fat. Notably, antigens PBK and TTK had the largest fold change increase in expression in DDLS compared to normal fat controls. Immunohistochemical analysis of selected antigens revealed that PBK was found to be expressed in 96% (52/54) of DDLS samples at high levels. Other antigens were absent or expressed at low levels in DDLS; MAGEA3 in 15.87% (10/63) NY-ESO-1 in 6.35% (4/62) and SSX2 in 12.7% (8/63) and SPA17 in 5.5% (3/54). This data shows considerable inter-tumoral heterogeneity of inflammation, which should be taken into consideration when designing an immunotherapy for DDLS. To date, these results show promising expression of PBK antigen in DDLS, which may be used as a target in the future development of an immunotherapy for sarcoma

Purpose. A major drawback of current cartilage and intervertebral disc (IVD) tissue engineering is that human mesenchymal stem cells (MSCs) from osteoarthritic (OA) patients express high levels of type X collagen. Type X collagen is a marker of late stage chondrocyte hypertrophy, linked with endochondral ossification, which precedes bone formation. However, it has been shown that a novel plasma-polymer, called nitrogen-rich plasma-polymerized ethylene (PPE:N), is able to inhibit type X collagen expression in committed MSCs. The aim of this study was to determine if the decreased expression of type X collagen, induced by the PPE:N surfaces is maintained when MSCs are removed from the surface and transferred to pellet cultures in the presence of serum and growth factor free chondrogenic media. Method. Human MSCs were obtained from aspirates from the intramedullary canal of donors undergoing total hip replacement for OA. Cells were expanded for 2–3 passages and then cultured on polystyrene dishes and on two different PPE:N surfaces: high (H) and low (L) pressure deposition. Cells were transferred for 7 additional days in chondrogenic serum free media (DMEM high glucose supplemented with 2 mM L-glutamine, 20 mM HEPES, 45 mM NaHCO3, 100 U/ml penicillin, 100 ug/ml streptomycin, 1 mg/ml bovine serum albumin, 5 ug/ml insulin, 50 ug/ml ascorbic acid, 5 ng/ml sodium selenite, 5 ug/ml transferrin) in pellet culture or on PS cell culture dishes. RNA was extracted using a standard TRIzol protocol. RT-PCR was realized using Superscript II (RT) and Taq polymerase (PCR) with primers specific for type I and X collagen. GAPDH was used as a housekeeping gene and served to normalize the results. Results. As observed in previous studies, type X collagen mRNA level was suppressed when cultured on both H- and L-PPE:N. HPPE:N was more effective in decreasing type X collagen expression than LPPE:N (55 vs. 78 % of control OA cells). Results also showed that the decreased type X collagen mRNA level was maintained not only when cells were removed from the PPE:N surfaces and transferred to new polystyrene culture dishes in the presence of chondrogenic media, but also when transferred to pellet cultures. Culturing MSCs from OA patients on PPE:N surfaces and in pellet culture had however no effect on the level of type I collagen mRNA. Conclusion. The present study confirmed the potential of PPE:N surfaces in suppressing type X collagen expression in MSCs from OA patients. More importantly, when these cells are transferred to pellet cultures, type X collagen suppression is maintained. These results may lead us one step closer to the production of large amounts of reprogrammed MSCs for tissue engineering applications

