Project description:OBJECTIVE: To analyze genome-wide changes in chondrocyte gene expression in a surgically induced model of early osteoarthritis (OA) in rats, to assess the similarity of this model to human OA, and to identify genes and mechanisms leading to OA pathogenesis. METHODS: OA was surgically induced in 5 rats by anterior cruciate ligament transection and partial medial meniscectomy. Sham surgery was performed in 5 additional animals, which were used as controls. Both groups underwent 4 weeks of forced mobilization, 3 times per week. RNA was extracted directly from articular chondrocytes in the OA (operated), contralateral, and sham-operated knees. Affymetrix GeneChip expression arrays were used to assess genome-wide changes in gene expression. Expression patterns of selected dysregulated genes, including Col2a1, Mmp13, Adamts5, Ctsc, Ptges, and Cxcr4, were validated by real-time polymerase chain reaction, immunofluorescence, or immunohistochemistry 2, 4, and 8 weeks after surgery. RESULTS: After normalization, comparison of OA and sham-operated samples showed 1,619 differentially expressed probe sets with changes in their levels of expression >/=1.5-fold, 722 with changes >/=2-fold, 135 with changes >/=4-fold, and 20 with changes of 8-fold. Dysregulated genes known to be involved in human OA included Mmp13, Adamts5, and Ptgs2, among others. Several dysregulated genes (e.g., Reln, Phex, and Ltbp2) had been identified in our earlier microarray study of hypertrophic chondrocyte differentiation. Other genes involved in cytokine and chemokine signaling, including Cxcr4 and Ccl2, were identified. Changes in gene expression were also observed in the contralateral knee, validating the sham operation as the appropriate control. CONCLUSION: Our results demonstrate that the animal model mimics gene expression changes seen in human OA, supporting the relevance of newly identified genes and pathways to early human OA. We propose new avenues for OA pathogenesis research and potential targets for novel OA treatments, including cathepsins and cytokine, chemokine, and growth factor signaling pathways, in addition to factors controlling the progression of chondrocyte differentiation. Experiment Overall Design: OA was surgically induced in 5 rats by anterior cruciate ligament transection and partial medial meniscectomy. Sham surgery was performed in 5 additional animals, which were used as controls. Both groups underwent 4 weeks of forced mobilization, 3 times per week. RNA was extracted directly from articular chondrocytes in the OA (operated), contralateral, and sham-operated knees, 28 days post-surgery. Affymetrix GeneChip expression arrays were used to assess genome-wide changes in gene expression.

Project description:Notch signaling modulates skeletal formation and osteoarthritis (OA) development through induction of catabolic factors. Here we examined functional roles of Hes1, the representative downstream transcription factor of Notch signaling, during these processes. Chromatin immunoprecipitation-sequencing (ChIP-seq) identified resposive elements of Hes1 around gene loci of Mmp13 and Adamts5, which were catabolic enzymes of cartilage matrix. Examination of HES1 binding site in human chondrogenic SW1353 cells.

Project description:Notch signaling modulates skeletal formation and osteoarthritis (OA) development through induction of catabolic factors. Here we examined functional roles of Hes1, the representative downstream transcription factor of Notch signaling, during these processes. Chromatin immunoprecipitation-sequencing (ChIP-seq) identified resposive elements of Hes1 around gene loci of Mmp13 and Adamts5, which were catabolic enzymes of cartilage matrix.

