Role of tumour necrosis factor alpha in experimental arthritis: separate activity of interleukin 1beta in chronicity and cartilage destruction.
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Chronic arthritis is characterised by persistent joint inflammation and concomitant joint destruction. Using murine arthritis models and neutralising antibodies as well as cytokine specific knockout conditions, it was found that tumour necrosis factor alpha (TNFalpha) is important in early joint swelling. Membrane bound TNFalpha is sufficient to drive this aspect of inflammation as well as the acute cellular infiltrate in the synovial tissue. Interleukin 1 (IL1) is not necessarily a dominant cytokine in early joint swelling, but has a pivotal role in sustained cellular infiltration and erosive cartilage damage. TNFalpha independent IL1 production is a prominent feature in murine arthritis models. These observations provide evidence for potential uncoupling of joint inflammation and erosive changes, implying that both cytokines need to be targeted to achieve optimal treatment. (+info)
Nociceptin and the ORL-1 ligand [Phe1psi (CH2-NH)Gly2]nociceptin(1-13)NH2 exert anti-opioid effects in the Freund's adjuvant-induced arthritic rat model of chronic pain.
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1 Stimulation of the opioid receptor-like1 (ORL-1) receptor by nociceptin (NC) produces hyperalgesia and reverses the antinociceptive effects induced by opioids. Most studies concerning the central effects of NC were conducted using acute pain models. The role NC may play in chronic inflammation remains unelucidated. 2 The present study was undertaken to assess the action of NC in the Freund's adjuvant-induced monoarthritic rat model. The effects of drugs known to act as analgesics in this model were evaluated. The effects of NC, NCNH2, and the ORL-1 ligand, [Phe1psi(CH2-NH)Gly2]NC(1-13)NH2 ([F/G]NC(1-13)NH2), were also studied alone or in association with morphine. 3 NC (1 - 30 nmol, i. c.v.) was inactive, whilst NCNH2 (10 nmol, i.c.v.) exerted hyperalgesic effects (-4.5+/-0.9 vs -0.7+/-0.8 s of vehicle-treated animals). [F/G]NC(1-13)NH2 (0.01 - 10 nmol, i.c.v.) induced hyperalgesia in the arthritic paw (-3.3+/-0.6 vs -0.3+/-0.5 s of vehicle-treated animals; 10 nmol). 4 Both NC (0.01 - 10 nmol, i.c.v. ) and [F/G]NC(1-13)NH2 (0.01 - 1 nmol, i.c.v), 30 min after morphine (3 mg kg-1, s.c.) induced an immediate and short-lived reversal of morphine effects (2.6+/-0.3 vs 10.4+/-1.0 and 1.2+/-1.5 vs 9.3+/-1.1 s of morphine alone, respectively), therefore displaying anti-opioid activity. 5 In the Freund's adjuvant-induced rat model of arthritis, both NC and [F/G]NC(1-13)NH2 act as anti-opioid peptides. Furthermore, NCNH2 and [F/G]NC(1-13)NH2 induce hyperalgesia when given alone. Further investigations and the identification of a centrally acting ORL-1 antagonist are necessary to better understand the role of NC in pain mechanisms. (+info)
Proteoglycan and collagen biochemical variations during fluoroquinolone-induced chondrotoxicity in mice.
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Although fluoroquinolone antibacterials have a broad therapeutic use, with a relatively low incidence of severe side effects, they have been reported to induce lesions in the cartilage of growing animals by a mechanism that remains unclear. This study was undertaken to determine the potentially deleterious effect of a high dose of pefloxacin (400 mg/kg of body weight) on two main constituents of cartilage in mice, i.e., proteoglycans and collagen. Variations in levels of proteoglycan anabolism measured by in vivo [(35)S]sulfate incorporation into cartilage and oxidative modifications of collagen assessed by detection of carbonyl derivatives were monitored after administration of pefloxacin. Treatment of mice with 1 day of pefloxacin treatment significantly decreased the rate of biosynthesis of proteoglycan for the first 24 h. However, no difference was observed after 48 h. The decrease in proteoglycan synthesis was accompanied by a marked drop in serum sulfate concentration and a concomitant increase in urinary sulfate excretion. The decrease in proteoglycan synthesis, also observed ex vivo, may suggest a direct effect of pefloxacin on this process, rather than it being a consequence of a low concentration of sulfate. On the other hand, treatment with pefloxacin for 10 days induced oxidative damage to collagen. In conclusion, this study demonstrates, for the first time, that pefloxacin administration to mice leads to modifications in the metabolism and integrity of extracellular proteins, such as collagen and proteoglycans, which may account for the side effects observed. These results offer new insights to explain quinolone-induced disorders in growing articular cartilage. (+info)
Misfolding of HLA-B27 as a result of its B pocket suggests a novel mechanism for its role in susceptibility to spondyloarthropathies.
