Animal Models Of Arthritis Research Articles

Rsk2 controls synovial fibroblast hyperplasia and the course of arthritis

ObjectiveArthritis is a chronic inflammatory disease characterised by immune cell infiltration and mesenchymal cell expansion in the joints. Although the role of immune cells in arthritis is well characterised, the...

Nimesulide improves the symptomatic and disease modifying effects of leflunomide in collagen induced arthritis.

Nimesulide is a COX-2 inhibitor used for symptomatic relief of rheumatoid arthritis. Leflunomide is an anti-pyrimidine used to manage the progression of rheumatoid arthritis. Herein we studied the influence of nimesulide and leflunomide combination in terms of disease symptoms and progression using collagen-induced arthritis model in mice, as a model for rheumatoid arthritis. Collagen induced arthritis was induced by immunization with type II collagen. Assessment of joint stiffness and articular hyperalgesia were evaluated using a locomotor activity cage and the Hargreaves method, respectively. Disease progression was assessed via arthritic index scoring, X-ray imaging, myeloperoxidase enzyme activity and histopathologic examination. Nimesulide induced only transient symptomatic alleviation on the top of decreased leucocytic infiltration compared to arthritis group. However, nimesulide alone failed to induce any significant improvement in the radiological or pathological disease progression. Leflunomide alone moderately alleviates the symptoms of arthritis and moderately retarded the radiological and pathological disease progression. Combination of nimesulide and leflunomide significantly improved symptomatic (analgesia and joint stiffness) and arthritic disease progression (radiological, pathological and Myeloperoxidase enzyme activity) in collagen induced arthritis animal model.

2-Methoxyestradiol inhibits bleomycin-induced systemic sclerosis through suppression of fibroblast activation

The most dominant feature of systemic sclerosis (SSc) is fibrosis, which is caused by overproduction of collagen by fibroblasts. 2-Methoxyestradiol (2-ME) has exhibited disease-modifying activity in animal models of rheumatoid arthritis and autoimmune encephalomyelitis and inhibitory effect in cell proliferation and collagen synthesis. Therefore, we hypothesized that 2-ME may exhibit antifibrotic effect in SSc. To investigate the antifibrotic effect of 2-ME in SSc. We established a bleomycin-induced SSc mice model by injection with bleomycin daily for 21 days. 2-ME (100mg/kg/d) was simultaneously administered for 14 days. On the end of Week1 (W1), W2, W3 and W4, skins and lungs were collected for histological examination and analysis of hydroxyproline content and mRNA level of α1(I) procollagen (COL1A1) and COL1A2. In skin fibroblasts derived from SSc patients and healthy subjects treated with 2-ME (1, 5, or 25 μM), we examined cell proliferation, expression of α-smooth muscle actin (SMA) and mRNA level of COL1A1, COL1A2, COL3A1, matrix metalloproteinase(MMP)-1 and tissue inhibitors of MMP (TIMP)-1. We found reduced dermal thickness and lung fibrosis and decreased hydroxyproline content and mRNA level of COL1A1 and COL1A2 in skin and lung in SSc mice treated with 2-ME. In cell study, we observed a dose- and time-dependent inhibitory effect on proliferation of SSc fibroblasts by 2-ME. We also detected reduced α-SMA expression, decreased mRNA level of COL1A1, COL1A2, COL3A1 and TIMP-1, and increased mRNA level of MMP-1 in SSc fibroblasts treated with 2-ME. 2-ME could suppress SSc tissue fibrosis, which may be attributable to its inhibitory effect on the excessive proliferation, differentiation and production of collagen in fibroblasts. 2-ME is rising as a prospective agent for control of fibrosis in SSc.

Paradoxical effects of human adipose tissue-derived mesenchymal stem cells on progression of experimental arthritis in SKG mice

We evaluated the therapeutic effect of human adipose tissue-derived mesenchymal stem cells (hAd-MSCs) in a SKG arthritis model, a relevant animal model for human rheumatoid arthritis. hAd-MSCs were administered intraperitoneally into the mice for five consecutive days from on day 12 or 34 after arthritis induction, when the average clinical score was 0.5 or 5, respectively. They remarkably suppressed arthritis when administered on day 12. Disease suppression was correlated with reduction of pro-inflammatory cytokines and with increased levels of TGF-β and IL-10 from splenocytes. However, when hAd-MSCs were administered on day 34, the clinical scores were not improved, the histopathological scores were aggravated, and cytokine profiles were differed. Thus, hAd-MSCs showed paradoxical effects, according to the disease phase when they were administered. These suggest that the same cells acted differently depending on the disease progress, and cautions should be paid for safe and effective use of MSCs.

