Your search keyword '"Porta, Claudine"' showing total 4 results

1. Identification of a Fab interaction footprint site on an icosahedral virus by cryoelectron microscopy and X-ray crystallography

Author

Wang, Guoji, Porta, Claudine, Chen, Zhongguo, Baker, Timothy S, and Johnson, John E

Subjects

Bioengineering, Antibodies, Monoclonal, Binding Sites, Antibody, Enzyme-Linked Immunosorbent Assay, Immunoglobulin Fab Fragments, Microscopy, Immunoelectron, Models, Molecular, Mosaic Viruses, Virion, X-Ray Diffraction, General Science & Technology

Abstract

Biological processes frequently require the formation of multi-protein or nucleoprotein complexes. Some of these complexes have been produced in homogeneous form, crystallized, and analysed at high resolution by X-ray crystallography (for example, see refs 1-3). Most, however, are too large or too unstable to crystallize. Individual components of such complexes can often be purified and analysed by crystallography. Here we report how the coordinated application of cryoelectron microscopy, three-dimensional image reconstruction, and X-ray crystallography provides a powerful approach to study large, unstable macromolecular complexes. Three-dimensional reconstructions of native cowpea mosaic virus (CMPV) and a complex of CPMV saturated with a Fab fragment of a monoclonal antibody against the virus have been determined at 23 A resolution from low-irradiation images of unstained, frozen-hydrated samples. Despite the nominal resolution of the complex, the physical footprint of the Fab on the capsid surface and the orientation and position of the Fab have been determined to within a few ångstroms by fitting atomic models of CPMV4 and Fab (Kol)5 to reconstructed density maps.

Published

1992

2. A conserved glutathione binding site in poliovirus is a target for antivirals and vaccine stabilisation

Author

Bahar, Mohammad W, Nasta, Veronica, Fox, Helen, Sherry, Lee, Grehan, Keith, Porta, Claudine, Macadam, Andrew J, Stonehouse, Nicola J, Rowlands, David J, Fry, Elizabeth E, Stuart, David I, Bahar, Mohammad W [0000-0002-2350-2682], Sherry, Lee [0000-0002-4367-772X], Grehan, Keith [0000-0003-3976-756X], Macadam, Andrew J [0000-0002-8687-1573], Stonehouse, Nicola J [0000-0003-1146-5519], Rowlands, David J [0000-0002-4742-9272], Fry, Elizabeth E [0000-0001-9754-5303], Stuart, David I [0000-0002-3426-4210], and Apollo - University of Cambridge Repository

Subjects

Poliovirus, Sulfonamides, Binding Sites, Medicine (miscellaneous), Benzene, Vaccines, Virus-Like Particle, General Agricultural and Biological Sciences, Antiviral Agents, Antigens, Viral, Glutathione, General Biochemistry, Genetics and Molecular Biology, Enterovirus

Abstract

Strategies to prevent the recurrence of poliovirus (PV) after eradication may utilise non-infectious, recombinant virus-like particle (VLP) vaccines. Despite clear advantages over inactivated or attenuated virus vaccines, instability of VLPs can compromise their immunogenicity. Glutathione (GSH), an important cellular reducing agent, is a crucial co-factor for the morphogenesis of enteroviruses, including PV. We report cryo-EM structures of GSH bound to PV serotype 3 VLPs showing that it can enhance particle stability. GSH binds the positively charged pocket at the interprotomer interface shown recently to bind GSH in enterovirus F3 and putative antiviral benzene sulphonamide compounds in other enteroviruses. We show, using high-resolution cryo-EM, the binding of a benzene sulphonamide compound with a PV serotype 2 VLP, consistent with antiviral activity through over-stabilizing the interprotomer pocket, preventing the capsid rearrangements necessary for viral infection. Collectively, these results suggest GSH or an analogous tight-binding antiviral offers the potential for stabilizing VLP vaccines.

Published

2022

3. A conserved glutathione binding site in poliovirus is a target for antivirals and vaccine stabilisation.

Author

Bahar, Mohammad W., Nasta, Veronica, Fox, Helen, Sherry, Lee, Grehan, Keith, Porta, Claudine, Macadam, Andrew J., Stonehouse, Nicola J., Rowlands, David J., Fry, Elizabeth E., and Stuart, David I.

Subjects

POLIOVIRUS, BINDING sites, VIRUS-like particles, GLUTATHIONE, BENZENE compounds, VIRAL vaccines, ANTIVIRAL agents

Abstract

Strategies to prevent the recurrence of poliovirus (PV) after eradication may utilise non-infectious, recombinant virus-like particle (VLP) vaccines. Despite clear advantages over inactivated or attenuated virus vaccines, instability of VLPs can compromise their immunogenicity. Glutathione (GSH), an important cellular reducing agent, is a crucial co-factor for the morphogenesis of enteroviruses, including PV. We report cryo-EM structures of GSH bound to PV serotype 3 VLPs showing that it can enhance particle stability. GSH binds the positively charged pocket at the interprotomer interface shown recently to bind GSH in enterovirus F3 and putative antiviral benzene sulphonamide compounds in other enteroviruses. We show, using high-resolution cryo-EM, the binding of a benzene sulphonamide compound with a PV serotype 2 VLP, consistent with antiviral activity through over-stabilizing the interprotomer pocket, preventing the capsid rearrangements necessary for viral infection. Collectively, these results suggest GSH or an analogous tight-binding antiviral offers the potential for stabilizing VLP vaccines. Cryo-EM structures reveal the role of glutathione (GSH) in poliovirus (PV) serotype 3 virus-like particle (VLP) stability, suggesting GSH or an analogous tight-binding antiviral offers potential for stabilizing VLP vaccines against PV. [ABSTRACT FROM AUTHOR]

Published

2022

4. Publisher Correction: A conserved glutathione binding site in poliovirus is a target for antivirals and vaccine stabilisation.

Author

Bahar, Mohammad W., Nasta, Veronica, Fox, Helen, Sherry, Lee, Grehan, Keith, Porta, Claudine, Macadam, Andrew J., Stonehouse, Nicola J., Rowlands, David J., Fry, Elizabeth E., and Stuart, David I.

Subjects

BINDING sites, POLIOVIRUS, GLUTATHIONE, VACCINES

Published

2022