Author: Zhang, Min; Wang, Peng; Luo, Ronghua; Wang, Yaqing; Li, Zhongyu; Guo, Yaqiong; Yao, Yulin; Li, Minghua; Tao, Tingting; Chen, Wenwen; Han, Jianbao; Liu, Haitao; Cui, Kangli; zhang, Xu; Zheng, Yongtang; Qin, Jianhua
Title: Biomimetic Human Disease Model of SARSâ€CoVâ€2 Induced Lung Injury and Immune Responses on Organ Chip System Cord-id: 6w41nic8 Document date: 2020_10_24
ID: 6w41nic8
Snippet: Coronavirus disease 2019 (COVIDâ€19) is a global pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2). The models that can accurately resemble humanâ€relevant responses to viral infection are lacking. Here, we create a biomimetic human disease model on chip that allows to recapitulate lung injury and immune responses induced by SARSâ€CoVâ€2 in vitro at organ level. This human alveolar chip reproduced the key features of alveolarâ€capillary barrier by coâ€cult
Document: Coronavirus disease 2019 (COVIDâ€19) is a global pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2). The models that can accurately resemble humanâ€relevant responses to viral infection are lacking. Here, we create a biomimetic human disease model on chip that allows to recapitulate lung injury and immune responses induced by SARSâ€CoVâ€2 in vitro at organ level. This human alveolar chip reproduced the key features of alveolarâ€capillary barrier by coâ€culture of human alveolar epithelium, microvascular endothelium and circulating immune cells under fluidic flow in normal and disease. Upon SARSâ€CoVâ€2 infection, the epithelium exhibited higher susceptibility to virus than endothelium. Transcriptional analyses showed activated innate immune responses in epithelium and cytokineâ€dependent pathways in endothelium at 3 days postâ€infection, revealing the distinctive responses in different cell types. Notably, viral infection caused the immune cell recruitment, endothelium detachment, and increased inflammatory cytokines release, suggesting the crucial role of immune cells involving in alveolar barrier injury and exacerbated inflammation. Treatment with remdesivir could inhibit viral replication and alleviate barrier disruption on chip. This organ chip model can closely mirror humanâ€relevant responses to SARSâ€CoVâ€2 infection, which is difficult to be achieved by in vitro models, providing a unique platform for COVIDâ€19 research and drug development. This article is protected by copyright. All rights reserved
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