Elizabeth B. Kelso scite author profile

Using physiological, pharmacological, and gene disruption approaches, we demonstrate that proteinase-activated receptor-2 (PAR-2) plays a pivotal role in mediating chronic inflammation. Using an adjuvant monoarthritis model of chronic inflammation, joint swelling was substantially inhibited in PAR-2-deficient mice, being reduced by more than fourfold compared with wild-type mice, with virtually no histological evidence of joint damage. Mice heterozygous for PAR-2 gene disruption showed an intermediate phenotype. PAR-2 expression, normally limited to endothelial cells in small arterioles, was substantially upregulated 2 weeks after induction of inflammation, both in synovium and in other periarticular tissues. PAR-2 agonists showed potent proinflammatory effects as intra-articular injection of ASKH95, a novel synthetic PAR-2 agonist, induced prolonged joint swelling and synovial hyperemia. Given the absence of the chronic inflammatory response in the PAR-2-deficient mice, our findings demonstrate a key role for PAR-2 in mediating chronic inflammation, thereby identifying a novel and important therapeutic target for the management of chronic inflammatory diseases such as rheumatoid arthritis.

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Therapeutic Promise of Proteinase-Activated Receptor-2 Antagonism in Joint Inflammation

Kelso

Lockhart²,

Hembrough

et al. 2005

J Pharmacol Exp Ther

179

191

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Essential role for proteinase-activated receptor-2 in arthritis

Ferrell¹,

Lockhart²,

Kelso³

et al. 2003

J. Clin. Invest.

198

110

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Matriptase is a novel initiator of cartilage matrix degradation in osteoarthritis

Milner¹,

Patel²,

Davidson³

et al. 2010

Arthritis & Rheumatism

102

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Objective. Increasing evidence implicates serine proteinases in pathologic tissue turnover. The aim of this study was to assess the role of the transmembrane serine proteinase matriptase in cartilage destruction in osteoarthritis (OA).Methods. Serine proteinase gene expression in femoral head cartilage obtained from either patients with hip OA or patients with fracture to the neck of the femur (NOF) was assessed using a low-density array. The effect of matriptase on collagen breakdown was determined in cartilage degradation models, while the effect on matrix metalloproteinase (MMP) expression was analyzed by real-time polymerase chain reaction. ProMMP processing was determined using sodium dodecyl sulfate-polyacrylamide gel electrophoresis/Nterminal sequencing, while its ability to activate proteinase-activated receptor 2 (PAR-2) was determined using a synovial perfusion assay in mice.Results. Matriptase gene expression was significantly elevated in OA cartilage compared with NOF cartilage, and matriptase was immunolocalized to OA chondrocytes. We showed that matriptase activated proMMP-1 and processed proMMP-3 to its fully active form. Exogenous matriptase significantly enhanced cytokine-stimulated cartilage collagenolysis, while matriptase alone caused significant collagenolysis from OA cartilage, which was metalloproteinase-dependent. Matriptase also induced MMP-1, MMP-3, and MMP-13 gene expression. Synovial perfusion data confirmed that matriptase activates PAR-2, and we demonstrated that matriptase-dependent enhancement of collagenolysis from OA cartilage is blocked by PAR-2 inhibition.Conclusion. Elevated matriptase expression in OA and the ability of matriptase to activate selective proMMPs as well as induce collagenase expression make this serine proteinase a key initiator and inducer of cartilage destruction in OA. We propose that the indirect effects of matriptase are mediated by PAR-2, and a more detailed understanding of these mechanisms may highlight important new therapeutic targets for OA treatment.Metalloproteinases, especially matrix metalloproteinases (MMPs), are considered to be the most important class of proteinase in terms of cartilage degradation, because collectively they can degrade all components of this complex extracellular matrix (ECM) (1). Indeed, type II collagen is a major structural component of this ECM, and collagenolysis is an essentially irreversible step (2), making such proteolysis a major therapeutic target (3). Collagens are remarkably resistant to prote-

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Expression and proinflammatory role of proteinase‐activated receptor 2 in rheumatoid synovium: Ex vivo studies using a novel proteinase‐activated receptor 2 antagonist

Kelso

Ferrell

Lockhart

et al. 2007

Arthritis & Rheumatism

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ObjectiveSerine proteinases activate the G protein–coupled receptor, proteinase‐activated receptor 2 (PAR‐2), via cleavage and exposure of a tethered ligand. PAR‐2 is known to exert proinflammatory actions in a murine model of arthritis, since PAR‐2–deficient mice exhibit strikingly reduced articular inflammation. This study was undertaken to examine synovial PAR‐2 expression and to determine the effect of a novel PAR‐2 antagonist on synovial cytokine production, in order to investigate the hypothesis that PAR‐2 plays a critical role in the pathogenesis of rheumatoid arthritis (RA).MethodsUsing a monoclonal antibody to human PAR‐2, expression in RA synovium and cultured synovial fibroblasts was characterized. The novel PAR‐2 antagonist, ENMD‐1068, was added to primary cultures of RA synovial tissue, from which spontaneous cytokine release was measured.ResultsPAR‐2 was substantially up‐regulated in RA synovium compared with control synovial tissue from patients with osteoarthritis or seronegative inflammatory arthritis, neither of which exhibited significant PAR‐2 expression. Importantly, spontaneous release of tumor necrosis factor α and interleukin‐1β from RA synovium was substantially inhibited by ENMD‐1068, in a dose‐dependent manner.ConclusionThese findings identify PAR‐2 as a novel upstream regulator of proinflammatory cytokine production in RA and indicate its potential as a novel therapeutic target in inflammatory arthritis.

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