利用3D体外系统模拟对实体瘤的免疫反应：迈向改进和创建个性化免疫疗法的一步。

Harnessing 3D in vitro systems to model immune responses to solid tumours: a step towards improving and creating personalized immunotherapies.

作者信息

Zhou Zhenzhen, Pang Yuan, Ji Jingyuan, He Jianyu, Liu Tiankun, Ouyang Liliang, Zhang Wen, Zhang Xue-Li, Zhang Zhi-Gang, Zhang Kaitai, Sun Wei

机构信息

Biomanufacturing Center, Department of Mechanical Engineering, Tsinghua University, Haidian District, Beijing, China.

Biomanufacturing and Rapid Forming Technology Key Laboratory of Beijing, Beijing, China.

出版信息

Nat Rev Immunol. 2024 Jan;24(1):18-32. doi: 10.1038/s41577-023-00896-4. Epub 2023 Jul 4.

DOI:10.1038/s41577-023-00896-4

PMID:37402992

Abstract

In vitro 3D models are advanced biological tools that have been established to overcome the shortcomings of oversimplified 2D cultures and mouse models. Various in vitro 3D immuno-oncology models have been developed to mimic and recapitulate the cancer-immunity cycle, evaluate immunotherapy regimens, and explore options for optimizing current immunotherapies, including for individual patient tumours. Here, we review recent developments in this field. We focus, first, on the limitations of existing immunotherapies for solid tumours, secondly, on how in vitro 3D immuno-oncology models are established using various technologies - including scaffolds, organoids, microfluidics and 3D bioprinting - and thirdly, on the applications of these 3D models for comprehending the cancer-immunity cycle as well as for assessing and improving immunotherapies for solid tumours.

摘要

体外3D模型是先进的生物学工具，其建立旨在克服过度简化的2D培养和小鼠模型的缺点。已经开发了各种体外3D免疫肿瘤学模型来模拟和概括癌症免疫循环、评估免疫治疗方案，并探索优化当前免疫疗法（包括针对个体患者肿瘤的疗法）的选项。在此，我们综述该领域的最新进展。我们首先关注现有实体瘤免疫疗法的局限性，其次关注如何使用包括支架、类器官、微流控和3D生物打印在内的各种技术建立体外3D免疫肿瘤学模型，第三关注这些3D模型在理解癌症免疫循环以及评估和改进实体瘤免疫疗法方面的应用。

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利用3D体外系统模拟对实体瘤的免疫反应：迈向改进和创建个性化免疫疗法的一步。

Harnessing 3D in vitro systems to model immune responses to solid tumours: a step towards improving and creating personalized immunotherapies.

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