多隔室芯片上淋巴结可实现对免疫细胞对药物反应时运动性的测量。

Multi-Compartment Lymph-Node-on-a-Chip Enables Measurement of Immune Cell Motility in Response to Drugs.

作者信息

Hallfors Nicholas, Shanti Aya, Sapudom Jiranuwat, Teo Jeremy, Petroianu Georg, Lee SungMun, Planelles Lourdes, Stefanini Cesare

机构信息

Healthcare Engineering Innovation Center, Biomedical Engineering Department, Khalifa University of Science and Technology, Abu Dhabi P.O. Box 127788, United Arab Emirates.

Laboratory for Immuno Bioengineering Research and Applications, Division of Engineering, New York University Abu Dhabi, Abu Dhabi P.O. Box 129188, United Arab Emirates.

出版信息

Bioengineering (Basel). 2021 Jan 31;8(2):19. doi: 10.3390/bioengineering8020019.

DOI:10.3390/bioengineering8020019

PMID:33572571

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7912616/

Abstract

Organs On-a-Chip represent novel platforms for modelling human physiology and disease. The lymph node (LN) is a relevant immune organ in which B and T lymphocytes are spatially organized in a complex architecture, and it is the place where the immune response initiates. The present study addresses the utility of a recently designed LN-on-a-chip to dissect and understand the effect of drugs delivered to cells in a fluidic multicellular 3D setting that mimics the human LN. To do so, we analyzed the motility and viability of human B and T cells exposed to hydroxychloroquine (HCQ). We show that the innovative LN platform, which operates at a microscale level, allows real-time monitoring of co-cultured B and T cells by imaging, and supports cellular random movement. HCQ delivered to cells through a constant and continuous flow induces a reduction in T cell velocity while promotes persistent rotational motion. We also find that HCQ increases the production of reactive oxygen species in T cells. Taken together, these results highlight the potential of the LN-on-a-chip to be applied in drug screening and development, and in cellular dynamics studies.

摘要

器官芯片是用于模拟人体生理学和疾病的新型平台。淋巴结（LN）是一个相关的免疫器官，其中B淋巴细胞和T淋巴细胞以复杂的结构在空间上组织排列，并且它是免疫反应启动的场所。本研究探讨了最近设计的芯片上淋巴结在模拟人体淋巴结的流体多细胞三维环境中剖析和理解药物对细胞作用的效用。为此，我们分析了暴露于羟氯喹（HCQ）的人B细胞和T细胞的运动性和活力。我们表明，在微观尺度上运行的创新型淋巴结平台能够通过成像对共培养的B细胞和T细胞进行实时监测，并支持细胞随机运动。通过持续不断的流动输送到细胞的HCQ会导致T细胞速度降低，同时促进持续的旋转运动。我们还发现HCQ会增加T细胞中活性氧的产生。综上所述，这些结果凸显了芯片上淋巴结在药物筛选与研发以及细胞动力学研究中的应用潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2cf8/7912616/b74ae757ecee/bioengineering-08-00019-g001.jpg

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多隔室芯片上淋巴结可实现对免疫细胞对药物反应时运动性的测量。

Multi-Compartment Lymph-Node-on-a-Chip Enables Measurement of Immune Cell Motility in Response to Drugs.

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