Engineering extracellular vesicles for ROS scavenging and tissue regeneration

IF 13.4 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Nano Convergence Pub Date : 2024-06-26 DOI:10.1186/s40580-024-00430-9

Ahmed Abdal Dayem, Ellie Yan, Minjae Do, Yoojung Kim, Yeongseo Lee, Ssang-Goo Cho, Deok-Ho Kim

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Abstract

Stem cell therapy holds promise for tissue regeneration, yet significant challenges persist. Emerging as a safer and potentially more effective alternative, extracellular vesicles (EVs) derived from stem cells exhibit remarkable abilities to activate critical signaling cascades, thereby facilitating tissue repair. EVs, nano-scale membrane vesicles, mediate intercellular communication by encapsulating a diverse cargo of proteins, lipids, and nucleic acids. Their therapeutic potential lies in delivering cargos, activating signaling pathways, and efficiently mitigating oxidative stress—an essential aspect of overcoming limitations in stem cell-based tissue repair. This review focuses on engineering and applying EVs in tissue regeneration, emphasizing their role in regulating reactive oxygen species (ROS) pathways. Additionally, we explore strategies to enhance EV therapeutic activity, including functionalization and incorporation of antioxidant defense proteins. Understanding these molecular mechanisms is crucial for optimizing EV-based regenerative therapies. Insights into EV and ROS signaling modulation pave the way for targeted and efficient regenerative therapies harnessing the potential of EVs.

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清除 ROS 和组织再生的细胞外囊泡工程。

干细胞疗法为组织再生带来了希望，但仍存在重大挑战。从干细胞中提取的细胞外囊泡（EVs）作为一种更安全、可能更有效的替代品，展现出激活关键信号级联的非凡能力，从而促进组织修复。EVs是纳米级膜囊泡，通过包裹蛋白质、脂质和核酸等多种货物，介导细胞间的交流。它们的治疗潜力在于运送货物、激活信号通路和有效缓解氧化应激--这是克服干细胞组织修复局限性的一个重要方面。这篇综述侧重于组织再生工程和应用EVs，强调EVs在调节活性氧（ROS）途径中的作用。此外，我们还探讨了增强EV治疗活性的策略，包括功能化和加入抗氧化防御蛋白。了解这些分子机制对于优化基于 EV 的再生疗法至关重要。对EV和ROS信号调节的深入了解为利用EV的潜力进行有针对性的高效再生疗法铺平了道路。

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

Nano Convergence Engineering-General Engineering

CiteScore

15.90

自引率

2.60%

发文量

审稿时长

13 weeks

期刊介绍： Nano Convergence is an internationally recognized, peer-reviewed, and interdisciplinary journal designed to foster effective communication among scientists spanning diverse research areas closely aligned with nanoscience and nanotechnology. Dedicated to encouraging the convergence of technologies across the nano- to microscopic scale, the journal aims to unveil novel scientific domains and cultivate fresh research prospects. Operating on a single-blind peer-review system, Nano Convergence ensures transparency in the review process, with reviewers cognizant of authors' names and affiliations while maintaining anonymity in the feedback provided to authors.