Continuous monitoring of arthritis in animal models using optical imaging modalities.

Given the several difficulties associated with histology, including difficulty in continuous monitoring, this study aimed to investigate the feasibility of optical imaging modalities—cross-polarization color (CPC) imaging, erythema index (EI) imaging, and laser speckle contrast (LSC) imaging—for continuous evaluation and monitoring of arthritis in animal models. C57BL/6 mice, used for the evaluation of arthritis, were divided into three groups: arthritic mice group (AMG), positive control mice group (PCMG), and negative control mice group (NCMG). Complete Freund’s adjuvant, mineral oil, and saline were injected into the footpad for AMG, PCMG, and NCMG, respectively. LSC and CPC images were acquired from 0 through 144 h after injection for all groups. EI images were calculated from CPC images. Variations in feet area, EI, and speckle index for each mice group over time were calculated for quantitative evaluation of arthritis. Histological examinations were performed, and the results were found to be consistent with those from optical imaging analysis. Thus, optical imaging modalities may be successfully applied for continuous evaluation and monitoring of arthritis in animal models.

Increased expression of dopamine receptors in synovial fibroblasts from patients with rheumatoid arthritis: inhibitory effects of dopamine on interleukin-8 and interleukin-6.

Observations in both animal models of arthritis and patients with rheumatoid arthritis (RA) suggest a role for dopamine and its receptors in RA. Because synovial fibroblasts (SFs) contribute to inflammation and joint destruction in RA, the aim of this study was to investigate dopaminergic pathways in SFs obtained from patients with RA and, for comparison, in SFs from patients with osteoarthritis (OA) undergoing knee joint replacement surgery. The expression of all dopamine receptors (D1 -D5 ) and dopamine transporter was assessed by immunofluorescence and immunohistochemical staining. The levels of dopamine receptor and tyrosine hydroxylase messenger RNA were measured by real-time polymerase chain reaction. The intracellular content of dopamine, its precursor, and its main metabolites was assayed by high-performance liquid chromatography. The influence of dopamine on proinflammatory interleukin-6 (IL-6) and IL-8, matrix metalloproteinase 3, and tissue inhibitor of metalloproteinases 1 (TIMP-1) and TIMP-2 was studied in SFs. SFs possess an intrinsic dopaminergic system, including dopamine receptors, dopamine transporter, and tyrosine hydroxylase, and contain dopamine, its precursor, and its main metabolites. SFs from patients with RA, in comparison with those from patients with OA, showed increased expression of dopamine receptors D1 and D5 , and exogenous dopamine strongly inhibited the production of IL-8 in patients with RA. SFs from patients with RA and patients with OA show a dopaminergic phenotype. The expression of D1-like dopamine receptors was higher in RASFs, and this increased expression may lead to antiinflammatory effects, as demonstrated by the expression of IL-8. Studies in animal models and patients with RA are needed to assess the therapeutic potential of endogenous, local production of dopamine in synoviocytes.

Suppression of experimental arthritis with self-assembling glycol-split heparin nanoparticles via inhibition of TLR4–NF-κB signaling

It has been recently shown that Toll-like receptor4 mediated nuclear factor κB (TLR4–NF-κB) signaling plays a critical role in the pathogenesis of rheumatoid arthritis mediated by pro-inflammatory cytokines in arthritic synovium. Here we evaluate the therapeutic potential of glycol-split non-anticoagulant heparin/d-erythro-sphingosine nanoparticles (NAHNPs), which have shown strong inhibitory effect against TLR4 induced inflammation, in an experimental arthritis model. NAHNP significantly inhibited the production of pro-inflammatory cytokines such as TNF-α, IL-6 and IL-1β in lipopolysaccharide (LPS)-induced primary mouse macrophages and DC2.4 dendritic cell line. The nanoparticles were administered to type II collagen-induced arthritis (CIA) mice by intraarticular injections once per day starting from onset of the disease symptoms. Treatment with NAHNP had a potent suppressive effect in CIA mice, observed with a decrease in arthritis score and footpad swelling. The animals treated with NAHNP significantly reduced levels of IgG1 and IgG2a antibodies against bovine type II collagen. Levels of proinflammatory cytokines — e.g., TNF-α, IL-6 and IL-1β in knee joints and sera were significantly inhibited compared to control mice. Moreover, nuclear localization of RelA in knee joints was significantly inhibited in NAHNP treatment, indicating down-regulation of the NF-κB signaling pathway. In addition, histological examination revealed significant suppression of inflammatory cell infiltration, joint destruction and synovial proliferation in synovium compared with control mice. These results suggest that selective inhibition of TLR4–NF-κB signaling with lipid modified heparin derivatives composited to nanostructures provides an effective therapeutic approach to inhibit chronic inflammation in an animal model of rheumatoid arthritis.