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The MHC class I protein HLA-B27 is strongly associated with susceptibility to spondyloarthropathies and can cause arthritis when expressed in rats and mice, implying a direct role in disease pathogenesis. A prominent hypothesis to explain this role suggests that the unique peptide binding specificity of HLA-B27 confers an ability to present arthritogenic peptides. The B pocket, a region of the peptide binding groove that is an important determinant of allele-specific peptide binding, is thought to be critical for arthritogenicity. However, this hypothesis remains unproven. We show that in addition to its role in peptide selection, the B pocket causes a portion of the pool of assembling HLA-B27 heavy chains in the endoplasmic reticulum to misfold, resulting in their degradation in the cytosol. The misfolding phenotype is corrected by replacing the HLA-B27 B pocket with one from HLA-A2. Our results suggest an alternative to the arthritogenic peptide hypothesis. Misfolding and its consequences, rather than allele-specific peptide presentation, may underlie the strong link between the HLA-B27 B pocket and susceptibility to spondyloarthropathies. (+info)
Eosinophilic arthritis.
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OBJECTIVE: To report the clinical picture, laboratory findings and management of 10 patients presenting with acute polyarthritis and hypereosinophilia of unknown causation. METHODS: Patients presenting with acute arthritis and elevated eosinophil counts (>0.7x10(9) cells/l) or percentage (>11%) were studied during the period 1990-1997. Exhaustive investigations were carried out to exclude allergy, parasitic and infectious diseases, autoimmune disorders and malignancy. They were managed by standard treatment with oral non-steroidal anti-inflammatory drugs (NSAIDs), failing which, some were given oral corticosteroids. Those resistant to corticosteroids were treated empirically with diethylcarbamazine citrate or levamisole. All were closely monitored. RESULTS: Nine females and one male were found to have acute polyarthritis of 1-6 weeks duration. Most affected were the large joints: knees, ankles, elbows and shoulders. Except for localized urticarial rash, none had constitutional symptoms or extra-articular manifestations. Mild to moderate eosinophilia (absolute count 0.7-7.08x10(9) cells or 11-63%) was detected at the disease onset, but other laboratory findings were generally non-contributory. Treatment with oral NSAIDs did not relieve the joint symptoms nor reduce the hypereosinophilia, but oral prednisolone brought rapid recovery to five out of eight patients. Three of the corticosteroid-resistant patients were treated with an oral diethylcarbamazine, an anti-filarial drug. Complete resolution of arthritis and normalization of eosinophil count were observed after 2-3 weeks. Similar success was obtained in one patient after a single dose of levamisole. No side-effects or relapse were encountered. It was also observed that there was a good correlation between joint activity and the eosinophilic count, indicating the joint as the possible target end organ of these cells. CONCLUSION: Ten patients were found to have an acute polyarthritis without systemic involvement, but with marked hypereosinophilia of unknown aetiology. They had clinical and laboratory findings which differed from other diseases with eosinophilia, especially the idiopathic hypereosinophilic syndrome (HES) and parasitic or infectious conditions. The response to NSAIDs, corticosteroids and, most interestingly, to anthelmintic drugs, like diethylcarbamazine citrate and levamisole, was noteworthy, although the basic mechanism remains unknown. The term eosinophilic arthritis (EA) is used here to describe this group of arthritides which has a benign course and is most likely a reaction to some occult allergen or agent. (+info)
Effect of gender on anti-inflammatory and analgesic actions of two kappa-opioids.
