Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection

Jiakai Hou; Yanjun Wei; Jing Zou; Roshni Jaffery; Long Sun; Shaoheng Liang; Ningbo Zheng; Ashley M. Guerrero; Nicholas A. Egan; Ritu Bohat; Si Chen; Caishang Zheng; Xiaobo Mao; S. Stephen Yi; Ken Chen; Daniel J. McGrail; Nidhi Sahni; Pei Yong Shi; Yiwen Chen; Xuping Xie; Weiyi Peng

doi:10.1038/s41467-023-44175-1

Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection

Jiakai Hou, Yanjun Wei, Jing Zou, Roshni Jaffery, Long Sun, Shaoheng Liang, Ningbo Zheng, Ashley M. Guerrero, Nicholas A. Egan, Ritu Bohat, Si Chen, Caishang Zheng, Xiaobo Mao, S. Stephen Yi, Ken Chen, Daniel J. McGrail, Nidhi Sahni, Pei Yong Shi, Yiwen Chen, Xuping XieWeiyi Peng

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Abstract

Host anti-viral factors are essential for controlling SARS-CoV-2 infection but remain largely unknown due to the biases of previous large-scale studies toward pro-viral host factors. To fill in this knowledge gap, we perform a genome-wide CRISPR dropout screen and integrate analyses of the multi-omics data of the CRISPR screen, genome-wide association studies, single-cell RNA-Seq, and host-virus proteins or protein/RNA interactome. This study uncovers many host factors that are currently underappreciated, including the components of V-ATPases, ESCRT, and N-glycosylation pathways that modulate viral entry and/or replication. The cohesin complex is also identified as an anti-viral pathway, suggesting an important role of three-dimensional chromatin organization in mediating host-viral interaction. Furthermore, we discover another anti-viral regulator KLF5, a transcriptional factor involved in sphingolipid metabolism, which is up-regulated, and harbors genetic variations linked to COVID-19 patients with severe symptoms. Anti-viral effects of three identified candidates (DAZAP2/VTA1/KLF5) are confirmed individually. Molecular characterization of DAZAP2/VTA1/KLF5-knockout cells highlights the involvement of genes related to the coagulation system in determining the severity of COVID-19. Together, our results provide further resources for understanding the host anti-viral network during SARS-CoV-2 infection and may help develop new countermeasure strategies.

Original language	English (US)
Article number	109
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-44175-1
State	Published - Dec 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Hou, J., Wei, Y., Zou, J., Jaffery, R., Sun, L., Liang, S., Zheng, N., Guerrero, A. M., Egan, N. A., Bohat, R., Chen, S., Zheng, C., Mao, X., Yi, S. S., Chen, K., McGrail, D. J., Sahni, N., Shi, P. Y., Chen, Y., ... Peng, W. (2024). Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection. Nature communications, 15(1), Article 109. https://doi.org/10.1038/s41467-023-44175-1

Hou, J, Wei, Y, Zou, J, Jaffery, R, Sun, L, Liang, S, Zheng, N, Guerrero, AM, Egan, NA, Bohat, R, Chen, S, Zheng, C, Mao, X, Yi, SS, Chen, K, McGrail, DJ, Sahni, N, Shi, PY, Chen, Y, Xie, X & Peng, W 2024, 'Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection', Nature communications, vol. 15, no. 1, 109. https://doi.org/10.1038/s41467-023-44175-1

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title = "Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection",

abstract = "Host anti-viral factors are essential for controlling SARS-CoV-2 infection but remain largely unknown due to the biases of previous large-scale studies toward pro-viral host factors. To fill in this knowledge gap, we perform a genome-wide CRISPR dropout screen and integrate analyses of the multi-omics data of the CRISPR screen, genome-wide association studies, single-cell RNA-Seq, and host-virus proteins or protein/RNA interactome. This study uncovers many host factors that are currently underappreciated, including the components of V-ATPases, ESCRT, and N-glycosylation pathways that modulate viral entry and/or replication. The cohesin complex is also identified as an anti-viral pathway, suggesting an important role of three-dimensional chromatin organization in mediating host-viral interaction. Furthermore, we discover another anti-viral regulator KLF5, a transcriptional factor involved in sphingolipid metabolism, which is up-regulated, and harbors genetic variations linked to COVID-19 patients with severe symptoms. Anti-viral effects of three identified candidates (DAZAP2/VTA1/KLF5) are confirmed individually. Molecular characterization of DAZAP2/VTA1/KLF5-knockout cells highlights the involvement of genes related to the coagulation system in determining the severity of COVID-19. Together, our results provide further resources for understanding the host anti-viral network during SARS-CoV-2 infection and may help develop new countermeasure strategies.",