Effect of Nonanimal High- and Low-Molecular-Mass Chondroitin Sulfates Produced by a Biotechnological Process in an Animal Model of Polyarthritis

Background/Aims: We planned to report on the effect of two nonanimal chondroitin sulfates (CSs) with different molecular masses produced using an innovative biotechnological process in an adjuvant arthritis animal model. Methods: The experiments included healthy animals, untreated arthritic animals and arthritic animals having been administered 900 mg/kg of either of the two CS samples daily. Arthritic score, γ-glutamyltransferase (GGT) activity in hind paw joint tissue homogenates, plasmatic C-reactive protein (CRP) and pro-inflammatory cytokines IL-1β and IL-6 were assayed. Results and Conclusions: Low-molecular-mass (LMM) CS significantly reduced the arthritic score by up to about 30% from 14 to 28 days. In contrast, no significant differences were observed for high-molecular-mass (HMM) CS, even if a trend in its capacity to decrease the arthritic score by up to about 11% was observed. Additionally, LMM CS was able to significantly decrease GGT activity by approximately 31% and plasmatic CRP levels by about 9%. Both nonanimal CS samples were effective in reducing plasmatic levels of proinflammatory cytokines. A greater efficacy was also observed for LMM CS compared with a pharmaceutical-grade CS of extractive origin, while the efficacy of the HMM CS sample was found to be rather similar. The greater effect of LMM CS in reducing arthritic parameters may be related to its lower molecular mass with respect to HMM CS and natural CS.

S-21 : Blocking only the bad side of Interleukin-6

Cytokines receptors exist in membrane bound and soluble form. The IL-6/soluble IL-6R complex stimulates target cells not stimulated by IL-6 alone, since they do not express the membrane bound IL-6R. We have named this process ‘ trans-signaling ’. The soluble IL-6R is generated via ectodomain shedding by the membrane bound metalloprotease ADAM17. Soluble gp130 is the natural inhibitor of IL-6/soluble IL-6R complex responses [1] . The dimerized recombinant soluble gp130Fc fusion protein is a molecular tool to discriminate between gp130 responses via membrane bound and soluble IL-6R responses. Interestingly, depending on the animal model used, global blockade of IL-6 signaling by neutralizing monoclonal antibodies and selective blockade of IL-6 trans-signaling can lead to different consequences. We used neutralizing monoclonal antibodies for global blockade of IL-6 signaling and the sgp130Fc protein for selective blockade of IL-6 trans-signaling in several animal models of human diseases. Inhibition of IL-6 trans-signaling but not global IL-6 blockade was beneficial in the cecal ligation and puncture sepsis model [2] . Defense against bacterial infections rely on the membrane bound IL-6R [3] . Acute pancreatitis often results in subsequent acute lung injury, which is an inflammatory disease with high mortality. IL-6 is necessary for the inflammatory process to reach the lung and blockade of IL-6 trans-signaling is sufficient to block the disease [4] . The extent of inflammation is controlled by trans-signaling via the soluble IL-6R. Using the sgp130Fc protein or sgp130Fc transgenic mice we demonstrate in animal models of inflammatory bowel disease, peritonitis, rheumatoid arthritis, atherosclerosis, pancreatitis, lupus erythematodes, colon cancer, ovarian cancer and pancreatic cancer that IL-6 trans-signaling via the soluble IL-6R is the crucial step in the development and the progression of the disease [1] , [2] , [3] , [4] , [5] . Therefore, sgp130Fc is a novel therapeutic agent for treatment of chronic inflammatory diseases and cancer and it underwent phase I clinical trials as an anti-inflammatory in 2013/2014. Phase II clinical trials in patients with autoimmune diseases such as inflammatory bowel disease will follow next year.

상심자추출물 등 복합물의 퇴행성관절염 억제효과

Complex of mulberry extract (CME) is composed of extracts of mulberry (Morus alba L.) fruit, mulberry leaves and black beans (Glycine max (L.) Merr.). In this study, we investigated prevention effects of CME on degenerative arthritis. The SC50 value of DPPH radical scavenging by CME was 158.49 ± 11.35 ㎍/mL. We found that CME significantly reduced the production of nitric oxide (NO) and protein expression of cyclooxygenase-2 (COX-2) in RAW 264.7 cells which were activated by LPS. Experiments using animal model of degenerative arthritis showed that CME (400 ㎎/㎏ body weight) inhibited the production of TNF-α (77.5%) and IL-1β (95.0%). Furthermore, it was observed that CME reduced to 85.9% of paw edema induced by carrageenan. These results suggest that CME could improve degenerative arthritis.