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The higher incidence of inflammatory and painful disorders in women and recent reports that have emphasized the importance of gender in nociceptive sensitivity and responsiveness to analgesics prompted us to investigate gender as a factor in the variability in response to opioids. We studied the anti-inflammatory and antinociceptive effects of two kappa-opioid agonists in adjuvant-induced arthritis, one that acts both peripherally and centrally (PNU50488H; 20 mg/kg/day), the other which is peripherally selective (asimadoline; 5 mg/kg/day). Both drugs had equally powerful anti-inflammatory effects in both male and female rats (reducing measures by 60-80%). In contrast, there were gender-based heterogeneities in their analgesic actions, contingent on the method of stimulation (mechanical or thermal); males were insensitive to the analgesic effects of asimadoline with thermal but not mechanical nociceptive stimuli. We also sought evidence for gender influences on the joint content of Substance P (SP), a peptide suggested to have a role in producing inflammation and found that levels were higher in the untreated arthritic females, although there were no gender differences in disease sensitivity or nociception in arthritic animals receiving no drugs. Paradoxically, both drugs elevated SP concentrations in the joints, perhaps as a consequence of an action of kappa-opioids to suppress SP release from peripheral nerves, but the gender differences remained. Further experiments are required to determine exact mechanisms responsible for the gender distinction in analgesic response to kappa-opioids that may involve differential activation of primary afferents. (+info)
Placenta growth factor (PlGF) induces vascular endothelial growth factor (VEGF) secretion from mononuclear cells and is co-expressed with VEGF in synovial fluid.
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The aims of this study were (i) to determine whether PlGF, VEGF and PlGF/VEGF heterodimers are detected in synovial fluid (SF) and plasma samples from patients with a range of arthropathies; (ii) to describe whether any correlation exists between SF PlGF, VEGF and PlGF/VEGF heterodimer levels and the total and differential SF leucocyte counts; and (iii) to investigate the regulation of peripheral blood mononuclear cell (PBMC) VEGF secretion by stimuli relevant to inflammatory joints. PlGF, VEGF and PlGF/VEGF heterodimer levels were measured in the SF and plasma of patients with a range of arthropathies and normal controls by ELISA. Western blotting for PlGF was performed on SF from three patients with rheumatoid arthritis (RA) and primary inflammatory arthropathies. VEGF was quantified in cell culture supernatants after stimulation with lipopolysaccharide (LPS), PlGF or cobalt ions of PBMC isolated from RA patients and controls. PlGF and VEGF were detected in all SF samples. PlGF/VEGF heterodimers were detected in 10.2% of SF samples, most frequently in RA samples. Western blotting confirmed the presence of PlGF in RA SF. PlGF was detected in 52% of RA and 31% of control plasma samples, and VEGF was detected in 38% of RA and 38% of control plasma samples. PlGF/VEGF heterodimers were detected in 21% of RA samples and none of the control samples. In primary inflammatory arthropathy patients, SF PlGF and VEGF levels correlated significantly with the SF total leucocyte count and the neutrophil count. PlGF was the most potent inducer of PBMC VEGF production in both RA and control subjects. This is the first report of the detection of PlGF and PlGF/VEGF heterodimers in the SF of patients with inflammatory arthropathies, and we have shown for the first time that PlGF up-regulates PBMC VEGF production. PlGF may therefore play a key role in the production of VEGF in the inflammatory joint. (+info)
Soluble complement receptor one (sCR1) inhibits the development and progression of rat collagen-induced arthritis.
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We set out to determine whether inhibition of complement using sCR1 could influence the development and progression of collagen arthritis in the Lewis rat. Collagen arthritis was successfully established in the Lewis rat, using a novel immunization schedule. In separate experiments, cobra venom factor (CVF) and sCR1 were used to achieve systemic complement inhibition. Their respective effects on disease onset and on the progression of established disease compared with saline-treated control animals was explored. Arthritis was assessed by measurement of clinical score, paw diameter and paw volume. Complement inhibition using either CVF or sCR1, prior to the onset of clinical signs of inflammation, delayed the development of disease. CVF was ineffective in the treatment of established disease, whereas sCR1 delayed the progression of disease in affected joints and prevented the recruitment of further joints while the animals were complement-depleted. In the control saline-treated groups the disease continued to progress relentlessly. We conclude that complement activation is important in the initiation and maintenance of inflammation in collagen arthritis. The potent disease-modulating effect of sCR1 provides persuasive evidence that specific complement inhibiting agents may be an effective approach to the treatment of inflammatory joint diseases (+info)