Rescue of Newcastle disease virus from cloned cDNA: evidence that cleavability of the fusion protein is a major determinant for virulence
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It is demonstrated that genetically modified NDV can be recovered from cloned cDNA and confirmed the supposition that cleavage of the F0 protein is a key determinant in virulence of NDV.Abstract:
A full-length cDNA clone of Newcastle disease virus (NDV) vaccine strain LaSota was assembled from subgenomic overlapping cDNA fragments and cloned in a transcription plasmid between the T7 RNA polymerase promoter and the autocatalytic hepatitis delta virus ribozyme. Transfection of this plasmid into cells that were infected with a recombinant fowlpoxvirus that expressed T7 RNA polymerase, resulted in the synthesis of antigenomic NDV RNA. This RNA was replicated and transcribed by the viral NP, P, and L proteins, which were expressed from cotransfected plasmids. After inoculation of the transfection supernatant into embryonated specific-pathogen-free eggs, infectious virus derived from the cloned cDNA was recovered. By introducing three nucleotide changes in the cDNA, we generated a genetically tagged derivative of the LaSota strain in which the amino acid sequence of the protease cleavage site (GGRQGR↓L) of the fusion protein F0 was changed to the consensus cleavage site of virulent NDV strains (GRRQRR↓F). Pathogenicity tests in day-old chickens showed that the strain derived from the unmodified cDNA was completely nonvirulent (intracerebral pathogenicity index [ICPI] = 0.00). However, the strain derived from the cDNA in which the protease cleavage site was modified showed a dramatic increase in virulence (ICPI = 1.28 out of a possible maximum of 2.0). Pulse-chase labeling of cells infected with the different strains followed by radioimmunoprecipitation of the F protein showed that the efficiency of cleavage of the F0 protein was greatly enhanced by the amino acid replacements. These results demonstrate that genetically modified NDV can be recovered from cloned cDNA and confirm the supposition that cleavage of the F0 protein is a key determinant in virulence of NDV.read more
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Journal ArticleDOI
Rescue of Influenza A Virus from Recombinant DNA
Ervin Fodor,Louise J. Devenish,Othmar G. Engelhardt,Peter Palese,George G. Brownlee,Adolfo García-Sastre +5 more
TL;DR: The rescued influenza A virus is rescued by transfection of 12 plasmids into Vero cells by plasmid-based reverse genetics technique, which facilitates the generation of recombinant influenza viruses containing specific mutations in their genes.
Journal ArticleDOI
Newcastle disease: Evolution of genotypes and the related diagnostic challenges
TL;DR: The molecular epidemiology and recent diagnostic problems related to viral evolution of NDV are reviewed and it is explained why a new system, based on objective criteria, is needed to categorize genotypes.
Journal ArticleDOI
Newcastle disease virus (NDV)-based assay demonstrates interferon-antagonist activity for the NDV V protein and the Nipah virus V, W, and C proteins.
Man Seong Park,Megan L. Shaw,Jorge L. Muñoz-Jordán,Jérôme Cros,Takaaki Nakaya,Nicole M. Bouvier,Peter Palese,Adolfo García-Sastre,Christopher F. Basler +8 more
TL;DR: It is shown that expression of the NDV V protein or the Nipah virus V, W, or C proteins rescues NDV-GFP replication in the face of the transfection-induced IFN response, and that the NDVs could be used to screen proteins expressed from plasmids for the ability to counteract the host cellIFN response.
Journal ArticleDOI
Recombinant Newcastle Disease Virus as a Vaccine Vector
Takaaki Nakaya,Jérôme Cros,Man-Seong Park,Yurie Nakaya,Hongyong Zheng,Ana Sagrera,Enrique Villar,Adolfo García-Sastre,Peter Palese +8 more
TL;DR: The rescued virus induces a strong humoral antibody response against influenza virus and provides complete protection against a lethal dose of influenza virus challenge in mice, demonstrating the potential of recombinant NDV as a vaccine vector.
Journal ArticleDOI
Role of fusion protein cleavage site in the virulence of Newcastle disease virus.
TL;DR: The results demonstrate that the efficiency of cleavage of the F protein plays an important role if the NDV is delivered directly into the brains of chicks, but there could be other viral factors that probably affect peripheral replication, viremia, or entry into the central nervous system.
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