A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response

Broadly neutralizing antibodies targeting a highly conserved region in the hemagglutinin (HA) stem protect against influenza infection. Here, we investigate the protective efficacy of a protein (HB36.6) computationally designed to bind with high affinity to the same region in the HA stem. We show th...

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Autores principales: Koday, Merika Treants, Nelson, Jorgen, Chevalier, Aaron, Koday, Michael, Kalinoski, Hannah, Stewart, Lance, Carter, Lauren, Nieusma, Travis, Lee, Peter S., Ward, Andrew B., Wilson, Ian A., Dagley, Ashley, Smee, Donald F., Baker, David, Fuller, Deborah Heydenburg
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4742065/
https://www.ncbi.nlm.nih.gov/pubmed/26845438
http://dx.doi.org/10.1371/journal.ppat.1005409
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author Koday, Merika Treants
Nelson, Jorgen
Chevalier, Aaron
Koday, Michael
Kalinoski, Hannah
Stewart, Lance
Carter, Lauren
Nieusma, Travis
Lee, Peter S.
Ward, Andrew B.
Wilson, Ian A.
Dagley, Ashley
Smee, Donald F.
Baker, David
Fuller, Deborah Heydenburg
author_facet Koday, Merika Treants
Nelson, Jorgen
Chevalier, Aaron
Koday, Michael
Kalinoski, Hannah
Stewart, Lance
Carter, Lauren
Nieusma, Travis
Lee, Peter S.
Ward, Andrew B.
Wilson, Ian A.
Dagley, Ashley
Smee, Donald F.
Baker, David
Fuller, Deborah Heydenburg
author_sort Koday, Merika Treants
collection PubMed
description Broadly neutralizing antibodies targeting a highly conserved region in the hemagglutinin (HA) stem protect against influenza infection. Here, we investigate the protective efficacy of a protein (HB36.6) computationally designed to bind with high affinity to the same region in the HA stem. We show that intranasal delivery of HB36.6 affords protection in mice lethally challenged with diverse strains of influenza independent of Fc-mediated effector functions or a host antiviral immune response. This designed protein prevents infection when given as a single dose of 6.0 mg/kg up to 48 hours before viral challenge and significantly reduces disease when administered as a daily therapeutic after challenge. A single dose of 10.0 mg/kg HB36.6 administered 1-day post-challenge resulted in substantially better protection than 10 doses of oseltamivir administered twice daily for 5 days. Thus, binding of HB36.6 to the influenza HA stem region alone, independent of a host response, is sufficient to reduce viral infection and replication in vivo. These studies demonstrate the potential of computationally designed binding proteins as a new class of antivirals for influenza.
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spelling pubmed-47420652016-02-11 A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response Koday, Merika Treants Nelson, Jorgen Chevalier, Aaron Koday, Michael Kalinoski, Hannah Stewart, Lance Carter, Lauren Nieusma, Travis Lee, Peter S. Ward, Andrew B. Wilson, Ian A. Dagley, Ashley Smee, Donald F. Baker, David Fuller, Deborah Heydenburg PLoS Pathog Research Article Broadly neutralizing antibodies targeting a highly conserved region in the hemagglutinin (HA) stem protect against influenza infection. Here, we investigate the protective efficacy of a protein (HB36.6) computationally designed to bind with high affinity to the same region in the HA stem. We show that intranasal delivery of HB36.6 affords protection in mice lethally challenged with diverse strains of influenza independent of Fc-mediated effector functions or a host antiviral immune response. This designed protein prevents infection when given as a single dose of 6.0 mg/kg up to 48 hours before viral challenge and significantly reduces disease when administered as a daily therapeutic after challenge. A single dose of 10.0 mg/kg HB36.6 administered 1-day post-challenge resulted in substantially better protection than 10 doses of oseltamivir administered twice daily for 5 days. Thus, binding of HB36.6 to the influenza HA stem region alone, independent of a host response, is sufficient to reduce viral infection and replication in vivo. These studies demonstrate the potential of computationally designed binding proteins as a new class of antivirals for influenza. Public Library of Science 2016-02-04 /pmc/articles/PMC4742065/ /pubmed/26845438 http://dx.doi.org/10.1371/journal.ppat.1005409 Text en © 2016 Koday et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Koday, Merika Treants
Nelson, Jorgen
Chevalier, Aaron
Koday, Michael
Kalinoski, Hannah
Stewart, Lance
Carter, Lauren
Nieusma, Travis
Lee, Peter S.
Ward, Andrew B.
Wilson, Ian A.
Dagley, Ashley
Smee, Donald F.
Baker, David
Fuller, Deborah Heydenburg
A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title_full A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title_fullStr A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title_full_unstemmed A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title_short A Computationally Designed Hemagglutinin Stem-Binding Protein Provides In Vivo Protection from Influenza Independent of a Host Immune Response
title_sort computationally designed hemagglutinin stem-binding protein provides in vivo protection from influenza independent of a host immune response
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4742065/
https://www.ncbi.nlm.nih.gov/pubmed/26845438
http://dx.doi.org/10.1371/journal.ppat.1005409
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