Macrophage-hitchhiking interleukin-10 plasmid DNA delivery system modulates rheumatoid arthritis microenvironment via the re-polarization of macrophages

转染 化学 巨噬细胞极化 塔夫辛 巨噬细胞 细胞生物学 关节炎 生物物理学 分子生物学 免疫学 生物 生物化学 体外 基因
作者
Xintong Zhang,Yanhong Liu,Wei Liu,Liqing Chen,Mingji Jin,Zhonggao Gao,Wei Huang
出处
期刊:Nano Today [Elsevier BV]
卷期号:54: 102068-102068 被引量:18
标识
DOI:10.1016/j.nantod.2023.102068
摘要

Rheumatoid arthritis (RA) is a common chronic inflammatory disease and the current treatments for RA are unsatisfactory due to the buffer barrier from the RA microenvironment. Interleukin-10 (IL-10) was found to be able to modulate rheumatoid arthritis microenvironment (RAM) by the metabolic reprogramming of macrophages. However, its clinical application has proven challenging mainly due to its short half-life, non-ideal targeting efficiency via systemic administration and poor tissue penetration. Taking advantage of the recruitment of macrophages, we constructed an innovative macrophage-hitchhiking IL-10 pDNA delivery system using the peptides bearing nuclear localization signal (NLS) and tuftsin-modified disulfide-crosslinked polymers (bPEI-SS-PEG-T) which was responsive to the intracellular glutathione concentration. Firstly, we formed NLS/DNA complexes via electrostatic interactions to enhance the nuclear entry efficiency. Then NLS/DNA complexes were combined with bPEI-SS-PEG-T to construct bPEI-SS-PEG-T/NLS/DNA NPs with sizes of 168.4 nm and zeta potentials of + 10.9 mV. As the bPEI-SS-PEG-T was biodegradable and the tuftsin peptides enhanced macrophage-mediated phagocytosis, the nanoparticles exhibited lower cytotoxicity and better cellular uptake in addition to higher nuclear entry efficiency, leading to better IL-10 plasmid transfection. In addition, these macrophage-hitchhiking nanoparticles could effectively accumulate at inflammatory sites of RA via intra-peritoneal injection due to the macrophage migration to the inflammatory joints and alleviate symptoms of inflammation in vivo by inducing the re-polarization of macrophages, which might be mediated by the inhibition of mammalian target of rapamycin (mTOR) and the induction of arginase-2 (Arg2). As a result, this macrophage-hitchhiking gene delivery system demonstrated excellent inflammation targeting ability, good nuclear entry ability, high IL-10 plasmid transfection efficiency and great therapeutic efficacy in vivo, which is promising for the treatment of rheumatoid arthritis. Besides, this delivery system also provides a novel strategy for the gene therapy and the gene delivery system design for rheumatoid arthritis and other similar inflammatory diseases from the perspective of the inflammatory microenvironment.
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