Macromolecular Viral Entry Inhibitors as Broad‐Spectrum First‐Line Antivirals with Activity against SARS‐CoV‐2

Rüdiger Groß; Lívia Mesquita Dias Loiola; Leila Issmail; Nadja Uhlig; Valentina Eberlein; Carina Conzelmann; Lia‐Raluca Olari; Lena Rauch; Jan Lawrenz; Tatjana Weil; Janis A. Müller; Mateus Borba Cardoso; Andrea Gilg; Olivia Larsson; Urban Höglund; Sandra Axberg Pålsson; Anna Selch Tvilum; Kaja Borup Løvschall; Maria M. Kristensen; Anna‐Lena Spetz; Fortune Hontonnou; Marie Galloux; Thomas Grunwald; Alexander N. Zelikin; Jan Münch

doi:10.1002/advs.202201378

Advanced Science (Jul 2022)

Macromolecular Viral Entry Inhibitors as Broad‐Spectrum First‐Line Antivirals with Activity against SARS‐CoV‐2

Rüdiger Groß,
Lívia Mesquita Dias Loiola,
Leila Issmail,
Nadja Uhlig,
Valentina Eberlein,
Carina Conzelmann,
Lia‐Raluca Olari,
Lena Rauch,
Jan Lawrenz,
Tatjana Weil,
Janis A. Müller,
Mateus Borba Cardoso,
Andrea Gilg,
Olivia Larsson,
Urban Höglund,
Sandra Axberg Pålsson,
Anna Selch Tvilum,
Kaja Borup Løvschall,
Maria M. Kristensen,
Anna‐Lena Spetz,
Fortune Hontonnou,
Marie Galloux,
Thomas Grunwald,
Alexander N. Zelikin,
Jan Münch

Affiliations

Rüdiger Groß: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Lívia Mesquita Dias Loiola: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Leila Issmail: Fraunhofer Institute for Cell Therapy and Immunology IZI Leipzig 04103 Germany
Nadja Uhlig: Fraunhofer Institute for Cell Therapy and Immunology IZI Leipzig 04103 Germany
Valentina Eberlein: Fraunhofer Institute for Cell Therapy and Immunology IZI Leipzig 04103 Germany
Carina Conzelmann: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Lia‐Raluca Olari: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Lena Rauch: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Jan Lawrenz: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Tatjana Weil: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Janis A. Müller: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Mateus Borba Cardoso: Brazilian Synchrotron Light Laboratory Brazilian Center for Research in Energy and Materials Campinas São Paulo 13083‐970 Brazil
Andrea Gilg: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany
Olivia Larsson: Adlego Biomedical AB Solna 171 65 Sweden
Urban Höglund: Adlego Biomedical AB Solna 171 65 Sweden
Sandra Axberg Pålsson: Department of Molecular Biosciences The Wenner‐Gren Institute Stockholm University Stockholm 10691 Sweden
Anna Selch Tvilum: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Kaja Borup Løvschall: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Maria M. Kristensen: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Anna‐Lena Spetz: Department of Molecular Biosciences The Wenner‐Gren Institute Stockholm University Stockholm 10691 Sweden
Fortune Hontonnou: Université Paris‐Saclay INRAE, UVSQ, VIM Jouy‐en‐Josas 78352 France
Marie Galloux: Université Paris‐Saclay INRAE, UVSQ, VIM Jouy‐en‐Josas 78352 France
Thomas Grunwald: Fraunhofer Institute for Cell Therapy and Immunology IZI Leipzig 04103 Germany
Alexander N. Zelikin: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Jan Münch: Institute of Molecular Virology Ulm University Medical Center Ulm 89081 Germany

DOI: https://doi.org/10.1002/advs.202201378
Journal volume & issue: Vol. 9, no. 20
pp. n/a – n/a

Abstract

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Abstract Inhibitors of viral cell entry based on poly(styrene sulfonate) and its core–shell nanoformulations based on gold nanoparticles are investigated against a panel of viruses, including clinical isolates of SARS‐CoV‐2. Macromolecular inhibitors are shown to exhibit the highly sought‐after broad‐spectrum antiviral activity, which covers most analyzed enveloped viruses and all of the variants of concern for SARS‐CoV‐2 tested. The inhibitory activity is quantified in vitro in appropriate cell culture models and for respiratory viral pathogens (respiratory syncytial virus and SARS‐CoV‐2) in mice. Results of this study comprise a significant step along the translational path of macromolecular inhibitors of virus cell entry, specifically against enveloped respiratory viruses.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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