Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size
An amphipathic α-helical (AH) peptide was recently discovered that can rupture the lipid envelope of many viruses including HIV, hepatitis C, dengue, and herpes simplex. Despite its broad-spectrum activity, the AH peptide specifically targets small viruses only and does not affect large viruses. Ind...
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sg-ntu-dr.10356-810342020-06-01T10:21:27Z Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size Zan, Goh Haw Zhdanov, Vladimir P. Cho, Nam-Joon Jackman, Joshua Alexander School of Chemical and Biomedical Engineering School of Materials Science & Engineering Centre for Biomimetic Sensor Science Materials Science and Engineering Chemical and Biomedical Engineering An amphipathic α-helical (AH) peptide was recently discovered that can rupture the lipid envelope of many viruses including HIV, hepatitis C, dengue, and herpes simplex. Despite its broad-spectrum activity, the AH peptide specifically targets small viruses only and does not affect large viruses. Indirect observations of virus size-specific targeting have been confirmed in a model system comprised of intact lipid vesicles on a gold substrate. Depending on vesicle size, AH peptide can promote vesicle rupture, but the mechanism by which vesicle size influences the rupture process remains to be elucidated. Herein, using the dynamic light scattering and quartz crystal microbalance with dissipation techniques, we have combined experiment and theory to understand the effects of vesicle size on the interaction between the AH peptide and vesicles. We identified that the AH peptide-binding interaction can induce a structural rearrangement of the vesicle’s lipid bilayer, which occurs independently of vesicle size. Kinetic analysis also revealed that AH peptide-binding occurs cooperatively for small vesicles only. Binding cooperativity is consistent with pore formation leading to vesicle rupture. By contrast, for large vesicles, AH peptide-binding is noncooperative and does not cause vesicle rupture, suggesting that the binding interaction occurs via a different mechanism. Compared to previous estimates that AH peptide is most effective against viruses with a diameter of less than 70 nm, our evidence validates that AH peptide may target a wider size range of enveloped viruses up to 160 nm in diameter. Taken together, our findings provide a quantitative rationale to understand the targeting specificity of AH peptide as a broad-spectrum antiviral drug candidate. NRF (Natl Research Foundation, S’pore) NMRC (Natl Medical Research Council, S’pore) 2016-06-09T04:34:45Z 2019-12-06T14:19:59Z 2016-06-09T04:34:45Z 2019-12-06T14:19:59Z 2013 Journal Article Jackman, J. A., Zan, G. H., Zhdanov, V. P., & Cho, N.-J. (2013). Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size. The Journal of Physical Chemistry B, 117(50), 16117-16128. 1520-6106 https://hdl.handle.net/10356/81034 http://hdl.handle.net/10220/40641 10.1021/jp409716p en The Journal of Physical Chemistry B © 2013 American Chemical Society |
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Materials Science and Engineering Chemical and Biomedical Engineering Zan, Goh Haw Zhdanov, Vladimir P. Cho, Nam-Joon Jackman, Joshua Alexander Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
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An amphipathic α-helical (AH) peptide was recently discovered that can rupture the lipid envelope of many viruses including HIV, hepatitis C, dengue, and herpes simplex. Despite its broad-spectrum activity, the AH peptide specifically targets small viruses only and does not affect large viruses. Indirect observations of virus size-specific targeting have been confirmed in a model system comprised of intact lipid vesicles on a gold substrate. Depending on vesicle size, AH peptide can promote vesicle rupture, but the mechanism by which vesicle size influences the rupture process remains to be elucidated. Herein, using the dynamic light scattering and quartz crystal microbalance with dissipation techniques, we have combined experiment and theory to understand the effects of vesicle size on the interaction between the AH peptide and vesicles. We identified that the AH peptide-binding interaction can induce a structural rearrangement of the vesicle’s lipid bilayer, which occurs independently of vesicle size. Kinetic analysis also revealed that AH peptide-binding occurs cooperatively for small vesicles only. Binding cooperativity is consistent with pore formation leading to vesicle rupture. By contrast, for large vesicles, AH peptide-binding is noncooperative and does not cause vesicle rupture, suggesting that the binding interaction occurs via a different mechanism. Compared to previous estimates that AH peptide is most effective against viruses with a diameter of less than 70 nm, our evidence validates that AH peptide may target a wider size range of enveloped viruses up to 160 nm in diameter. Taken together, our findings provide a quantitative rationale to understand the targeting specificity of AH peptide as a broad-spectrum antiviral drug candidate. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Zan, Goh Haw Zhdanov, Vladimir P. Cho, Nam-Joon Jackman, Joshua Alexander |
format |
Article |
author |
Zan, Goh Haw Zhdanov, Vladimir P. Cho, Nam-Joon Jackman, Joshua Alexander |
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Zan, Goh Haw |
title |
Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
title_short |
Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
title_full |
Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
title_fullStr |
Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
title_full_unstemmed |
Rupture of Lipid Vesicles by a Broad-Spectrum Antiviral Peptide: Influence of Vesicle Size |
title_sort |
rupture of lipid vesicles by a broad-spectrum antiviral peptide: influence of vesicle size |
publishDate |
2016 |
url |
https://hdl.handle.net/10356/81034 http://hdl.handle.net/10220/40641 |
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1681058040520900608 |