High Throughput Screening Targeting the Dengue NS3-NS5 Interface Identifies Antivirals against Dengue, Zika and West Nile Viruses

Sundy N.Y. Yang; Belinda Maher; Chunxiao Wang; Kylie M. Wagstaff; Johanna E. Fraser; David A. Jans

doi:10.3390/cells11040730

High Throughput Screening Targeting the Dengue NS3-NS5 Interface Identifies Antivirals against Dengue, Zika and West Nile Viruses

Sundy N.Y. Yang, Belinda Maher, Chunxiao Wang, Kylie M. Wagstaff, Johanna E. Fraser, David A. Jans

Research output: Contribution to journal › Article › Research › peer-review

18 Citations (Scopus)

Abstract

Dengue virus (DENV) threatens almost 70% of the world’s population, with no effective therapeutic currently available and controversy surrounding the one approved vaccine. A key factor in dengue viral replication is the interaction between DENV nonstructural proteins (NS) 5 and 3 (NS3) in the infected cell. Here, we perform a proof-of-principle high-throughput screen to identify compounds targeting the NS5-NS3 binding interface. We use a range of approaches to show for the first time that two small molecules–repurposed drugs I-OMe tyrphostin AG538 (I-OMe-AG238) and suramin hexasodium (SHS)–inhibit NS5-NS3 binding at low µM concentration through direct binding to NS5 that impacts thermostability. Importantly, both have strong antiviral activity at low µM concentrations against not only DENV-2, but also Zika virus (ZIKV) and West Nile virus (WNV). This work highlights the NS5-NS3 binding interface as a viable target for the development of anti-flaviviral therapeutics.

Original language	English
Article number	730
Number of pages	11
Journal	Cells
Volume	11
Issue number	4
DOIs	https://doi.org/10.3390/cells11040730
Publication status	Published - 2 Feb 2022

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Dengue virus
Flavivirus
Importins
Non-structural protein 5 inhibitors
Viral infection
West Nile virus
Zika virus

Access to Document

10.3390/cells11040730Licence: CC BY

Cite this

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title = "High Throughput Screening Targeting the Dengue NS3-NS5 Interface Identifies Antivirals against Dengue, Zika and West Nile Viruses",

abstract = "Dengue virus (DENV) threatens almost 70\% of the world{\textquoteright}s population, with no effective therapeutic currently available and controversy surrounding the one approved vaccine. A key factor in dengue viral replication is the interaction between DENV nonstructural proteins (NS) 5 and 3 (NS3) in the infected cell. Here, we perform a proof-of-principle high-throughput screen to identify compounds targeting the NS5-NS3 binding interface. We use a range of approaches to show for the first time that two small molecules–repurposed drugs I-OMe tyrphostin AG538 (I-OMe-AG238) and suramin hexasodium (SHS)–inhibit NS5-NS3 binding at low µM concentration through direct binding to NS5 that impacts thermostability. Importantly, both have strong antiviral activity at low µM concentrations against not only DENV-2, but also Zika virus (ZIKV) and West Nile virus (WNV). This work highlights the NS5-NS3 binding interface as a viable target for the development of anti-flaviviral therapeutics.",

keywords = "Dengue virus, Flavivirus, Importins, Non-structural protein 5 inhibitors, Viral infection, West Nile virus, Zika virus",

author = "Yang, \{Sundy N.Y.\} and Belinda Maher and Chunxiao Wang and Wagstaff, \{Kylie M.\} and Fraser, \{Johanna E.\} and Jans, \{David A.\}",

note = "Funding Information: Funding: The authors acknowledge the financial support of the National Health and Medical Research Council Australia (Senior Principal Research Fellowship APP1002486/APP1103050; Project grant APP1043511; Development grant APP1117470) and Australian Research Council (Future Fellowship \#110100223). Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

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doi = "10.3390/cells11040730",

language = "English",

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journal = "Cells",

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AU - Yang, Sundy N.Y.

AU - Maher, Belinda

AU - Wang, Chunxiao

AU - Wagstaff, Kylie M.

AU - Fraser, Johanna E.

AU - Jans, David A.

N1 - Funding Information: Funding: The authors acknowledge the financial support of the National Health and Medical Research Council Australia (Senior Principal Research Fellowship APP1002486/APP1103050; Project grant APP1043511; Development grant APP1117470) and Australian Research Council (Future Fellowship #110100223). Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

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N2 - Dengue virus (DENV) threatens almost 70% of the world’s population, with no effective therapeutic currently available and controversy surrounding the one approved vaccine. A key factor in dengue viral replication is the interaction between DENV nonstructural proteins (NS) 5 and 3 (NS3) in the infected cell. Here, we perform a proof-of-principle high-throughput screen to identify compounds targeting the NS5-NS3 binding interface. We use a range of approaches to show for the first time that two small molecules–repurposed drugs I-OMe tyrphostin AG538 (I-OMe-AG238) and suramin hexasodium (SHS)–inhibit NS5-NS3 binding at low µM concentration through direct binding to NS5 that impacts thermostability. Importantly, both have strong antiviral activity at low µM concentrations against not only DENV-2, but also Zika virus (ZIKV) and West Nile virus (WNV). This work highlights the NS5-NS3 binding interface as a viable target for the development of anti-flaviviral therapeutics.

AB - Dengue virus (DENV) threatens almost 70% of the world’s population, with no effective therapeutic currently available and controversy surrounding the one approved vaccine. A key factor in dengue viral replication is the interaction between DENV nonstructural proteins (NS) 5 and 3 (NS3) in the infected cell. Here, we perform a proof-of-principle high-throughput screen to identify compounds targeting the NS5-NS3 binding interface. We use a range of approaches to show for the first time that two small molecules–repurposed drugs I-OMe tyrphostin AG538 (I-OMe-AG238) and suramin hexasodium (SHS)–inhibit NS5-NS3 binding at low µM concentration through direct binding to NS5 that impacts thermostability. Importantly, both have strong antiviral activity at low µM concentrations against not only DENV-2, but also Zika virus (ZIKV) and West Nile virus (WNV). This work highlights the NS5-NS3 binding interface as a viable target for the development of anti-flaviviral therapeutics.

KW - Dengue virus

KW - Flavivirus

KW - Importins

KW - Non-structural protein 5 inhibitors

KW - Viral infection

KW - West Nile virus

KW - Zika virus

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High Throughput Screening Targeting the Dengue NS3-NS5 Interface Identifies Antivirals against Dengue, Zika and West Nile Viruses

Abstract

UN SDGs

Keywords

Access to Document

Other files and links

A Safe, Orally Administered Agent for Dengue

Respiratory Syncytial Virus Matrix Protein-Host Protein Interactions as Targets for Therapeutics

NHMRC Research Fellowship

Cite this

High Throughput Screening Targeting the Dengue NS3-NS5 Interface Identifies Antivirals against Dengue, Zika and West Nile Viruses

Abstract

UN SDGs

Keywords

Access to Document

Other files and links

Projects

A Safe, Orally Administered Agent for Dengue

Respiratory Syncytial Virus Matrix Protein-Host Protein Interactions as Targets for Therapeutics

NHMRC Research Fellowship

Cite this