Project description:Objective: To quantify gene expression changes in the synovium of osteoarthritis-affected joints in an equine metacarpophalangeal joint (MCPJ) chip model specifically designed to recapitulate early post-traumatic osteoarthritis (PTOA). Design: Synovial samples were collected arthroscopically from the MCPJ of 11 adult horses before (pre-OA) and after (OA) surgical induction of osteoarthritis and from sham-operated joints. Briefly, in this model, an osteochondral fragment is created in one randomly chosen MCPJ at the proximal dorsomedial aspect of the first phalanx. The fragment is replaced in the fragment bed after creation so that subchondral bone is not exposed to the opposing cartilage surface. The opposite MCPJ is sham-operated. After a two week recover period, the horses are treadmill-exercised for 14 weeks and then the osteochondral fragment is removed (16 weeks after creation). Synovial tissue samples were collected arthroscopically from the MCPJ of eleven adult horses before (pre-OA) and 16 weeks after (OA) experimental induction of OA as well as from the sham-operated joints (sham). After sequencing of synovial RNA, Salmon was used to quasi-map reads to the reference genome and quantify transcript abundances. Differential expression analysis was performed with the limma-treat method using a fold-change cutoff of 1.1. Functional annotation was performed with PANTHER and Reactome at FDR < 0.05. Results: RNA was successfully extracted from 28 samples (6 pre-OA, 11 OA, 11 sham). Sequencing yielded 15.7-29.4 million paired-end reads per sample. “Sham” and “pre-OA” were not different and were grouped. 321 genes were upregulated and 351 genes were downregulated in OA synovium compared to unaffected. Gene ontology (GO) terms related to extracellular matrix (ECM) organization and growth factor binding were overrepresented among differentially expressed genes. There were 20 significantly enriched pathways; these included pathways involved in ECM turnover, O-glycosylation of TSR domain-containing proteins, and growth factor signaling. Conclusions: Most enriched pathways and overrepresented GO terms reflect a state of high metabolic activity and tissue turnover in OA-affected tissue, suggesting efforts at healing and restoring homeostasis. Limitations of this study include a small sample size and capture of a single point post-injury. Differentially expressed genes falling within key pathways may represent potential diagnostic markers or therapeutic targets for PTOA.

Project description:Control rat lacrimal gland samples representing a normal unoperated, a sham, and paired contralateral controls. Experimental LG samples representing paired and unpaired contralateral controls. Paired contralateral control LGs represent LG from the same animal, one side was operated and the other side unoperated. Keywords: repeat sample

Project description:Mechanical Stimuli are arguably the most important aetiolgical factors in osteoarthritis (OA) development. Not only do we see disease arising from joints where the cartilage has sustained direct (e.g. intraarticular fracture) or indirect (e.g. meniscal injury) trauma, but mechanical factors are considered, at least partly, to explain the disease associations with aging and obesity. It is now well established that OA is not simply due to repeated wear and tear, leading to attrition of the articular surfaces, but that it requires activation of a number of inflammatory genes, which drive catabolic protease activity in the joint. These enzymes lead to breakdown of the major extracellular matrix components of cartilage, namely type II collagen, and the proteoglycan, aggrecan. Although it is unclear precisely which enzymes are responsible for matrix breakdown in human OA, Glasson et al showed that deletion of the aggrecan degrading enzyme, ADAMTS5 substantially protected the joint from surgically induced murine OA suggesting that it is a major aggrecanase in the mouse. This study was part of a wider study using the surgical model of murine OA, induced by destabilising the medial meniscus (DMM), to confirm the dependence of joint loading on disease progression and to reveal mechanosensitive genes within the joint which may be involved in the development of OA. Using this model we, and others, have shown that there is a robust degradation of articular cartilage over 4-12wks in male C57B/6 mice. We identified the gene response in joints early following induction of OA, prior to cartilage degradation, by extracting RNA from whole joints (after skin and muscle had been removed) 6hrs, 3 days and 7 days following sham and DMM surgery. An Affymetrix ST1 gene array was performed. Significantly regulated genes (>1.4 fold above naive and sham samples at any timepoint), or those considered to have a putative role in OA pathogenesis were selected for quantitative validation using Taqman low density microfluidic card arrays (TLDA). Gene expression in whole knee joints at 3 early time points post DMM surgery (before cartilage loss), 6hrs, 3days and 7days was examined. Two controls were identified, the first control consisted of age matched naïve mice that had undergone 15 minutes of anaesthesia but were not operated on (0hrs post surgery). The second control included mice which had undergone sham surgery (capsulotomy alone). For this RNA was taken at the same time points post surgery as DMM samples (6hrs, 3days and 7days). There were three biological replicates per condition (total of 21 samples). The right (ipsilateral) knee joint was taken and RNA extracted and processed for microarray analysis using the Affymetrix Mouse Gene 1.0 st v1 platform.