The purpose of this study was to evaluate whether AGEs induce annulus fibrosus (AF) cell apoptosis and to further explore the mechanism by which this process occurs. AF cells were treated with various concentrations of AGEs for 3 days. Cell proliferation was measured by the Cell Counting Kit-8 (CCK-8) and EdU incorporation assays. Cell apoptosis was examined by the Annexin V/PI apoptosis detection kit and Hoechst 33342. The expression of apoptosis-related proteins, including Bax, Bcl-2, cytochrome c, caspase-3 and caspase-9, was detected by western blotting. In addition, Bax and Bcl-2 mRNA expression levels were detected by RT-PCR. Mitochondrial membrane potential (MMP) and intracellular reactive oxygen species (ROS) production of AF cell were examined by JC-1 staining and DCFH-DA fluorescent probes, respectively. Our results indicated that AGEs had inhibitory effects on AF cell proliferation and induced AF cell apoptosis. The molecular data showed that AGEs significantly up-regulated Bax expression and inhibited Bcl-2 expression. In addition, AGEs increased the release of cytochrome c into the cytosol and enhanced caspase-9 and caspase-3 activation. Moreover, treatment with AGEs resulted in a decrease in MMP and the accumulation of intracellular ROS in AF cells. The antioxidant N-acetyl-L-cysteine significantly reversed AGE-induced MMP decrease and AF cell apoptosis. These results suggest that AGEs induce rabbit AF cell apoptosis and mitochondrial pathways may be involved in AGE-mediated cell apoptosis, which may provide a theoretical basis for diabetic IVD degeneration

Intervertebral discs (IVDs) degeneration is one of the major causes of back pain. Upon degeneration, the IVDs tissue become inflamed, and this inflammatory microenvironment may cause discogenic pain. Cellular senescence is a state of stable cell cycle arrest in response to a variety of cellular stresses including oxidative stress and adverse load. The accumulation of senescent IVDs cells in the tissue suggest a crucial role in the initiation and development of painful IVD degeneration. Senescent cells secrete an array of cytokines, chemokines, growth factors, and proteases known as the senescence-associated secretory phenotype (SASP). The SASP promote matrix catabolism and inflammation in IVDs thereby accelerating the process of degeneration. In this study, we quantified the level of senescence in degenerate and non-degenerate IVDs and we evaluated the potential of two natural compounds to remove senescent cells and promote overall matrix production of the remaining cells. Human IVDs were obtained from organ donors. Pellet or monolayer cultures were prepared from freshly isolated cells and cultured in the presence or absence of two natural compounds: Curcumin and its metabolite vanillin. Monolayer cultures were analyzed after four days and pellets after 21 days for the effect of senolysis. A cytotoxicity study was performed using Alamar blue assay. Following treatment, RNA was extracted, and gene expression of senescence and inflammatory markers was evaluated by real-time q-PCR using the comparative ΔΔCt method. Also, protein expression of p16, Ki-67 and Caspase-3 were evaluated in fixed pellets or monolayer cultures and total number of cells was counted on consecutive sections using DAPI and Hematoxylin. Proteoglycan content was evaluated using SafraninO staining or DMMB assay to measure sulfated glycosaminoglycan (sGAG) and antibodies were used to stain for collagen type II expression. We observed 40% higher level of senescent cells in degenerate compare to the non-degenerate discs form unrelated individuals and a 10% increase when we compare degenerate compare to the non-degenerate discs of the same individual. Using the optimal effective and safe doses, curcumin and vanillin cleared 15% of the senescent cells in monolayer and up to 80% in pellet cultures. Also, they increased the number of proliferating and apoptotic cells in both monolayer and pellets cultures. The increase in apoptotic cell number and caspase-3/7 activity was specific to degenerate cells. Following treatment, mRNA expression levels of SASP factors were decreased by four to 32-fold compared to the untreated groups. Senescent cell clearance decreased, protein expression of MMP-3 and −13 by 15 and 50% and proinflammatory cytokines levels of IL-1, IL-6 and IL-8 by 42, 63 and 58 %. Overall matrix content was increased following treatment as validated by an increase in proteoglycan content in pellet cultures and surrounding culture media. This work identifies novel senolytic drugs for the treatment of IVD degeneration. Senolytic drugs could provide therapeutic interventions that ultimately, decrease pain and provide a better quality of life of patients living with IVDs degeneration and low back pain

