Filamentous anti-influenza agents wrapping around viruses

[Display omitted] Owing to the emerging resistance to current anti-influenza therapies, strategies for blocking virus–cell interaction with agents that mimic interactions with host cell receptors are garnering interest. In this context, a multivalent presentation of sialyl groups on various types of...

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Published inJournal of colloid and interface science Vol. 583; pp. 267 - 278
Main Authors Chung, Jinhyo, Jung, Younghun, Hong, Caleb, Kim, Subin, Moon, Seokoh, Kwak, Eun A., Hwang, Beom Jeung, Park, Seong-Hyun, Seong, Baik Lin, Kweon, Dae-Hyuk, Chung, Woo-Jae
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.02.2021
Subjects
Anti-influenza agents
Entry blockers
Filamentous bacteriophage
Influenza A viruses
Multivalent effect
Sialyllactose
Filamentous bacteriophage
Sialyllactose
Entry blockers
Influenza A viruses
Multivalent effect
Anti-influenza agents
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Abstract [Display omitted] Owing to the emerging resistance to current anti-influenza therapies, strategies for blocking virus–cell interaction with agents that mimic interactions with host cell receptors are garnering interest. In this context, a multivalent presentation of sialyl groups on various types of scaffold materials such as dendrimers, liposomes, nanoparticles, and natural/synthetic polymers has been investigated for the inhibition of influenza A virus infection. However, the development of versatile antiviral agents based on monodisperse scaffolds capable of precise molecular design remains challenging. Whether an anisotropically extended filamentous nanostructure can serve as an effective scaffold for maximum inhibition of viral cell attachment has not been investigated. In this study, the preparation of a series of sialyllactose-conjugated filamentous bacteriophages (SLPhages), with controlled loading levels, ligand valencies, and two types of sialyllactose (α2,3′ and α2,6′), is demonstrated. With optimal ligand loading and valency, SLPhages showed inhibitory activity (in vitro) against influenza A viruses at concentrations of tens of picomolar. This remarkable inhibition is due to the strong interaction between the SLPhage and the virus; this interaction is adequately potent to compensate for the cost of the bending and wrapping of the SLPhage around the influenza virus. Our study may open new avenues for the development of filamentous anti-viral agents, in which virus-wrapping or aggregation is the primary feature responsible for the blocking of cell entry.
AbstractList [Display omitted] Owing to the emerging resistance to current anti-influenza therapies, strategies for blocking virus–cell interaction with agents that mimic interactions with host cell receptors are garnering interest. In this context, a multivalent presentation of sialyl groups on various types of scaffold materials such as dendrimers, liposomes, nanoparticles, and natural/synthetic polymers has been investigated for the inhibition of influenza A virus infection. However, the development of versatile antiviral agents based on monodisperse scaffolds capable of precise molecular design remains challenging. Whether an anisotropically extended filamentous nanostructure can serve as an effective scaffold for maximum inhibition of viral cell attachment has not been investigated. In this study, the preparation of a series of sialyllactose-conjugated filamentous bacteriophages (SLPhages), with controlled loading levels, ligand valencies, and two types of sialyllactose (α2,3′ and α2,6′), is demonstrated. With optimal ligand loading and valency, SLPhages showed inhibitory activity (in vitro) against influenza A viruses at concentrations of tens of picomolar. This remarkable inhibition is due to the strong interaction between the SLPhage and the virus; this interaction is adequately potent to compensate for the cost of the bending and wrapping of the SLPhage around the influenza virus. Our study may open new avenues for the development of filamentous anti-viral agents, in which virus-wrapping or aggregation is the primary feature responsible for the blocking of cell entry.
Author Hong, Caleb
Park, Seong-Hyun
Chung, Woo-Jae
Hwang, Beom Jeung
Chung, Jinhyo
Moon, Seokoh
Kweon, Dae-Hyuk
Jung, Younghun
Seong, Baik Lin
Kim, Subin
Kwak, Eun A.
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  organization: Department of Integrative Biotechnology, Sungkyunkwan University, Suwon 16419, Republic of Korea
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Sialyllactose
Entry blockers
Influenza A viruses
Multivalent effect
Anti-influenza agents
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Snippet [Display omitted] Owing to the emerging resistance to current anti-influenza therapies, strategies for blocking virus–cell interaction with agents that mimic...
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SubjectTerms Anti-influenza agents
Entry blockers
Filamentous bacteriophage
Influenza A viruses
Multivalent effect
Sialyllactose
Title Filamentous anti-influenza agents wrapping around viruses
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