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Novel insight into the underlying dysregulation mechanisms of immune cell-to-cell communication by analyzing multitissue single-cell atlas of two COVID-19 patients

Shijie Qin, Xiaohong Yao, Weiwei Li, Canbiao Wang, Weijun Xu, Zhenhua Gan, Yang� Yang, Aifang Zhong, Bin Wang, Zhicheng He, Jian Wu, Qiuyue Wu, Weijun Jiang, Ying Han, Fan Wang, Zhihua Wang, Yuehua Ke, Jun Zhao, Junyin Gao, Liang Qu, Ping Jin, Miao Guan, Xinyi Xia, Xiu‐Wu Bian

2023Cell Death and Disease16 citationsDOIOpen Access PDF

Abstract

How does SARS-CoV-2 cause lung microenvironment disturbance and inflammatory storm is still obscure. We here performed the single-cell transcriptome sequencing from lung, blood, and bone marrow of two dead COVID-19 patients and detected the cellular communication among them. Our results demonstrated that SARS-CoV-2 infection increase the frequency of cellular communication between alveolar type I cells (AT1) or alveolar type II cells (AT2) and myeloid cells triggering immune activation and inflammation microenvironment and then induce the disorder of fibroblasts, club, and ciliated cells, which may cause increased pulmonary fibrosis and mucus accumulation. Further study showed that the increase of T cells in the lungs may be mainly recruited by myeloid cells through ligands/receptors (e.g., ANXA1/FPR1, C5AR1/RPS19, and CCL5/CCR1). Interestingly, we also found that certain ligands/receptors (e.g., ANXA1/FPR1, CD74/COPA, CXCLs/CXCRs, ALOX5/ALOX5AP, CCL5/CCR1) are significantly activated and shared among lungs, blood and bone marrow of COVID-19 patients, implying that the dysregulation of ligands/receptors may lead to immune cell's activation, migration, and the inflammatory storm in different tissues of COVID-19 patients. Collectively, our study revealed a possible mechanism by which the disorder of cell communication caused by SARS-CoV-2 infection results in the lung inflammatory microenvironment and systemic immune responses across tissues in COVID-19 patients.

Topics & Concepts

Immune systemImmunologyInflammationBiologyCCL5MyeloidBone marrowImmune dysregulationReceptorLungT cellCell biologyMedicineIL-2 receptorInternal medicineBiochemistryExtracellular vesicles in diseaseImmune cells in cancerImmune Cell Function and Interaction
Novel insight into the underlying dysregulation mechanisms of immune cell-to-cell communication by analyzing multitissue single-cell atlas of two COVID-19 patients | Litcius