Extracellular vesicle-mediated VEGF-A mRNA delivery rescues ischaemic injury with low immunogenicity

IF 37.6 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

European Heart Journal Pub Date : 2025-01-20 DOI:10.1093/eurheartj/ehae883

Yi You, Yu Tian, Rui Guo, Junfeng Shi, Kwang Joo Kwak, Yuhao Tong, Andreanne Poppy Estania, Wei-Hsiang Hsu, Yutong Liu, Shijun Hu, Jianhong Cao, Liqun Yang, Rui Bai, Pufeng Huang, Ly James Lee, Wen Jiang, Betty Y S Kim, Shuhong Ma, Xujie Liu, Zhenya Shen, Feng Lan, Patricia Kim Phuong Nguyen, Andrew S Lee

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引用次数: 0

Abstract

Background and Aims Lackluster results from recently completed gene therapy clinical trials of VEGF-A delivered by viral vectors have heightened the need to develop alternative delivery strategies. This study aims to demonstrate the pre-clinical efficacy and safety of extracellular vesicles (EVs) loaded with VEGF-A mRNA for the treatment of ischaemic vascular disease. Methods After encapsulation of full-length VEGF-A mRNA into fibroblast-derived EVs via cellular nanoporation (CNP), collected VEGF-A EVs were delivered into mouse models of ischaemic injury. Target tissue delivery was verified by in situ analysis of protein and gene expression. Functional rescue was confirmed by in vivo imaging and histology. The safety of single and serial delivery was demonstrated using immune-based assays. Results VEGF-A EVs were generated with high mRNA content using a CNP methodology. VEGF-A EV administration demonstrated expression of exogenous VEGF-A mRNA by in situ RNA hybridization and elevated protein expression by western blot, microscopy, and enzyme-linked immunosorbent assay. Mice treated with human VEGF-A EVs after femoral or coronary artery ligation exhibited heightened neovascularization in ischaemic tissues with increased arterial perfusion and improvement in left ventricular function, respectively. Serial delivery of VEGF-EVs in injured skin showed improved wound healing with repeat administration. Importantly, as compared with adeno-associated viral and lipid nanoparticle VEGF-A gene therapy modalities, murine VEGF-A EV delivery did not trigger innate or adaptive immune responses at the injection site or systemically. Conclusions This study demonstrated that VEGF-A EV therapy offers efficient, dose-dependent VEGF-A protein formation with low immunogenicity, resulting in new vessel formation in murine models of ischaemic vascular disease.

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细胞外囊泡介导的VEGF-A mRNA递送可挽救低免疫原性的缺血性损伤

背景和目的最近完成的病毒载体传递VEGF-A的基因治疗临床试验结果不佳，这增加了开发替代传递策略的必要性。本研究旨在证明装载VEGF-A mRNA的细胞外囊泡（EVs）治疗缺血性血管疾病的临床前疗效和安全性。方法通过细胞纳米穿孔（CNP）将VEGF-A全长mRNA包封到成纤维细胞衍生的ev中，将收集到的VEGF-A ev送入小鼠缺血损伤模型。通过原位分析蛋白和基因表达来验证靶组织递送。体内影像学和组织学证实功能恢复。使用基于免疫的测定证明了单次和连续递送的安全性。结果采用CNP方法生成了mRNA含量高的VEGF-A ev。VEGF-A EV通过原位RNA杂交证实了外源VEGF-A mRNA的表达，并通过western blot、显微镜和酶联免疫吸附试验证实了蛋白表达的升高。在股动脉结扎或冠状动脉结扎后，用人VEGF-A ev治疗的小鼠分别表现出缺血组织新生血管增强，动脉灌注增加，左心室功能改善。连续给药vegf - ev损伤皮肤后，伤口愈合改善。重要的是，与腺相关病毒和脂质纳米颗粒VEGF-A基因治疗方式相比，小鼠VEGF-A EV递送不会在注射部位或全身引发先天或适应性免疫反应。结论：本研究表明，VEGF-A EV治疗提供了有效的、剂量依赖性的低免疫原性VEGF-A蛋白形成，导致小鼠缺血性血管疾病模型中的新血管形成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Heart Journal 医学-心血管系统

CiteScore

39.30

自引率

6.90%

发文量

3942

审稿时长

1 months

期刊介绍： The European Heart Journal is a renowned international journal that focuses on cardiovascular medicine. It is published weekly and is the official journal of the European Society of Cardiology. This peer-reviewed journal is committed to publishing high-quality clinical and scientific material pertaining to all aspects of cardiovascular medicine. It covers a diverse range of topics including research findings, technical evaluations, and reviews. Moreover, the journal serves as a platform for the exchange of information and discussions on various aspects of cardiovascular medicine, including educational matters. In addition to original papers on cardiovascular medicine and surgery, the European Heart Journal also presents reviews, clinical perspectives, ESC Guidelines, and editorial articles that highlight recent advancements in cardiology. Additionally, the journal actively encourages readers to share their thoughts and opinions through correspondence.