Unveiling the promise: Exosomes as game-changers in anti-infective therapy

Vivek P. Chavda, Guanghong Luo, Rajashri Bezbaruah, Tutumoni Kalita, Anupam Sarma, Gitima Deka, Yanhong Duo, Bhrigu Kumar Das, Yesha Shah, Humzah Postwala
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Abstract

Extracellular vesicles (EVs)-based intercellular communication (through exosomes, microvesicles, and apoptotic bodies) is conserved across all kingdoms of life. In recent years, exosomes have gained much attention for targeted pharmaceutical administration due to their unique features, nanoscale size, and capacity to significantly contribute to cellular communication. As drug delivery vehicles, exosomes have several advantages over alternative nanoparticulate drug delivery technologies. A key advantage lies in their comparable makeup to the body's cells, which makes them non-immunogenic. However, exosomes vesicles face several challenges, including a lack of an effective and standard production technique, decreased drug loading capacity, limited characterization techniques, and underdeveloped isolation and purification procedures. Exosomes are well known for their long-term safety and natural ability to transport intercellular nucleic acids and medicinal compounds across the blood-brain-barrier (BBB). Therefore, in addition to revealing new insights into exosomes’ distinctiveness, the growing availability of new analytical tools may drive the development of next-generation synthetic systems. Herein, light is shed on exosomes as drug delivery vehicles in anti-infective therapy by reviewing the literature on primary articles published between 2002 and 2023. Additionally, the benefits and limitations of employing exosomes as vehicles for therapeutic drug delivery are also discussed.

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揭开希望的面纱:外泌体改变抗感染疗法的游戏规则
基于细胞外囊泡(EVs)的细胞间通讯(通过外泌体、微囊泡和凋亡体)在所有生命体中都是保留的。近年来,外泌体由于其独特的特性、纳米级的大小以及能显著促进细胞通讯的能力,在靶向给药方面备受关注。与其他纳米颗粒给药技术相比,外泌体作为给药载体具有多项优势。其中一个关键优势在于外泌体的构成与人体细胞相似,因此不会产生免疫原性。然而,外泌体囊泡也面临着一些挑战,包括缺乏有效的标准生产技术、载药能力下降、表征技术有限以及分离和纯化程序不完善等。众所周知,外泌体具有长期安全性和通过血脑屏障(BBB)运输细胞间核酸和药物的天然能力。因此,除了揭示外泌体独特性的新见解外,越来越多的新分析工具也可能推动下一代合成系统的开发。本文通过回顾2002年至2023年间发表的主要文献,对外泌体作为抗感染治疗药物递送载体的研究进行了阐述。此外,还讨论了采用外泌体作为治疗药物递送载体的益处和局限性。
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Issue Information Back Cover: High-yield upcycling of feather wastes into solid-state ultra-long phosphorescence carbon dots for advanced anticounterfeiting and information encryption (EXP2 6/2024) Frontispiece: Advancements and challenges in brain cancer therapeutics (EXP2 6/2024) Front Cover: Piezoelectric stimulation enhances bone regeneration in alveolar bone defects through metabolic reprogramming of macrophages (EXP2 6/2024) Pioneering Exploration for a lasting and sustainable future
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