Project description:Cartilage destruction in osteoarthritis (OA) results from disturbed chondrocyte metabolism. Here, we used microarrays to show that TGF alpha and CCL2 are simultaneously upregulated in a rat model of OA and cooperate to drive cartilage degradation. The goals of the experiments included here were to a) characterize gene expression in knee joint articular chondrocytes at various stages of development of OA (2 and 8 weeks after surgical induction of OA), and b) to establish trends in gene expression among groups of genes related to the TGF alpha-EGFR axis, over time, in OA. The model chosen to study these results has been previously validated (Appleton, CT et al, 2007, Arthritis Rheum) and used to describe similar gene expression results at a different time point (4 weeks) after induction of OA. The rat model of OA involves surgical destabilization of the knee joint, followed by forced low-intensity mobilization over several weeks; a sham surgery is used as the control (representing a healthy non-OA knee joint) wherein a surgical incision is made but not structural (i.e. ligamentous) modification is made to the joint. Altogether, our data indicate that TGF and CCL2 cooperate to drive cartilage degradation in osteoarthritis. A total of 12 samples were analyzed. 3 replicates were used per condition: OA surgery at 2 weeks, OA surgery at 8 weeks, Sham (control) surgery at 2 weeks and Sham surgery at 8 weeks. Expression of OA samples was assessed relaitve to Sham (control) expression levels.

Project description:To analyze gene expression we isolated total mRNA from the core, periinfarct and contralateral cortex of 60 sprague-dawley rats after 24 hours or 3 days of permanent middle cerebral artery occlusion (pMCAo). Also ipsilateral and contralateral cortex was obtained from sham-operated and healthy animals. A total of 44 microarrays were performed with RNA pooled from 3 independent animals. For each experimental condition the total n number is of 12.

Project description:Osteoarthritis (OA) and rheumatoid arthritis (RA) are joint diseases that are associated with pain and lost quality of life. No disease modifying OA drugs are currently available. RA treatments are better established but are not always effective and can cause immune suppression. Here, an MMP13-selective siRNA conjugate (Albumin-binding siMMP13<(EG18L)2) was developed that, when delivered intravenously, docks onto endogenous albumin and promotes preferential accumulation in articular cartilage and synovia of post-traumatic OA (PTOA) and RA (K/BxN) joints. MMP13 expression was diminished upon intravenous delivery of MMP13 siRNA conjugates, consequently decreasing multiple histological and molecular markers of disease severity, while also reducing clinical manifestations such as swelling (RA) and joint pressure sensitivity (RA and OA). Importantly, MMP13 silencing provided more comprehensive OA treatment efficacy than standard of care (steroids) or experimental MMP inhibitors. These data demonstrate the utility of albumin ‘hitchhiking’ for drug delivery to arthritic joints, and establish the therapeutic utility of systemically delivered anti-MMP13 siRNA conjugates in OA and RA.

Project description:To analyze gene expression we isolated total mRNA from the core, periinfarct and contralateral cortex of 60 sprague-dawley rats after 24 hours or 3 days of permanent middle cerebral artery occlusion (pMCAo). Also ipsilateral and contralateral cortex was obtained from sham-operated and healthy animals. A total of 44 microarrays were performed with RNA pooled from 3 independent animals. For each experimental condition the total n number is of 12. Microarray analysis of different areas of the rat brain (core, periinfarct and contralateral cortex) after 24h and 3days of permanent ischemia