Collagen-induced arthritis: severity and immune response attenuation using multivalent N-acetyl glucosamine

Rheumatoid arthritis is an autoimmunity leading to considerable impairment of quality of life. N-acetyl glucosamine (GlcNAc) has been described previously as a potent modulator of experimental arthritis in animal models and is used for osteoarthritis treatment in humans, praised for its lack of adverse effects. In this study we present a comprehensive immunological analysis of multivalent GlcNAc-terminated glycoconjugate (GC) application in the treatment of collagen-induced arthritis (CIA) and its clinical outcome. We used immunohistochemistry and FACS to describe conditions on the inflammation site. Systemic and clinical effects were evaluated by FACS, cytotoxicity assay, ELISA, cytometric bead array (CBA), RT-PCR and clinical scoring. We found reduced inflammatory infiltration, NKG2D expression on NK and suppression of T, B and antigen-presenting cells (APC) in the synovia. On the systemic level, GCs prevented the activation of monocyte- and B cell-derived APCs, the rise of TNF-α and IFN-γ levels, and subsequent type II collagen (CII)-specific IgG2a formation. Moreover, we detected an increase of anti-inflammatory IL-4 mRNA in the spleen. Similar to the synovia, the GCs caused a significant reduction of NKG2D-expressing NK cells in the spleen without influencing their lytic function. GCs effectively postponed the onset of arthritic symptoms, reduced their severity and in 18% (GN8P) and 31% (GN4C) of the cases completely prevented their appearance. Our data prove that GlcNAc glycoconjugates prevent the inflammatory response, involving proinflammatory cytokine rise, APC activation and NKG2D expression, leading to the attenuation of clinical symptoms. These results support the glycobiological approach to the treatment of collagen-induced arthritis/rheumatoid arthritis (CIA/RA) as a way of bringing new prospects for more effective therapeutic interventions.

THU0386 Seven Cases of Multicentric Reticulohistiocytosis Treated with Intravenous Administration of Alendronate

BackgroundMulticentric reticulohistiocytosis (MR) is a rare systemic disorder characterized by cutaneous papulonodular lesions and severe destructive arthritis. Histologic analysis of cutaneous and synovial lesions discloses infiltration by multinucleated foreign body-type...

FRI0325 The Use of Intravenous Expanded Allogeneic Adipose-Derived Mesenchymal Stem Cells in Refractory Rheumatoid Arthritis Patients. A Phase Ib/Iia Study

BackgroundExpanded adipose-derived stem cells (eASCs) are shown to have immune-modulatory effects in vitro and in animal models of arthritis. eASCs are currently under investigation as potential treatments targeting auto-immune and...

AB0124 Inhibitory Effects of A Novel Bispecific Antibody against Tnf-Alpha and CXCL10 in Animal Model of Rheumatoid Arthritis

BackgroundTumor necrosis factor-α (TNF-α) plays a crucial role in the pathogenesis of rheumatoid arthritis (RA) and monoclonal antibodies targeting TNF-α are used as a popular therapeutic interventions in RA patients....

AB0125 The Effect of Gv1001, A Peptide Vaccine, in Animal Model of Rheumatoid Arthritis

BackgroundGV1001 is a 16-mer peptide developed as a cancer vaccine to prime the immune system to recognize telomerase. Besides its role as a cancer vaccine, GV1001 has anti-inflammatory effects in...

Silibinin Improves the Anti-arthritic Activity of Methotrexate in Zymosan-Induced Arthritis in Rats

Because of low toxic effects of plant-derived drugs, it has become a research focus in disease prevention and treatment, especially those chronic diseases requiring long-term treatment. The present study was designed to evaluate the effects of silibinin (SIL) when administered with methotrexate (MTX) in animal model of zymosan-induced arthritis in rats. Male Wistar rats are used for induction and arthritic inflammation in the knee joint and hind paw using zymosan. The animals are treated with MTX alone (10 mg/kg), SIL (10mg/kg) or their combination. The effect was followed through edema formation, tissue cytokines release (IL-1β, IL-8, TNF-α) and infiltration of leukocytes in synovial fluid. The results showed that SIL has weak antiarthritic activity when used alone, and improves the antiarthitic activity of MTX when both are concomitantly administered before challenge with zymosan. In conclusion, although SIL has a relatively weak anti-arthritic activity, it strongly augments the effect of MTX in animal model of zymosan-induced arthritis.

