miR-100-5p-abundant exosomes derived from infrapatellar fat pad MSCs protect articular cartilage and ameliorate gait abnormalities via inhibition of mTOR in osteoarthritis

微泡 间充质干细胞 PI3K/AKT/mTOR通路 骨关节炎 软骨细胞 体内 癌症研究 医学 自噬 软骨 细胞生物学 小RNA 生物 细胞凋亡 病理 信号转导 解剖 生物化学 生物技术 替代医学 基因
作者
Jiangyi Wu,Liang Kuang,Cheng Chen,Junjun Yang,Weinan Zeng,Tao Li,Hao Chen,Shu Huang,Zhenlan Fu,Jiamiao Li,Renfeng Liu,Zhenhong Ni,Lin Chen,Liu Yang
出处
期刊:Biomaterials [Elsevier BV]
卷期号:206: 87-100 被引量:579
标识
DOI:10.1016/j.biomaterials.2019.03.022
摘要

Osteoarthritis (OA) is the most common disabling joint disease throughout the world and its therapeutic effect is still not satisfactory in clinic nowadays. Recent studies showed that the exosomes derived from several types of mesenchymal stem cells (MSCs) could maintain chondrocyte homeostasis and ameliorate the pathological severity of OA in animal models, indicating that MSCs-derived exosomes could be a novel promising strategy for treating OA. In this study, we investigated the role and underlying mechanisms of infrapatellar fat pad (IPFP) MSCs-derived exosomes (MSCIPFP-Exos) on OA in vitro and in vivo. Our data revealed that MSCIPFP could produce amounts of MSCIPFP-Exos, which exhibited the typical morphological features of exosomes. The MSCIPFP-Exos ameliorated the OA severity in vivo and inhibited cell apoptosis, enhanced matrix synthesis and reduced the expression of catabolic factor in vitro. Moreover, MSCIPFP-Exos could significantly enhance autophagy level in chondrocytes partially via mTOR inhibition. Exosomal RNA-seq showed that the level of miR-100-5p that could bind to the 3′-untranslated region (3′UTR) of mTOR was the highest among microRNAs. MSCIPFP-Exos decreased the luciferase activity of mTOR 3′UTR, while inhibition of miR-100-5p could reverse the MSCIPFP-Exos-decreased mTOR signaling pathway. Intra-articular injection of antagomir-miR-100-5p dramatically attenuated MSCIPFP-Exos-mediated protective effect on articular cartilage in vivo. In brief, MSCIPFP-derived exosomes protect articular cartilage from damage and ameliorate gait abnormality in OA mice by maintaining cartilage homeostasis, the mechanism of which may be related to miR100-5p-regulated inhibition of mTOR-autophagy pathway. As it is relatively feasible to obtain human IPFP from OA patients by arthroscopic operation in clinic, MSCIPFP-derived exosomes may be a potential therapy for OA in the future.
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