Objectives. Ischaemic preconditioning (IPC) is a phenomenon whereby tissues develop an increased tolerance to ischaemia and subsequent reperfusion if first subjected to sublethal periods of ischaemia. Despite extensive investigation of IPC, the molecular mechanism remains largely unknown. Our aim was to show genetic changes that occur in skeletal muscle cells in response to IPC. Methods. We established an in-vitro model of IPC using a human skeletal muscle cell line. Gene expression of both control and preconditioned cells at various time points was determined. The genes examined were HIF-1?, EGR1, JUN, FOS, and DUSP1. HIF-1? is a marker of hypoxia. EGR1, JUN, FOS and DUSP1 are early response genes and may play a role in the protective responses induced by IPC. Secondly, the expression of HSP22 was examined in a cohort of preconditioned total knee arthroplasty patients. Results. HIF-1? was upregulated following 1 and 2 hours of simulated ischaemia (p = 0.076 and 0.841 respectively) verifying that hypoxic conditions were met. Expression of EGR1, FOS and DUSP1 were upregulated and peaked after 1 hour of hypoxia (p = 0.001, < 0.00, and 0.038 respectively). cFOS was upregulated at 2 and 3 hours of hypoxia. IPC prior to simulated hypoxia resulted in a greater level of upregulation of EGR1, JUN and FOS genes (p = < 0.00, 0.047, and < 0.00 respectively). HSP22 was not significantly upregulated following IPC using the hypoxic model. It was, however, upregulated on an mRNA level in total knee arthroplasty patients (p = 0.15). Conclusion. This study has validated the use of our hypoxic model for studying IPC in-vitro. IPC results in a greater upregulation of protective genes in skeletal muscle cells exposed to hypoxia than in control cells. We have demonstrated hitherto unknown molecular mechanisms of IPC in cell culture and in patients undergoing TKA

INTRODUCTION. Several reports suggest that low-intensity pulsed ultrasound stimulation (LIPUS) facilitates chondrogenesis. 1). Recently it has been suggested that LIPUS may be transmitted via Integrin: a protein which mediates cellular attachment between cells and extracellular matrix. 2). In this study, the Arg-Gly-Asp (RGD) amino acid sequence, which is a ligand of Integrin, was induced to the fibroin substrates by either gene transfer or physical mixing, and the variation of chndrocyte response to LIPUS was evaluated. EXPERIMENTAL METHODS. Three kinds of culture dishes coated with three diffrent fibroin aqueous solutions were prepared: 1 wild-type, 2 transgenic and 3 mixed. The wild-type aqueous solution was prepared from Bombyx mori silkworm cocoons. The transgenic aqueous solution was prepared from Bombyx mori silkworm cocoons in which RGD was interfused in the fibroin light chain. 3). The mixed aqueous solution was prepared simply by blending RGD peptides with the wild-type fibroin aqueous solution. Chondrocytes were asepically harvested from the joints of 4-week-old Japanese white rabbits and then subcultured on T-flasks and seeded at 2.0 × 10. 5. cells/dish. LIPUS stimulation, with spatial and temporal average intensity of 30 mW/cm. 2. and a frequency of 1.71 MHz with a 200 ms tone burst repeated at 1.0 kHz, was applied to the chondrocytes at 12, 36, 60 hours and administered for 20 minutes each time. GAG production and the number of chondrocytes were measured by the Dimethylmethylene blue (DMMB) method. 4). and the LDH method. 5). , respectively. Extracted mRNA from the chondrocytes was analyzed by using the Syber Green method, where the primers were designed for glyceraldehyde-3-phosphate dehydrogenase (GAPDH) as the house-keeping gene, aggrecan and Sox 9. This data was analyzed using the two-sided Student's t-test. RESULTS and DISCUSSION. In the transgenic group, the number of chondrocytes and GAG production were increased by the LIPUS stimulation in 1 day of culture (Fig. 1,2), and the mRNA expression levels of agrrecan (Fig. 3) and Sox 9 were increased in 2 days of culture. However the mRNA expression level of aggrecan was decreased after 3 days of culture. These LIPUS-derived changes were not found in the wild-type and mixed groups. We previously reported that the adhesive force between chondrocytes and RGD transgenic fibroin surfaces was higher than that for mixed fibroin, suggesting that adhesive force is translated via RGD which bonds covalently to the fibroin proteins for the transgenic group. The present results suggest that the early biological adhesion via RGD on the transgenic fibroin is sensitive to LIPUS

