Vesicular release of ebola virus matrix protein VP40.

J Timmins, S Scianimanico, G Schoehn, W Weissenhorn

Author Information

J Timmins: EMBL, 6 rue Jules Horowitz, 38042 Grenoble, France.

PMID: 11312656 DOI: 10.1006/viro.2001.0860

We have analysed the expression and cellular localisation of the matrix protein VP40 from Ebola virus. Full-length VP40 and an N-terminal truncated construct missing the first 31 residues [VP40(31-326)] both locate to the plasma membrane of 293T cells when expressed transiently, while a C-terminal truncation of residues 213 to 326 [VP40(31-212)] shows only expression in the cytoplasm, when analysed by indirect immunofluorescence and plasma membrane preparations. In addition, we find that full-length VP40 [VP40(1-326)] and VP40(31-326) are both released into the cell culture supernatant and float up in sucrose gradients. The efficiency of their release, however, is dependent on the presence of the N-terminal 31 residues. VP40 that is released into the supernatant is resistant to trypsin digestion, a finding that is consistent with the formation of viruslike particles detected by electron microscopy. Together, these results provide strong evidence that Ebola virus VP40 is sufficient for virus assembly and budding from the plasma membrane.

Blotting, Western

Cell Line

Cell Membrane

Centrifugation, Density Gradient

Culture Media

Ebolavirus

Fluorescent Antibody Technique

Humans

Microscopy, Electron

Nucleoproteins

Transfection

Viral Core Proteins

Culture Media

Nucleoproteins

Viral Core Proteins

nucleoprotein VP40, Ebola virus

Journal Article

Crystal structure of the matrix protein VP40 from Ebola virus.Regulation of Ebola virus VP40 matrix protein by SUMO.Association of ebola virus matrix protein VP40 with microtubules.Unconventional secretion of Ebola virus matrix protein VP40.In vivo oligomerization and raft localization of Ebola virus protein VP40 during vesicular budding.Conformational Flexibility of the Protein-Protein Interfaces of the Ebola Virus VP40 Structural Matrix Filament.The Ebola virus matrix protein VP40 hijacks the host plasma membrane to form virus envelope.Proximity proteomics identifies novel function of Rab14 in trafficking of Ebola virus matrix protein VP40.High-throughput virtual screening and docking studies of matrix protein vp40 of ebola virus.Role of phosphatidic acid lipids on plasma membrane association of the Ebola virus matrix protein VP40.

Production of novel ebola virus-like particles from cDNAs: an alternative to ebola virus generation by reverse genetics.Role for amino acids 212KLR214 of Ebola virus VP40 in assembly and budding.ISG15 inhibits Nedd4 ubiquitin E3 activity and enhances the innate antiviral response.Role of the GTPase Rab1b in ebolavirus particle formation.Characterization of filovirus protein-protein interactions in mammalian cells using bimolecular complementation.A facile quantitative assay for viral particle genesis reveals cooperativity in virion assembly and saturation of an antiviral protein.Regulation of Ebola virus VP40 matrix protein by SUMO.Functional characterization of Ebola virus L-domains using VSV recombinants.Contribution of ebola virus glycoprotein, nucleoprotein, and VP24 to budding of VP40 virus-like particles.In silico exploration of deep-sea fungal metabolites as inhibitor of Ebola and Marburg VP35 and VP40.

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