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巨噬细胞膜包被的纳米级配位聚合物促进同种异体移植中的移植物存活。

Macrophage membrane coated nanoscale coordination polymers promote graft survival in allogeneic transplantation.

作者信息

Bao Haili, Song Shaohua, Liu Hao, Sun Demei, Zhu Xinyuan, Fu Zhiren, Wang Youfu, Yang Jinghui

机构信息

Department of Organ Transplantation, Shanghai Changzheng Hospital, Naval Medical University, Shanghai, 200003, China.

Department of General Surgery, School of Medicine, Ruijin Hospital, Shanghai Jiao Tong University, Shanghai, 200025, China.

出版信息

J Nanobiotechnology. 2025 Apr 7;23(1):284. doi: 10.1186/s12951-025-03226-z.

DOI:10.1186/s12951-025-03226-z
PMID:40197267
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11978185/
Abstract

Organ transplantation is a crucial life-saving procedure for patients suffering from end-stage organ failure, yet it faces a global shortage. This scarcity not only impacts individual patients but also places strain on healthcare systems worldwide. However, the risk of rejection adds another layer of difficulty to this already intricate medical procedure. Herein, we present the design and synthesis of graft-targeting macrophage membrane coated nanoscale coordination polymers (dNCPs@MM), in which dexamethasone sodium phosphate (DEXp) serves as an effective immunosuppressive drug, Fe acts as bridging ligands for coordination-driven self-assembly with cargo molecules, and macrophage membranes are utilized to reduce uptake by the immune system as well as a retarder to enhance the blood circulation time. The high drug loading, responsive release behavior and targeting capability of the obtained dNCPs@MM promote their biological performance. In a murine allogeneic heart transplantation model, dNCPs@MM exhibited remarkable efficacy in attenuating acute rejection at a low dosage, with a mean survival time of 14.7 days compared to 8.6 days for DEXp and 9.3 days for dNCPs treatment. At a high dosage, dNCPs@MM exhibited the ability to control established rejection by inducing exhaustion in both CD4 and CD8 T cell and preventing of alloreactive T cells from acquiring effector (CD44CD62L) functions. Moreover, while high doses of DEXp or dNCPs treatment led to significant adverse effects, the administration of dNCPs@MM demonstrates tolerable adverse effects even at high dosage levels. Therefore, dNCPs@MM exhibits promising potential for clinical application in addressing rejections in allografts and xenografts.

摘要

器官移植对于终末期器官衰竭患者而言是一项至关重要的挽救生命的手术,但全球面临着器官短缺的问题。这种短缺不仅影响个体患者,也给全球医疗系统带来压力。然而,排斥反应的风险给这个本就复杂的医疗程序又增添了一层困难。在此,我们展示了接枝靶向巨噬细胞膜包覆的纳米级配位聚合物(dNCPs@MM)的设计与合成,其中地塞米松磷酸钠(DEXp)作为一种有效的免疫抑制药物,铁作为桥连配体用于与载药分子进行配位驱动的自组装,巨噬细胞膜用于减少免疫系统的摄取以及作为延缓剂来延长血液循环时间。所获得的dNCPs@MM的高载药量、响应释放行为和靶向能力提升了它们的生物学性能。在小鼠同种异体心脏移植模型中,dNCPs@MM在低剂量时就表现出显著的减轻急性排斥反应的功效,平均存活时间为14.7天,相比之下,DEXp治疗组为8.6天,dNCPs治疗组为9.3天。在高剂量时,dNCPs@MM表现出通过诱导CD4和CD8 T细胞耗竭以及阻止同种反应性T细胞获得效应(CD44CD62L)功能来控制已建立的排斥反应的能力。此外,虽然高剂量的DEXp或dNCPs治疗会导致显著的不良反应,但即使在高剂量水平下,给予dNCPs@MM也显示出可耐受的不良反应。因此,dNCPs@MM在解决同种异体移植和异种移植排斥反应的临床应用中展现出了有前景的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0967/11978185/e8e5df840cd0/12951_2025_3226_Fig7_HTML.jpg
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