ObjectiveProtease‐activated receptor 2 (PAR‐2) activation has been linked to pro‐ and antiinflammatory cellular responses. We undertook this study to explore the importance of PAR‐2 activation in 4 murine models of arthritis and to analyze the expression of PAR‐2 in human arthritic synovium.MethodsZymosan‐induced arthritis (ZIA), K/BxN serum–induced arthritis, and Freund's complete adjuvant (CFA)–induced arthritis were generated in naive PAR‐2−/− mice and PAR‐2+/+ littermates. Antigen‐induced arthritis (AIA) was generated in immunized mice using methylated bovine serum albumin (mBSA). The severity of arthritis was assessed by clinical scoring, technetium uptake measurement, and histologic analysis. Immune responses to mBSA were also evaluated from AIA. The expression of PAR‐2 in synovial tissues from rheumatoid arthritis (RA) and osteoarthritis (OA) patients was compared.ResultsIn AIA, arthritis was significantly decreased in PAR‐2–deficient mice and was associated with decreased levels of anti‐mBSA IgG antibodies and lymph node cell proliferation. No difference in arthritis severity was seen in mice with ZIA, K/BxN serum–induced arthritis, and CFA‐induced arthritis. Synovial biopsy specimens from RA patients demonstrated significantly increased expression of PAR‐2 compared with those from OA patients.ConclusionPAR‐2 deficiency was found to modulate articular inflammation in murine models of arthritis that require prior immunization and was associated with reduced levels of anti‐mBSA IgG and lymph node cell proliferation in AIA. Expression of PAR‐2 in RA synovium was significantly higher than that in OA synovium, and this suggests that PAR‐2 is implicated in the pathogenesis of immune‐mediated forms of arthritis.
Introduction Tissue factor (TF) activation of the coagulation proteases enhances inflammation in animal models of arthritis and endotoxemia, but the mechanism of this effect is not yet fully understood -in particular, whether this is primarily due to fibrin formation or through activation of protease activated receptors (PARs).
Background La/SSB is a phosphoprotein that associates with various small RNA molecules. It has been found that the primary phosphorylation site of the molecule during various physiological processes is in Ser366. Objectives To determine whether the phosphorylation state of Ser366 could affect the antigenicity and the recognition of the protein by antibodies from patients with primary Sjögren's syndrome (pSS). Methods Peptides 349-368aa and phos349-368aa (with the Ser366 residue phosphorylated) were synthesized. Sera with anti-La specificity from 30 patients with pSS and sera from 19 normal individuals were examined against the two synthetic peptides in ELISA. The antibody specificity against the epitopes was tested with homologous and heterologous inhibition assays. Results Of pSS sera 23% reacted against the 349-368aa peptide. Sera binding to unphosphorylated peptide reacted also with phos349-368aa. Although the same sera gave a positive reaction against both peptides, the optical density values received from antibodies to phos349-368aa were higher, indicating a higher concentration or stronger affinity. When phos349-368aa was used as soluble inhibitor, in homologous inhibition the reactivity was almost completely abolished (92%). In contrast, when the unphosphorylated peptide was used as inhibitor, the reactivity of sera against phos349-368aa was only partially reduced (35%), indicating that sera from these patients possess two distinct groups of antibodies: one against the unphosphorylated and one against the phosphorylated epitope. Conclusion The phosphorylation of the serine366 residue resulted in a significant increase in antibody binding on epitope 349-368aa of La/SSB. These observations might explain the increased antigenicity of La/SSB autoantigen in various pathological situations in which phosphorylation may occur. 2 Surface-bound immune complexes containing antibodies to collagen type II induce production of TNF-α α, IL-1β β and IL-8 from monocytes via Fcγ γRII
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