Role of Transforming Growth Factor-Beta (TGF) Beta in the Physiopathology of Rheumatoid Arthritis

TGF-β is a cytokine with pleiotropic functions in hematopoiesis, angiogenesis, cell proliferation, differentiation, migration and apoptosis. Although its role in rheumatoid arthritis is not well defined, TGF-β activation leads to functional immunomodulatory effects according to environmental conditions. The function of TGF-β in the development of arthritis in murine models has been extensively studied with controversial results. Recent findings point to a non-relevant role for TGF-β in a mice model of collagen-induced arthritis. The study of TGF-β on T-cell responses has shown controversial results as an inhibitor or promoter of the inflammatory response. This paper presents a review of the role of TGF-β in animal models of arthritis.

Inhibition of LPS‐Induced TNF‐α and NO Production in Mouse Macrophage and Inflammatory Response in Rat Animal Models by a Novel Ayurvedic Formulation, BV‐9238

Rheumatoid arthritis is a chronic crippling disease, where protein-based tumor necrosis factor-alpha (TNF-α) inhibitors show significant relief, but with potentially fatal side effects. A need for a safe, oral, cost-effective small molecule or phyto-pharmaceutical is warranted. BV-9238 is an Ayurvedic poly-herbal formulation containing specialized standardized extracts of Withania somnifera, Boswellia serrata, Zingiber officinale and Curcuma longa. The anti-inflammatory and anti-arthritic effects of BV-9238 were evaluated for inhibition of TNF-α and nitric oxide (NO) production, in lipopolysaccharide-stimulated, RAW 264.7, mouse macrophage cell line. BV-9238 reduced TNF-α and NO production, without any cytotoxic effects. Subsequently, the formulation was tested in adjuvant-induced arthritis (AIA) and carrageenan-induced paw edema (CPE) rat animal models. AIA was induced in rats by injecting Freund's complete adjuvant intra-dermally in the paw, and BV-9238 and controls were administered orally for 21 days. Arthritic scores in AIA study and inflamed paw volume in CPE study were significantly reduced upon treatment with BV-9238. These results suggest that the anti-inflammatory and anti-arthritic effects of BV-9238 are due to its inhibition of TNF-α, and NO, and this formulation shows promise as an alternate therapy for inflammatory disorders where TNF-α and NO play important roles.

Siglec-G Deficiency Leads to More Severe Collagen-Induced Arthritis and Earlier Onset of Lupus-like Symptoms in MRL/lpr Mice

Siglec-G is a member of the sialic acid-binding Ig-like lectin (Siglec) family expressed on all B cells. Siglec-G-deficient mice show a large expansion of the B1 cell compartment, demonstrating the crucial role of Siglec-G as an inhibitory receptor on this cellular subset. Although Siglec-G-deficient mice did not develop spontaneous autoimmunity, mice double-deficient for Siglec-G and the related Siglec protein CD22 did show autoimmunity at an older age. In this study, we addressed the question of whether loss of Siglec G on its own affects disease severity in animal models of rheumatoid arthritis and systemic lupus erythematosus. Siglec-G-deficient mice showed moderately increased clinical severity and higher inflammation of the knee joints following collagen-induced arthritis, when compared with control mice. The Siglec-G-deficient mouse was also backcrossed to the autoimmune prone MLR/lpr background. Although both Siglec-G-deficient and control MRL/lpr mice developed a lupus-like disease, Siglec-G-deficient MRL/lpr mice showed an earlier occurrence of autoantibodies; a higher lymphoproliferation of B and T cells; and an earlier onset of disease, as shown by proteinuria and glomerular damage in the kidney. Moreover, Siglec-G-deficient female mice showed a significantly reduced survival compared with female control MRL/lpr mice. Thus, the loss of the inhibitory receptor Siglec-G led to a moderate exacerbation of disease severity and early onset in both collagen-induced arthritis and spontaneous lupus nephritis in MRL/lpr mice.

Papel del factor de crecimiento transformador-beta (TGF-β) en la fisiopatología de la artritis reumatoide

Transforming growth factor-beta (TGF-β) is a cytokine with pleiotropic functions in hematopoiesis, angiogenesis, cell proliferation, differentiation, migration and apoptosis. Although its role in rheumatoid arthritis is not well defined, TGF-β activation leads to functional immunomodulatory effects according to environmental conditions. The function of TGF-β in the development of arthritis in murine models has been extensively studied with controversial results. Recent findings point to a non-relevant role for TGF-β in a mice model of collagen-induced arthritis. The study of TGF-β on T-cell responses has shown controversial results as an inhibitor or promoter of the inflammatory response. This paper presents a review of the role of TGF-β in animal models of arthritis.