Cardiac glycosides inhibit early and late vaccinia virus protein expression

Jerzy Samolej; Ian J White; Blair L Strang; Jason Mercer

doi:10.1099/jgv.0.001971

Cardiac glycosides inhibit early and late vaccinia virus protein expression

Jerzy Samolej, Ian J White, Blair L Strang^*, Jason Mercer^*

^*Corresponding author for this work

Biosciences

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Abstract

Cardiac glycosides (CGs) are natural steroid glycosides, which act as inhibitors of the cellular sodium-potassium ATPase pump. Although traditionally considered toxic to human cells, CGs are widely used as drugs for the treatment of cardiovascular-related medical conditions. More recently, CGs have been explored as potential anti-viral drugs and inhibit replication of a range of RNA and DNA viruses. Previously, a compound screen identified CGs that inhibited vaccinia virus (VACV) infection. However, no further investigation of the inhibitory potential of these compounds was performed, nor was there investigation of the stage(s) of the poxvirus lifecycle they impacted. Here, we investigated the anti-poxvirus activity of a broad panel of CGs. We found that all CGs tested were potent inhibitors of VACV replication. Our virological experiments showed that CGs did not impact virus infectivity, binding, or entry. Rather, experiments using recombinant viruses expressing reporter proteins controlled by VACV promoters and arabinoside release assays demonstrated that CGs inhibited early and late VACV protein expression at different concentrations. Lack of virus assembly in the presence of CGs was confirmed using electron microscopy. Thus, we expand our understanding of compounds with anti-poxvirus activity and highlight a yet unrecognized mechanism by which poxvirus replication can be inhibited.

Original language	English
Article number	001971
Journal	Journal of General Virology
Volume	105
Issue number	3
DOIs	https://doi.org/10.1099/jgv.0.001971
Publication status	Published - 28 Mar 2024

Bibliographical note

Funding information
This work was supported by St George’s, University of London (BLS), the MRC (MC_UU_00012/7) (JM), core funding to the Laboratory for Molecular Cell Biology (LMCB) at University College London (MC_U12266B) (IJW), and the BBSRC- funded mpox rapid response grant BB/X011607/1 (JM). The funders had no role in data collection, interpretation or the decision to submit the work for publication.

Keywords

Humans
Vaccinia virus/genetics
Cardiac Glycosides/pharmacology
Vaccinia
Poxviridae
Virus Replication

UN SDGs

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

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SamolejJ2024CardiacFinal published version, 11.4 MBLicence: Creative Commons: Attribution (CC BY)

Cite this

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title = "Cardiac glycosides inhibit early and late vaccinia virus protein expression",

abstract = "Cardiac glycosides (CGs) are natural steroid glycosides, which act as inhibitors of the cellular sodium-potassium ATPase pump. Although traditionally considered toxic to human cells, CGs are widely used as drugs for the treatment of cardiovascular-related medical conditions. More recently, CGs have been explored as potential anti-viral drugs and inhibit replication of a range of RNA and DNA viruses. Previously, a compound screen identified CGs that inhibited vaccinia virus (VACV) infection. However, no further investigation of the inhibitory potential of these compounds was performed, nor was there investigation of the stage(s) of the poxvirus lifecycle they impacted. Here, we investigated the anti-poxvirus activity of a broad panel of CGs. We found that all CGs tested were potent inhibitors of VACV replication. Our virological experiments showed that CGs did not impact virus infectivity, binding, or entry. Rather, experiments using recombinant viruses expressing reporter proteins controlled by VACV promoters and arabinoside release assays demonstrated that CGs inhibited early and late VACV protein expression at different concentrations. Lack of virus assembly in the presence of CGs was confirmed using electron microscopy. Thus, we expand our understanding of compounds with anti-poxvirus activity and highlight a yet unrecognized mechanism by which poxvirus replication can be inhibited.",

