The results of current preliminary study suggest that IL4-10 FP has DMOAD potentials since it shows chondroprotective and anti-inflammatory effects in vitro, as well as potentially analgesic effect in a canine in vivo model of osteoarthritis.
Background Joint damage still causes significant morbidity in hemophilia. It results from synovial inflammation and direct cartilage-degenerating properties of blood components. Interleukin (IL)-4 and IL-10 have been shown to protect cartilage from blood-induced damage. Recently an IL4-10 fusion protein has been developed to combine the function of IL-4 and IL-10 and increase their bioavailability. Objectives In this study we evaluate whether this IL4-10 fusion protein protects against blood-induced joint damage. Methods In vitro, human cartilage explants were exposed to whole blood and simultaneously to a broad concentration range of the IL4-10 fusion protein. Effects on cartilage matrix turnover were compared with the individual cytokines. Moreover, the influence of the fusion protein and its individual components on IL-1β and IL-6 production was investigated. In hemophilia A mice, the effect of intra-articular treatment on synovitis and cartilage damage resulting from joint bleeding was evaluated by histochemistry. Results In vitro, the fusion protein prevented blood-induced cartilage damage in a dose-dependent manner, with equal effectiveness to the combination of the separate cytokines. In whole blood cultures 10 ng mL fusion protein completely blocked the production of IL-1β and IL-6 by monocytes/macrophages. In hemophilic mice, intra-articular injection of IL-4 and IL-10 did not influence synovitis or cartilage degeneration. In contrast, equimolar amounts of the fusion protein attenuated cartilage damage upon repeated joint bleeding, although synovial inflammation was hardly affected. Conclusions Overall, this study shows that the IL4-10 fusion protein prevents blood-induced cartilage damage in vitro and ameliorates cartilage degeneration upon joint bleeding in hemophilic mice.
SummaryThe objective of this study was to test the capacity of a newly developed fusion protein of interleukin 4 (IL‐4) and IL‐10 [IL4‐10 fusion protein (FP)] to shift multiple pro‐inflammatory pathways towards immune regulation, and to inhibit pro‐inflammatory activity in arthritis models. The effects of IL4‐10 FP in comparison with IL‐4, IL‐10 and IL‐4 plus IL‐10 on pro‐ and anti‐inflammatory mediators, T cells and immunoglobulin (Ig) receptors in favour of immunoregulatory activity were studied. In addition, the capacity of IL4‐10 FP to inhibit pro‐inflammatory activity in ex‐vivo and in‐vivo arthritis models was investigated. IL4‐10 FP robustly inhibited pro‐inflammatory cytokine [IL‐1β, tumour necrosis factor (TNF)‐α, IL‐6 and IL‐8] production in whole blood cultures, mediated by both the IL‐10 and the IL‐4 moiety. IL4‐10 fusion protein induced IL‐1 receptor antagonist (IL‐1RA) production and preserved soluble TNF receptor (sTNFR) levels, strongly increasing IL‐1RA/IL‐1β and sTNFR/TNF‐α ratios. In addition, IL4‐10 FP strongly inhibited T helper (Th) type 1 and 17 cytokine secretion, while maintaining FoxP3 expression and up‐regulating Th2 activity. In addition, while largely leaving expression of activating Fc gamma receptor (FcγR)I, III and Fc epsilon receptor (FcεR) unaffected, it significantly shifted the FcγRIIa/FcγRIIb ratio in favour of the inhibitory FcγRIIb. Moreover, IL4–10 FP robustly inhibited secretion of pro‐inflammatory cytokines by rheumatoid arthritis synovial tissue and suppressed experimental arthritis in mice, without inducing B cell hyperactivity. IL4‐10 fusion protein is a novel drug, signalling cells to induce immunoregulatory activity that overcomes limitations of IL‐4 and IL‐10 stand‐alone therapy, and therefore has therapeutic potential for inflammatory diseases such as rheumatoid arthritis.
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