Smita Raghava scite author profile

Nonenveloped viruses are generally released by the timely lysis of the host cell by a poorly understood process. For the nonenveloped virus SV40, virions assemble in the nucleus and then must be released from the host cell without being encapsulated by cellular membranes. This process appears to involve the well-controlled insertion of viral proteins into host cellular membranes rendering them permeable to large molecules. VP4 is a newly identified SV40 gene product that is expressed at late times during the viral life cycle that corresponds to the time of cell lysis. To investigate the role of this late expressed protein in viral release, water-soluble VP4 was expressed and purified as a GST fusion protein from bacteria. Purified VP4 was found to efficiently bind biological membranes and support their disruption. VP4 perforated membranes by directly interacting with the membrane bilayer as demonstrated by flotation assays and the release of fluorescent markers encapsulated into large unilamellar vesicles or liposomes. The central hydrophobic domain of VP4 was essential for membrane binding and disruption. VP4 displayed a preference for membranes comprised of lipids that replicated the composition of the plasma membranes over that of nuclear membranes. Phosphatidylethanolamine, a lipid found at high levels in bacterial membranes, was inhibitory against the membrane perforation activity of VP4. The disruption of membranes by VP4 involved the formation of pores of ∼3 nm inner diameter in mammalian cells including permissive SV40 host cells. Altogether, these results support a central role of VP4 acting as a viroporin in the perforation of cellular membranes to trigger SV40 viral release.

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The Simian Virus 40 Late Viral Protein VP4 Disrupts the Nuclear Envelope for Viral Release

Giorda

Raghava

Hebert

2012

J Virol

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Simian virus 40 (SV40) appears to initiate cell lysis by expressing the late viral protein VP4 at the end of infection to aid in virus dissemination. To investigate the contribution of VP4 to cell lysis, VP4 was expressed in mammalian cells where it was predominantly observed along the nuclear periphery. The integrity of the nuclear envelope was compromised in these cells, resulting in the mislocalization of a soluble nuclear marker. Using assays that involved the cellular expression of VP4 or the treatment of cells with purified VP4, we found that the central hydrophobic domain and a proximal C-terminal nuclear localization signal of VP4 were required for (i) cytolysis associated with prolonged expression; (ii) nuclear envelope accumulation; and (iii) disruption of the nuclear, red blood cell, or host cell membranes. Furthermore, a conserved proline within the hydrophobic domain was required for membrane perforation, suggesting that this residue was crucial for VP4 cytolytic activity. These results indicate that VP4 forms pores in the nuclear membrane leading to lysis and virus release.

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The Viroporin Activity of the Minor Structural Proteins VP2 and VP3 Is Required for SV40 Propagation

Giorda

Raghava

Zhang

et al. 2013

Journal of Biological Chemistry

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Background: Viruses must interact with membranes to access host cell machinery for replication. Results: SV40 VP2 and VP3 are shown to form pores in membranes and pore formation is required for viral propagation. Conclusion: VP2 and VP3 act as viral-encoded membrane pore forming proteins or viroporins. Significance: These versatile proteins have evolved to function as both soluble and membrane proteins to support viral propagation.

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SV40 Late Protein VP4 Forms Toroidal Pores To Disrupt Membranes for Viral Release

et al. 2013

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Nonenveloped viruses are generally released from the cell by the timely lysis of host cell membranes. SV40 has been used as a model virus for the study of the lytic nonenveloped virus life cycle. The expression of SV40 VP4 at later times during infection is concomitant with cell lysis. To investigate the role of VP4 in viral release and its mechanism of action, VP4 was expressed and purified from bacteria as a fusion protein for use in membrane disruption assays. Purified VP4 perforated membranes as demonstrated by the release of fluorescent markers encapsulated within large unilamellar vesicles or liposomes. Dynamic light scattering results found that VP4 treatment did not cause membrane lysis or change the size of the liposomes. Liposomes encapsulated with bodipy-labeled streptavidin were used to show that VP4 formed stable pores in membranes. These VP4 pores had an inner diameter of between 1 and 5 nm. Asymmetrical liposomes containing pyrene-labeled lipids in the outer monolayer were employed to monitor transbilayer lipid diffusion. Consistent with VP4 forming toroidal pore structures in membranes, VP4 induced transbilayer lipid diffusion or lipid flip-flop. Altogether, these studies support a central role for VP4 acting as a viroporin in the disruption of cellular membranes to trigger SV40 viral release by forming toroidal pores that unite the outer and inner leaflets of membrane bilayers.

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Nanoparticles of unmodified titanium dioxide facilitate protein refolding

et al. 2009

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Smita Raghava

The SV40 Late Protein VP4 Is a Viroporin that Forms Pores to Disrupt Membranes for Viral Release

The Simian Virus 40 Late Viral Protein VP4 Disrupts the Nuclear Envelope for Viral Release

The Viroporin Activity of the Minor Structural Proteins VP2 and VP3 Is Required for SV40 Propagation

SV40 Late Protein VP4 Forms Toroidal Pores To Disrupt Membranes for Viral Release

Nanoparticles of unmodified titanium dioxide facilitate protein refolding

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