A proteome-scale map of the SARS-CoV-2–human contactome

被引:0
|
作者
Dae-Kyum Kim
Benjamin Weller
Chung-Wen Lin
Dayag Sheykhkarimli
Jennifer J. Knapp
Guillaume Dugied
Andreas Zanzoni
Carles Pons
Marie J. Tofaute
Sibusiso B. Maseko
Kerstin Spirohn
Florent Laval
Luke Lambourne
Nishka Kishore
Ashyad Rayhan
Mayra Sauer
Veronika Young
Hridi Halder
Nora Marín-de la Rosa
Oxana Pogoutse
Alexandra Strobel
Patrick Schwehn
Roujia Li
Simin T. Rothballer
Melina Altmann
Patricia Cassonnet
Atina G. Coté
Lena Elorduy Vergara
Isaiah Hazelwood
Betty B. Liu
Maria Nguyen
Ramakrishnan Pandiarajan
Bushra Dohai
Patricia A. Rodriguez Coloma
Juline Poirson
Paolo Giuliana
Luc Willems
Mikko Taipale
Yves Jacob
Tong Hao
David E. Hill
Christine Brun
Jean-Claude Twizere
Daniel Krappmann
Matthias Heinig
Claudia Falter
Patrick Aloy
Caroline Demeret
Marc Vidal
Michael A. Calderwood
机构
[1] University of Toronto,Donnelly Centre for Cellular and Biomolecular Research (CCBR)
[2] University of Toronto,Department of Molecular Genetics
[3] Lunenfeld-Tanenbaum Research Institute (LTRI),Department of Cancer Genetics and Genomics
[4] Sinai Health System,Institute of Network Biology (INET), Molecular Targets and Therapeutics Center (MTTC)
[5] Center for Cancer Systems Biology (CCSB),Unité de Génétique Moléculaire des Virus à ARN, Département de Virologie
[6] Dana-Farber Cancer Institute,Research Unit Cellular Signal Integration
[7] Roswell Park Comprehensive Cancer Center,Laboratory of Viral Interactomes, GIGA Institute
[8] Helmholtz Zentrum München,Department of Genetics
[9] German Research Center for Environmental Health,Department of Cancer Biology
[10] Institut Pasteur,TERRA Teaching and Research Centre
[11] UMR3569,Laboratory of Molecular and Cellular Epigenetics, GIGA Institute
[12] Centre National de la Recherche Scientifique,Molecular Architecture of Life Program
[13] Université de Paris,Institute of Computational Biology (ICB), Computational Health Center
[14] Aix-Marseille Université,Department of Informatics
[15] Inserm,Department of Computer Science
[16] TAGC,Microbe
[17] Institute for Research in Biomedicine (IRB Barcelona),Host Interactions, Faculty of Biology
[18] Barcelona Institute for Science and Technology,undefined
[19] Institute of Molecular Toxicology and Pharmacology,undefined
[20] Molecular Targets and Therapeutics Center (MTTC),undefined
[21] Helmholtz Zentrum München,undefined
[22] German Research Center for Environmental Health,undefined
[23] University of Liège,undefined
[24] Blavatnik Institute,undefined
[25] Harvard Medical School,undefined
[26] Dana-Farber Cancer Institute,undefined
[27] University of Liège,undefined
[28] University of Liège,undefined
[29] Canadian Institute for Advanced Research (CIFAR),undefined
[30] CNRS,undefined
[31] Helmholtz Zentrum München,undefined
[32] German Research Center for Environmental Health,undefined
[33] Technische Universität München,undefined
[34] Institució Catalana de Recerca I Estudis Avaçats (ICREA),undefined
[35] University of Toronto,undefined
[36] Ludwig-Maximilians-Universität (LMU) München,undefined
来源
Nature Biotechnology | 2023年 / 41卷
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摘要
Understanding the mechanisms of coronavirus disease 2019 (COVID-19) disease severity to efficiently design therapies for emerging virus variants remains an urgent challenge of the ongoing pandemic. Infection and immune reactions are mediated by direct contacts between viral molecules and the host proteome, and the vast majority of these virus–host contacts (the ‘contactome’) have not been identified. Here, we present a systematic contactome map of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) with the human host encompassing more than 200 binary virus–host and intraviral protein–protein interactions. We find that host proteins genetically associated with comorbidities of severe illness and long COVID are enriched in SARS-CoV-2 targeted network communities. Evaluating contactome-derived hypotheses, we demonstrate that viral NSP14 activates nuclear factor κB (NF-κB)-dependent transcription, even in the presence of cytokine signaling. Moreover, for several tested host proteins, genetic knock-down substantially reduces viral replication. Additionally, we show for USP25 that this effect is phenocopied by the small-molecule inhibitor AZ1. Our results connect viral proteins to human genetic architecture for COVID-19 severity and offer potential therapeutic targets.
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页码:140 / 149
页数:9
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