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W4377108217 abstract "Abstract Cellular senescence and the senescence-associated secretory phenotype (SASP) have been implicated in osteoarthritis (OA). This study aims to determine whether multi-kinase inhibitor YKL-05-099 (Y099) has potential in senescence elimination and OA therapy and whether delivering Y099 by nanoliposmal hydrogel improves the performance of the kinase inhibitor. Y099 inhibited IL-1β-induced inflammation and catabolism and promoted anabolism of chondrocytes. To attenuate the inhibition of cell viability, nanoliposomal Y099-loaded thermosensitive hydrogel (Y099-Lip-Gel) was developed for sustained release and toxicity exemption. Notably, Y099-Lip-Gel exhibited a pronounced effect on promoting anabolism and suppressing catabolism and inflammation without causing the inhibition of chondrocyte viability. Moreover, Y099-Lip-Gel remarkably increased the master regulator of chondrocyte phenotype Sox9 expression. After four intra-articular injections of Y099-Lip-Gel in the OA murine model, the histological lesions of cartilage were attenuated by Y099-Lip-Gel with subchondral bone loss and osteoclast formation inhibited. Transcriptomic analysis and experimental validations revealed that Y099-Lip-Gel suppressed cellular senescence by inhibiting the expression of senescence inducers and SASP factors. Furthermore, the phosphoproteomic analysis showed that Y099-Lip-Gel exerted a significant influence on kinome phosphorylation, inhibiting the MAPK and NF-κB signaling activations. The protective effects of Y099-Lip-Gel were also validated in cultured human OA cartilage explants. In conclusion, nanoliposomal Y099-loaded thermosensitive hydrogel has considerable potential in OA therapy. Nanoliposome-based hydrogel system has strength in reducing kinase inhibition-induced cytotoxicity, enhancing cellular tolerance to kinome perturbation, and improving the performance of protein kinase inhibitors. Senescence elimination via toxicity-exempted kinome perturbations achieved by advanced nanotechnology is a promising strategy for OA. Graphical Abstract" @default.
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W4377108217 date "2023-05-18" @default.
W4377108217 modified "2023-10-03" @default.
W4377108217 title "Novel strategy of senescence elimination via toxicity-exempted kinome perturbations by nanoliposome-based thermosensitive hydrogel for osteoarthritis therapy" @default.
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W4377108217 doi "https://doi.org/10.1007/s42114-023-00673-w" @default.
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