keywords = "Humans, Vaccinia virus/genetics, Cardiac Glycosides/pharmacology, Vaccinia, Poxviridae, Virus Replication",

author = "Jerzy Samolej and White, {Ian J} and Strang, {Blair L} and Jason Mercer",

note = "Funding information This work was supported by St George{\textquoteright}s, University of London (BLS), the MRC (MC_UU_00012/7) (JM), core funding to the Laboratory for Molecular Cell Biology (LMCB) at University College London (MC_U12266B) (IJW), and the BBSRC- funded mpox rapid response grant BB/X011607/1 (JM). The funders had no role in data collection, interpretation or the decision to submit the work for publication.",

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doi = "10.1099/jgv.0.001971",

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AU - White, Ian J

AU - Strang, Blair L

AU - Mercer, Jason

N1 - Funding information This work was supported by St George’s, University of London (BLS), the MRC (MC_UU_00012/7) (JM), core funding to the Laboratory for Molecular Cell Biology (LMCB) at University College London (MC_U12266B) (IJW), and the BBSRC- funded mpox rapid response grant BB/X011607/1 (JM). The funders had no role in data collection, interpretation or the decision to submit the work for publication.

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N2 - Cardiac glycosides (CGs) are natural steroid glycosides, which act as inhibitors of the cellular sodium-potassium ATPase pump. Although traditionally considered toxic to human cells, CGs are widely used as drugs for the treatment of cardiovascular-related medical conditions. More recently, CGs have been explored as potential anti-viral drugs and inhibit replication of a range of RNA and DNA viruses. Previously, a compound screen identified CGs that inhibited vaccinia virus (VACV) infection. However, no further investigation of the inhibitory potential of these compounds was performed, nor was there investigation of the stage(s) of the poxvirus lifecycle they impacted. Here, we investigated the anti-poxvirus activity of a broad panel of CGs. We found that all CGs tested were potent inhibitors of VACV replication. Our virological experiments showed that CGs did not impact virus infectivity, binding, or entry. Rather, experiments using recombinant viruses expressing reporter proteins controlled by VACV promoters and arabinoside release assays demonstrated that CGs inhibited early and late VACV protein expression at different concentrations. Lack of virus assembly in the presence of CGs was confirmed using electron microscopy. Thus, we expand our understanding of compounds with anti-poxvirus activity and highlight a yet unrecognized mechanism by which poxvirus replication can be inhibited.

AB - Cardiac glycosides (CGs) are natural steroid glycosides, which act as inhibitors of the cellular sodium-potassium ATPase pump. Although traditionally considered toxic to human cells, CGs are widely used as drugs for the treatment of cardiovascular-related medical conditions. More recently, CGs have been explored as potential anti-viral drugs and inhibit replication of a range of RNA and DNA viruses. Previously, a compound screen identified CGs that inhibited vaccinia virus (VACV) infection. However, no further investigation of the inhibitory potential of these compounds was performed, nor was there investigation of the stage(s) of the poxvirus lifecycle they impacted. Here, we investigated the anti-poxvirus activity of a broad panel of CGs. We found that all CGs tested were potent inhibitors of VACV replication. Our virological experiments showed that CGs did not impact virus infectivity, binding, or entry. Rather, experiments using recombinant viruses expressing reporter proteins controlled by VACV promoters and arabinoside release assays demonstrated that CGs inhibited early and late VACV protein expression at different concentrations. Lack of virus assembly in the presence of CGs was confirmed using electron microscopy. Thus, we expand our understanding of compounds with anti-poxvirus activity and highlight a yet unrecognized mechanism by which poxvirus replication can be inhibited.

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KW - Vaccinia virus/genetics

KW - Cardiac Glycosides/pharmacology

KW - Vaccinia

KW - Poxviridae

KW - Virus Replication

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JF - Journal of General Virology

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M1 - 001971

ER -

Cardiac glycosides inhibit early and late vaccinia virus protein expression

Abstract

Bibliographical note

Keywords

UN SDGs

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