Exploring Influenza A Virus-Induced Lung Injury and Immune Response Based on Humanized Lung-on-Chip.

IF 2 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Discovery medicine Pub Date : 2023-08-01 DOI:10.24976/Discov.Med.202335177.55
Shaoyan Gu, Pan Pan, Jiang Wang, Yinghan Shi, Feng Shi, Yuhan Zhang, Wei Guan, Yan Cao, Haimao Qin, Qingzhong Wang, Lixin Xie
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Abstract

Background: Influenza is an important respiratory tract pathogen that causes substantial seasonal and pandemic morbidity and mortality. The aim of this study was to systematically analyze the transcriptome characteristics of peripheral blood mononuclear cells (PBMCs) after influenza A virus infection by constructing a human lung microarray model composed of PBMCs to simulate the influenza A virus infection process.

Methods: A human lung microarray model was constructed using alveolar epithelial cells, vascular endothelial cells, alveolar macrophages and PBMCs, for simulation of the process of influenza A virus infection. The transcriptome characteristics of PBMCs after influenza A virus infection were analyzed by a single-cell RNA sequencing system.

Results: The study could realistically mimic the structure and physiological functions of the alveoli in vitro using immunofluorescence staining and expression of the specific marker. After the influenza A virus infected the upper lung chip channels, the epithelial cells underwent a high inflammatory response and spread to endothelial cells. Under experimental conditions, the Influenza A virus infection did not compromise the integrity of epithelial cells, but caused damage to endothelial cells and barrier dysfunction. Single-cell RNA sequencing of PBMCs showed that B and cluster of differentiation 4 (CD4) T cells played important immunomodulatory roles in response to influenza A virus infection, including significantly activating type I interferon signaling pathway, regulating cytokine and chemokine signaling pathway. Especially genes involved in cellular communication were significantly highly expressed post-infection.

Conclusions: All these results suggested that the interactions among immune cells played a crucial role in endothelial cell injury and immune cell recruitment after influenza virus infection. This lung-on-chip infection model combined with single-cell RNA sequencing provided a unique platform that can closely investigate the lung immune response to influenza A virus infection and new therapeutic strategies for influenza.

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基于人源化芯片肺研究甲型流感病毒诱导的肺损伤和免疫反应。
背景:流感是一种重要的呼吸道病原体,可导致大量季节性和大流行性发病率和死亡率。本研究的目的是通过构建由外周血单个核细胞组成的人肺微阵列模型来模拟甲型流感病毒感染过程,系统地分析感染甲型流感病毒后外周血单核细胞的转录组特征。方法:利用肺泡上皮细胞、血管内皮细胞、肺泡巨噬细胞和PBMC构建人肺微阵列模型,模拟甲型流感病毒感染过程。通过单细胞RNA测序系统分析了甲型流感病毒感染后PBMC的转录组特征。结果:利用免疫荧光染色和特异性标记物的表达,该研究可以真实地模拟肺泡的结构和生理功能。甲型流感病毒感染上肺芯片通道后,上皮细胞发生高度炎症反应并扩散到内皮细胞。在实验条件下,甲型流感病毒感染不会损害上皮细胞的完整性,但会导致内皮细胞损伤和屏障功能障碍。PBMC的单细胞RNA测序显示,B和分化簇4(CD4)T细胞在应对甲型流感病毒感染中发挥着重要的免疫调节作用,包括显著激活I型干扰素信号通路、调节细胞因子和趋化因子信号通路。结论:免疫细胞间的相互作用在流感病毒感染后内皮细胞损伤和免疫细胞募集中起着至关重要的作用。这种芯片上肺部感染模型与单细胞RNA测序相结合,提供了一个独特的平台,可以密切研究肺部对甲型流感病毒感染的免疫反应和新的流感治疗策略。
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来源期刊
Discovery medicine
Discovery medicine MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
5.40
自引率
0.00%
发文量
80
审稿时长
6-12 weeks
期刊介绍: Discovery Medicine publishes novel, provocative ideas and research findings that challenge conventional notions about disease mechanisms, diagnosis, treatment, or any of the life sciences subjects. It publishes cutting-edge, reliable, and authoritative information in all branches of life sciences but primarily in the following areas: Novel therapies and diagnostics (approved or experimental); innovative ideas, research technologies, and translational research that will give rise to the next generation of new drugs and therapies; breakthrough understanding of mechanism of disease, biology, and physiology; and commercialization of biomedical discoveries pertaining to the development of new drugs, therapies, medical devices, and research technology.
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