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将逆境转化为机遇:小细胞外囊泡作为肿瘤相关巨噬细胞重编程的纳米载体

Turning adversity into opportunity: Small extracellular vesicles as nanocarriers for tumor-associated macrophages re-education.

作者信息

Donoso-Meneses Dario, Figueroa-Valdés Aliosha I, Georges Nicolás, Tobar Hugo E, Alcayaga-Miranda Francisca

机构信息

Laboratory of Nano-Regenerative Medicine, Centro de Investigación e Innovación Biomédica (CIIB), Faculty of Medicine Universidad de Los Andes Santiago Chile.

Consorcio Regenero Chilean Consortium for Regenerative Medicine Santiago Chile.

出版信息

Bioeng Transl Med. 2022 Jun 9;8(1):e10349. doi: 10.1002/btm2.10349. eCollection 2023 Jan.

DOI:10.1002/btm2.10349
PMID:36684102
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9842057/
Abstract

Currently, small extracellular vesicles (sEV) as a nanoscale drug delivery system, are undergoing biotechnological scaling and clinical validation. Nonetheless, preclinical pharmacokinetic studies revealed that sEV are predominantly uptaken by macrophages. Although this "sEV-macrophage" propensity represents a disadvantage in terms of sEV targeting and their bioavailability as nanocarriers, it also represents a strategic advantage for those therapies that involve macrophages. Such is the case of tumor-associated macrophages (TAMs), which can reprogram/repolarize their predominantly immunosuppressive and tumor-supportive phenotype toward an immunostimulatory and anti-tumor phenotype using sEV as nanocarriers of TAMs reprogramming molecules. In this design, sEV represents an advantageous delivery system, providing precision to the therapy by simultaneously matching their tropism to the therapeutic cell target. Here, we review the current knowledge of the role of TAMs in the tumoral microenvironment and the effect generated by the reprogramming of these phagocytic cells fate using sEV. Finally, we discuss how these vesicles can be engineered by different bioengineering techniques to improve their therapeutic cargo loading and preferential uptake by TAMs.

摘要

目前,作为一种纳米级药物递送系统的小细胞外囊泡(sEV)正在经历生物技术放大和临床验证。尽管如此,临床前药代动力学研究表明,sEV主要被巨噬细胞摄取。虽然这种“sEV-巨噬细胞”倾向在sEV靶向性及其作为纳米载体的生物利用度方面是一个劣势,但对于那些涉及巨噬细胞的治疗方法来说,它也代表了一种战略优势。肿瘤相关巨噬细胞(TAM)就是这样的例子,它们可以利用sEV作为TAM重编程分子的纳米载体,将其主要的免疫抑制和肿瘤支持表型重新编程/重新极化,转变为免疫刺激和抗肿瘤表型。在这种设计中,sEV代表了一种有利的递送系统,通过使其趋向性与治疗性细胞靶点同时匹配,为治疗提供精准性。在此,我们综述了目前关于TAM在肿瘤微环境中的作用以及使用sEV对这些吞噬细胞命运进行重编程所产生的影响的知识。最后,我们讨论了如何通过不同的生物工程技术对这些囊泡进行改造,以提高其治疗性货物装载量以及TAM对其的优先摄取。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/ea951babc157/BTM2-8-e10349-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/9d557f8cad28/BTM2-8-e10349-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/1ca903778b56/BTM2-8-e10349-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/ea951babc157/BTM2-8-e10349-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/9d557f8cad28/BTM2-8-e10349-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/1ca903778b56/BTM2-8-e10349-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/843e/9842057/ea951babc157/BTM2-8-e10349-g003.jpg

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