author = "Jiakai Hou and Yanjun Wei and Jing Zou and Roshni Jaffery and Long Sun and Shaoheng Liang and Ningbo Zheng and Guerrero, {Ashley M.} and Egan, {Nicholas A.} and Ritu Bohat and Si Chen and Caishang Zheng and Xiaobo Mao and Yi, {S. Stephen} and Ken Chen and McGrail, {Daniel J.} and Nidhi Sahni and Shi, {Pei Yong} and Yiwen Chen and Xuping Xie and Weiyi Peng",

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doi = "10.1038/s41467-023-44175-1",

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AU - Hou, Jiakai

AU - Wei, Yanjun

AU - Zou, Jing

AU - Jaffery, Roshni

AU - Sun, Long

AU - Liang, Shaoheng

AU - Zheng, Ningbo

AU - Guerrero, Ashley M.

AU - Egan, Nicholas A.

AU - Bohat, Ritu

AU - Chen, Si

AU - Zheng, Caishang

AU - Mao, Xiaobo

AU - Yi, S. Stephen

AU - Chen, Ken

AU - McGrail, Daniel J.

AU - Sahni, Nidhi

AU - Shi, Pei Yong

AU - Chen, Yiwen

AU - Xie, Xuping

AU - Peng, Weiyi

PY - 2024/12

Y1 - 2024/12

N2 - Host anti-viral factors are essential for controlling SARS-CoV-2 infection but remain largely unknown due to the biases of previous large-scale studies toward pro-viral host factors. To fill in this knowledge gap, we perform a genome-wide CRISPR dropout screen and integrate analyses of the multi-omics data of the CRISPR screen, genome-wide association studies, single-cell RNA-Seq, and host-virus proteins or protein/RNA interactome. This study uncovers many host factors that are currently underappreciated, including the components of V-ATPases, ESCRT, and N-glycosylation pathways that modulate viral entry and/or replication. The cohesin complex is also identified as an anti-viral pathway, suggesting an important role of three-dimensional chromatin organization in mediating host-viral interaction. Furthermore, we discover another anti-viral regulator KLF5, a transcriptional factor involved in sphingolipid metabolism, which is up-regulated, and harbors genetic variations linked to COVID-19 patients with severe symptoms. Anti-viral effects of three identified candidates (DAZAP2/VTA1/KLF5) are confirmed individually. Molecular characterization of DAZAP2/VTA1/KLF5-knockout cells highlights the involvement of genes related to the coagulation system in determining the severity of COVID-19. Together, our results provide further resources for understanding the host anti-viral network during SARS-CoV-2 infection and may help develop new countermeasure strategies.

AB - Host anti-viral factors are essential for controlling SARS-CoV-2 infection but remain largely unknown due to the biases of previous large-scale studies toward pro-viral host factors. To fill in this knowledge gap, we perform a genome-wide CRISPR dropout screen and integrate analyses of the multi-omics data of the CRISPR screen, genome-wide association studies, single-cell RNA-Seq, and host-virus proteins or protein/RNA interactome. This study uncovers many host factors that are currently underappreciated, including the components of V-ATPases, ESCRT, and N-glycosylation pathways that modulate viral entry and/or replication. The cohesin complex is also identified as an anti-viral pathway, suggesting an important role of three-dimensional chromatin organization in mediating host-viral interaction. Furthermore, we discover another anti-viral regulator KLF5, a transcriptional factor involved in sphingolipid metabolism, which is up-regulated, and harbors genetic variations linked to COVID-19 patients with severe symptoms. Anti-viral effects of three identified candidates (DAZAP2/VTA1/KLF5) are confirmed individually. Molecular characterization of DAZAP2/VTA1/KLF5-knockout cells highlights the involvement of genes related to the coagulation system in determining the severity of COVID-19. Together, our results provide further resources for understanding the host anti-viral network during SARS-CoV-2 infection and may help develop new countermeasure strategies.

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ER -

Integrated multi-omics analyses identify anti-viral host factors and pathways controlling SARS-CoV-2 infection

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