Aim. The diagnosis of periprosthetic joint infection (PJI) in total joint arthroplasty (TJA) remains a serious clinical challenge. Nowadays, limited biomarkers associated with PJI are available. We investigated therefore the utility of gene expression pattern of Toll-like receptors (TLR) and members of interleukin (IL)1/IL1R family, molecules critically involved in the innate immune response to invading pathogens, for detecting PJI in periprosthetic tissues around TJA. Method. Periprosthetic tissues were collected from 37 patients presenting with PJI and 39 patients having an aseptic failure of TJA. mRNA expression of known TLR receptors (TLR1–10) and 21 members of IL-1/IL-1R family was investigated using an innovative Smartchip Real-Time RT-PCR System. *. ; the data were normalized relative to the housekeeping gene GAPDH. Statistical tests were performed using GraphPad Prism. **. and bio-data mining methods. Results. In PJI, elevated mRNA expression levels of TLR1 (P=0.03), TLR4 (P=0.01) and TLR6 (P=0.01) were detected when compared to tissues from aseptic cases. On the contrary, lower mRNA expression of TLR3 (P=0.04) and TLR7 (P=0.047) were detected in PJI than in aseptic loosening. From IL1/IL-1R family, PJI was associated with elevated levels of IL1β (P=0.0004), IL1RN (P=0.05), IL1R1 (P=0.04), IL1R2 (P=0.01), and IL18RAP (P=0.02) comparing to aseptic failure. Multivariate analysis and sophisticated bio-data mining analysis are ongoing to determine the potential of TLRs and IL1/IL1R family as biomarkers of PJI in TJA. Conclusions. Tissue expression of TLRs and IL1/IL-1R family differ in terms of pattern and expression level between septic and aseptic failure of TJA. Our data support the potential of “innate gene” expression panel as candidate biomarker for assessment of PJI. Further studies are required to replicate our data and also to enable valid interpretation of our findings. Grant support: AZV MZ CR VES15-27726A, VES16-131852A, IGA LF UP_2016_011

Periosteum is important for bone homoeostasis through the release of bone morphogenetic proteins (BMPs) and their effect on osteoprogenitor cells. Smoking has an adverse effect on fracture healing and bone regeneration. The aim of this study was to evaluate the effect of smoking on the expression of the BMPs of human periosteum. Real-time polymerase chain reaction was performed for BMP-2,-4,-6,-7 gene expression in periosteal samples obtained from 45 fractured bones (19 smokers, 26 non-smokers) and 60 non-fractured bones (21 smokers, 39 non-smokers). A hierarchical model of BMP gene expression (BMP-2 > BMP-6 > BMP-4 > BMP-7) was demonstrated in all samples. When smokers and non-smokers were compared, a remarkable reduction in the gene expression of BMP-2, -4 and -6 was noticed in smokers. The comparison of fracture and non-fracture groups demonstrated a higher gene expression of BMP-2, -4 and -7 in the non-fracture samples. Within the subgroups (fracture and non-fracture), BMP gene expression in smokers was either lower but without statistical significance in the majority of BMPs, or similar to that in non-smokers with regard to BMP-4 in fracture and BMP-7 in non-fracture samples. In smokers, BMP gene expression of human periosteum was reduced, demonstrating the effect of smoking at the molecular level by reduction of mRNA transcription of periosteal BMPs. Among the BMPs studied, BMP-2 gene expression was significantly higher, highlighting its role in bone homoeostasis.