Multi-Omics Resolves a Sharp Disease-State Shift between Mild and Moderate COVID-19

Yapeng Su; Daniel Chen; Dan Yuan; Christopher Lausted; Jongchan Choi; Chengzhen L. Dai; Valentin Voillet; Venkata R. Duvvuri; Kelsey Scherler; Pamela Troisch; Priyanka Baloni; Guangrong Qin; Brett Smith; Sergey A. Kornilov; Clifford Rostomily; Alexander M. Xu; Jing Li; Shen Dong; Alissa C. Rothchild; Jing Zhou; Kim M. Murray; Rick Edmark; Sunga Hong; John E. Heath; John C. Earls; Rongyu Zhang; Jingyi Xie; Sarah Li; Ryan Roper; Lesley Jones; Yong Zhou; Lee Rowen; Rachel Liu; Sean Mackay; D. Shane O’Mahony; Christopher Dale; Julie A. Wallick; Heather A. Algren; Michael Zager; Wei Wei; Nathan D. Price; Sui Huang; Naeha Subramanian; Kai Wang; Andrew T. Magis; Jennifer Hadlock; Leroy Hood; Alan Aderem; Jeffrey A. Bluestone; Lewis L. Lanier; Philip D. Greenberg; Raphaël Gottardo; Mark M. Davis; Jason D. Goldman; James R. Heath

doi:10.1016/j.cell.2020.10.037

Multi-Omics Resolves a Sharp Disease-State Shift between Mild and Moderate COVID-19

Yapeng Su(Institute for Systems Biology), Daniel Chen(Institute for Systems Biology), Dan Yuan(University of Washington), Christopher Lausted(Institute for Systems Biology), Jongchan Choi(Institute for Systems Biology), Chengzhen L. Dai(Institute for Systems Biology), Valentin Voillet(Cape Town HVTN Immunology Laboratory / Hutchinson Centre Research Institute of South Africa), Venkata R. Duvvuri(Institute for Systems Biology), Kelsey Scherler(Institute for Systems Biology), Pamela Troisch(Institute for Systems Biology), Priyanka Baloni(Institute for Systems Biology), Guangrong Qin(Institute for Systems Biology), Brett Smith(Institute for Systems Biology), Sergey A. Kornilov(Institute for Systems Biology), Clifford Rostomily(Institute for Systems Biology), Alexander M. Xu(Institute for Systems Biology), Jing Li(Stanford University), Shen Dong(University of California, San Francisco), Alissa C. Rothchild(Infectious Disease Research Institute), Jing Zhou(IsoPlexis (United States)), Kim M. Murray(Institute for Systems Biology), Rick Edmark(Institute for Systems Biology), Sunga Hong(Institute for Systems Biology), John E. Heath(Institute for Systems Biology), John C. Earls(Institute for Systems Biology), Rongyu Zhang(Institute for Systems Biology), Jingyi Xie(Institute for Systems Biology), Sarah Li(Institute for Systems Biology), Ryan Roper(Institute for Systems Biology), Lesley Jones(Institute for Systems Biology), Yong Zhou(Institute for Systems Biology), Lee Rowen(Institute for Systems Biology), Rachel Liu(Institute for Systems Biology), Sean Mackay(IsoPlexis (United States)), D. Shane O’Mahony(Providence College), Christopher Dale(Providence College), Julie A. Wallick(Providence College), Heather A. Algren(Providence College), Michael Zager(Fred Hutch Cancer Center), Wei Wei(Institute for Systems Biology), Nathan D. Price(Institute for Systems Biology), Sui Huang(Institute for Systems Biology), Naeha Subramanian(University of Washington), Kai Wang(Institute for Systems Biology), Andrew T. Magis(Institute for Systems Biology), Jennifer Hadlock(Institute for Systems Biology), Leroy Hood(Providence College), Alan Aderem(Infectious Disease Research Institute), Jeffrey A. Bluestone(University of California, San Francisco), Lewis L. Lanier(University of California, San Francisco), Philip D. Greenberg(University of Washington), Raphaël Gottardo(University of Washington), Mark M. Davis(Howard Hughes Medical Institute), Jason D. Goldman(Providence College), James R. Heath(University of Washington)

Cell

October 28, 2020

10.1016/j.cell.2020.10.037

Cited by 638Open Access

Full Text

Abstract

We present an integrated analysis of the clinical measurements, immune cells, and plasma multi-omics of 139 COVID-19 patients representing all levels of disease severity, from serial blood draws collected during the first week of infection following diagnosis. We identify a major shift between mild and moderate disease, at which point elevated inflammatory signaling is accompanied by the loss of specific classes of metabolites and metabolic processes. Within this stressed plasma environment at moderate disease, multiple unusual immune cell phenotypes emerge and amplify with increasing disease severity. We condensed over 120,000 immune features into a single axis to capture how different immune cell classes coordinate in response to SARS-CoV-2. This immune-response axis independently aligns with the major plasma composition changes, with clinical metrics of blood clotting, and with the sharp transition between mild and moderate disease. This study suggests that moderate disease may provide the most effective setting for therapeutic intervention.

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Multi-Omics Resolves a Sharp Disease-State Shift between Mild and Moderate COVID-19

Abstract

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