Homotransplantationof Engineered Macrophages withSurface-Modified Nanomedicines for Mitigating Myocardial Ischemia–ReperfusionInjury

同基因 免疫系统 癌症研究 炎症 医学 巨噬细胞 细胞生物学 微泡 细胞疗法 细胞 移植 药理学 免疫学 促炎细胞因子 细胞外 巨噬细胞极化 渗透(HVAC) 氧化磷酸化 外体 纳米医学 信号转导 心肌保护 细胞损伤
作者
Jiahui Cheng (6056966),Rifeng Gao (14373903),Yang Lyu (513982),Zhi Xiong (111551),Kun Yang (19445),Xinxin Zhao (317779),Xiaoyu Huang (24573),Lingling Xu (207354),Linghuan Guo (21616734),Wen Wang (6570),Yuzhuo Li (2343097),Weina Ding (497321),Peng Guo (134478),Zhiqiang Ji (1285623),Wenli Li (337819),Xu Han (141301),Jin Zhang (53297),Shiteng Suo (4974659),Huilin Zhao (2013511),Lixian Jiang (6065993)
出处
期刊: [Figshare (United Kingdom)]
标识
DOI:10.1021/acsnano.5c05068.s004
摘要

Immune disorders are intimately involved in the pathological progression of myocardial ischemia–reperfusion injury (MIRI) and exacerbate cardiac cell damage and mitochondria-related metabolic abnormalities. However, low-immunogenic therapeutic strategies targeting the compromised immune-metabolic microenvironment remain a major challenge. Here, we developed a syngenic reparative macrophage system for the selective delivery of nanoscale drugs by modifying liposomes loaded with nano-Pt/Se and c176 onto the surface of M2 macrophages (PS-c@M). In MIRI mice, transplanted PS-c@M was actively recruited to the myocardial ischemic region, maintained long-lasting residence, and responsively released surface-loaded nanomedicines, which in turn synergistically promoted cardiac cell survival and activated extracellular repair and angiogenesis, thus exerting long-term cardioprotective effects. Specifically, PS-c@M significantly inhibited STING-related signaling pathways, thereby remodeling the immune-inflammatory homeostasis, as evidenced by the increased proportions of M2 macrophages, reparative cardiac resident macrophages, and regulatory T cells and the decreased recruitment and infiltration of M1 macrophages and neutrophils. Moreover, PS-c@M facilitated mitochondrial oxidative phosphorylation and suppressed mitochondria-associated ferroptosis and oxidative damage. This study highlights a low-immunogenic targeted therapeutic strategy based on syngenic reparative macrophages as efficient nanomedicine carriers, with potential for development and application in a wide range of immune and inflammation-related diseases.
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