Modulation of type I interferon responses potently inhibits SARS-CoV-2 replication and inflammation in rhesus macaques

Timothy N. Hoang; Elise G. Viox; Amit A. Upadhyay; Zachary Strongin; Gregory K. Tharp; Maria Pino; Rayhane Nchioua; Maximilian Hirschenberger; Matthew Gagne; Kevin Nguyen; Justin L. Harper; Shir Marciano; Arun K. Boddapati; Kathryn L. Pellegrini; Jennifer Tisoncik-Go; Leanne S. Whitmore; Kirti A. Karunakaran; Melissa Roy; Shannon Kirejczyk; Elizabeth H. Curran; Chelsea Wallace; Jennifer S. Wood; Fawn Connor-Stroud; Sudhir P. Kasturi; Rebecca D. Levit; Michael Gale Jr.; Thomas H. Vanderford; Guido Silvestri; Kathleen Busman-Sahay; Jacob D. Estes; Monica Vaccari; Daniel C. Douek; Konstantin M.J. Sparrer; Frank Kirchhoff; R. Paul Johnson; Gideon Schreiber; Steven E. Bosinger; Mirko Paiardini

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Modulation of type I interferon responses potently inhibits SARS-CoV-2 replication and inflammation in rhesus macaques

Timothy N. Hoang; Elise G. Viox; Amit A. Upadhyay; Zachary Strongin; Gregory K. Tharp; Maria Pino; Rayhane Nchioua; Maximilian Hirschenberger; Matthew Gagne; Kevin Nguyen; Justin L. Harper; Shir Marciano; Arun K. Boddapati; Kathryn L. Pellegrini; Jennifer Tisoncik-Go; Leanne S. Whitmore; Kirti A. Karunakaran; Melissa Roy; Shannon Kirejczyk; Elizabeth H. Curran; Chelsea Wallace; Jennifer S. Wood; Fawn Connor-Stroud; Sudhir P. Kasturi; Rebecca D. Levit; Michael Gale Jr.; Thomas H. Vanderford; Guido Silvestri; Kathleen Busman-Sahay; Jacob D. Estes; Monica Vaccari; Daniel C. Douek; Konstantin M.J. Sparrer; Frank Kirchhoff; R. Paul Johnson; Gideon Schreiber; Steven E. Bosinger; Mirko Paiardini.

Afiliación

Timothy N. Hoang; Emory University
Elise G. Viox; Emory University
Amit A. Upadhyay; Emory University
Zachary Strongin; Emory University
Gregory K. Tharp; Emory University
Maria Pino; Emory University
Rayhane Nchioua; Ulm University
Maximilian Hirschenberger; Ulm University
Matthew Gagne; National Institute of Allergy and Infectious Diseases
Kevin Nguyen; Emory University
Justin L. Harper; Emory University
Shir Marciano; Weizmann Institute of Science
Arun K. Boddapati; Emory University
Kathryn L. Pellegrini; Emory University
Jennifer Tisoncik-Go; University of Washington
Leanne S. Whitmore; University of Washington
Kirti A. Karunakaran; Emory University
Melissa Roy; Emory University
Shannon Kirejczyk; Emory University
Elizabeth H. Curran; Emory University
Chelsea Wallace; Emory University
Jennifer S. Wood; Emory University
Fawn Connor-Stroud; Emory University
Sudhir P. Kasturi; Emory University
Rebecca D. Levit; Emory University
Michael Gale Jr.; University of Washington
Thomas H. Vanderford; Emory University
Guido Silvestri; Emory University
Kathleen Busman-Sahay; Oregon Health & Science University
Jacob D. Estes; Oregon Health & Science University
Monica Vaccari; Tulane University
Daniel C. Douek; National Institute of Allergy and Infectious Diseases
Konstantin M.J. Sparrer; Ulm University
Frank Kirchhoff; Ulm University
R. Paul Johnson; Emory University
Gideon Schreiber; Weizmann Institute of Science
Steven E. Bosinger; Emory University
Mirko Paiardini; Emory University

Preprint en En | PREPRINT-BIORXIV | ID: ppbiorxiv-512606

ABSTRACT

ABSTRACT

Type-I interferons (IFN-I) are critical mediators of innate control of viral infections, but also drive recruitment of inflammatory cells to sites of infection, a key feature of severe COVID-19. Here, and for the first time, IFN-I signaling was modulated in rhesus macaques (RMs) prior to and during acute SARS-CoV-2 infection using a mutated IFN2 (IFN-modulator; IFNmod), which has previously been shown to reduce the binding and signaling of endogenous IFN-I. In SARS-CoV-2-infected RMs, IFNmod reduced both antiviral and inflammatory ISGs. Notably, IFNmod treatment resulted in a potent reduction in (i) SARS-CoV-2 viral load in Bronchoalveolar lavage (BAL), upper airways, lung, and hilar lymph nodes; (ii) inflammatory cytokines, chemokines, and CD163+MRC1-inflammatory macrophages in BAL; and (iii) expression of Siglec-1, which enhances SARS-CoV-2 infection and predicts disease severity, on circulating monocytes. In the lung, IFNmod also reduced pathogenesis and attenuated pathways of inflammasome activation and stress response during acute SARS-CoV-2 infection. This study, using an intervention targeting both IFN- and IFN-{beta} pathways, shows that excessive inflammation driven by type 1 IFN critically contributes to SARS-CoV-2 pathogenesis in RMs, and demonstrates the potential of IFNmod to limit viral replication, SARS-CoV-2 induced inflammation, and COVID-19 severity.

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Texto completo: 1 Colección: 09-preprints Base de datos: PREPRINT-BIORXIV Tipo de estudio: Prognostic_studies Idioma: En Año: 2022 Tipo del documento: Preprint

Texto completo

Añadir a Mi BVS

Imprimir

XML

Buscar en Google

Texto completo: 1 Colección: 09-preprints Base de datos: PREPRINT-BIORXIV Tipo de estudio: Prognostic_studies Idioma: En Año: 2022 Tipo del documento: Preprint