从研究方法到植物治疗药物应用的植物外泌体前沿。

Wenshang Fu, Pingli Zhang, Wei Wang, Mengdie Du, Rui Ni, Yongshun Sun
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引用次数: 0

摘要

外泌体已成为细胞间通信以及细胞与其环境之间各种生理过程的关键媒介。这些纳米大小的囊泡已被广泛研究,并被证实在动物系统中表现出多功能性。特别是,它们参与细胞间信号传递、影响疾病进展并表现出生物活性。然而,在过去几十年中,植物衍生外泌体(PDEs),尤其是治疗性PDEs受到的关注相对有限。最近的研究表明,除细胞间通信外,PDEs 还参与信号分子的转运,因为它们是细胞微环境中的功能分子。这一特性凸显了多羟基二苯醚在抗氧化、抗炎、消除肿瘤细胞、免疫调节和组织再生等广泛应用中的巨大潜力。此外,多溴联苯醚有望成为高效的药物载体,提高治疗药物的稳定性和生物利用度,从而实现向特定细胞或组织的靶向给药。因此,PDEs 可作为药物输送和治疗各种疾病的有效工具。本综述概述了近期有关治疗用多肽酶的研究,重点介绍了多肽酶的提取、分离、表征方法、生物活性和应用前景。它总结了从药用植物中提取的外泌体纳米颗粒的研究进展,特别强调了传统中药,并强调了它们在疾病治疗和纳米颗粒递送方面的重要性。主要目的是加速这些纳米颗粒的临床转化,同时为创新药物的研发提供新的途径和方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Frontiers of Plant-derived Exosomes from Research Methods to Pharmaceutical Applications in Plant-based Therapeutics

Exosomes have emerged as critical mediators of intercellular communication and various physiological processes between cells and their environment. These nano-sized vesicles have been extensively investigated and confirmed to exhibit multifunctionality in animal systems. In particular, they participate in intercellular signaling, influence disease progression, and exhibit biological activity. However, Plant-Derived Exosomes (PDEs), especially therapeutic PDEs, have received relatively limited attention in the past few decades. Recent studies have demonstrated that PDEs are involved in signaling molecule transport in addition to intercellular communication, as they serve as functional molecules in the cellular microenvironment. This characteristic highlights the immense potential of PDEs for a wide array of applications, including antioxidation, anti-inflammation, tumour cell elimination, immune modulation, and tissue regeneration. In addition, PDEs hold substantial promise as efficient drug carriers, enhancing the stability and bioavailability of therapeutic agents and consequently enabling targeted delivery to specific cells or tissues. Therefore, PDEs may serve as effective tools for drug delivery and the treatment of various diseases. This comprehensive review provides an overview of recent studies on therapeutic PDEs, focusing on their extraction, isolation, characterization methods, biological activities, and application prospects. It summarises the research progress of exosome-like nanovesicles derived from medicinal plants, with a specific emphasis on traditional Chinese medicine, and highlights their importance in disease treatment and nanoparticle delivery. The main objective is to accelerate the clinical translation of these nanovesicles while providing novel approaches and methodologies for the research and development of innovative drugs.

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