Engineering recombinant replication-competent bluetongue viruses expressing reporter genes for
            <i>in vitro</i>
            and non-invasive
            <i>in vivo</i>
            studies

Utrilla-Trigo, Sergio; Jiménez-Cabello, Luis; Marín-López, Alejandro; Illescas-Amo, Miguel; Andrés, Germán; Calvo-Pinilla, Eva; Lorenzo, Gema; van Rijn, Piet A.; Ortego, Javier; Nogales, Aitor

doi:10.1128/spectrum.02493-23

Microbiol Spectr

2024

DOI: 10.1128/spectrum.02493-23

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Engineering recombinant replication-competent bluetongue viruses expressing reporter genes for in vitro and non-invasive in vivo studies

Sergio Utrilla-Trigo,

Luis Jiménez-Cabello,

Alejandro Marín-López

et al.

Abstract: The use of replication-competent viruses that encode a traceable fluorescent or luciferase reporter protein has significantly contributed to the in vitro and in vivo study of viral infections and the development of novel therapeutic approaches. In this work, we have generated rBTV that express fluorescent or luminescence proteins to track BTV infection both in vitro and in vivo . Despite the availability of vaccines… Show more

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Novel replication-competent reporter-expressing Rift Valley Fever Viruses for molecular studies

Nogales,

Alonso,

Moreno

et al. 2024

Preprint

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Rift Valley fever virus (RVFV) is a mosquito-borne zoonotic disease that causes severe disease in both domestic and wild ungulates and humans, making it a significant threat to livestock and public health. The RVFV genome consists of three single-stranded, negative-sense RNA segments differing in size: Small (S), Medium (M) and Large (L). Segment S encodes the virus nucleoprotein N and the virulence-associated factor non-structural (NSs) protein in opposite orientations, separated by an intergenic region (IGR). To overcome the current need of using secondary techniques to detect the presence of RVFV in infected cells, we used T7-driven polymerase plasmid-based reverse genetics to generate replication-competent recombinant (r)RVFV expressing Nanoluciferase (Nluc) or Venus fluorescent proteins. These reporter genes were used as valid surrogates to track the presence of RVFV in mammalian and insect cells. Notably, we explored the genome plasticity of RVFV and compared four different strategies by modifying the viral segment S in order to introduce the reporter gene foreign sequences. The reporter-expressing rRVFV were stable and able to replicate in cultured mammalian and insect cells, although to a lesser extent than the recombinant wild-type (WT) counterpart. Moreover, rRVFV expressing reporter genes were validated to identify neutralizing antibodies or compounds with antiviral activity.In vivo, all mice infected with the reporter-expressing rRVFV displayed an attenuated phenotype, although at different levels. These rRVFV expressing reporter genes provide a novel approach to better understand the biology and pathogenesis of RVFV, and represent an excellent biotechnological tool for developing new therapeutics against RVFV infections.IMPORTANCERift Valley fever virus (RVFV) is a mosquito-borne virus and zoonotic agent threat that can be deadly to domestic or wild ungulates, and humans. In this work, we used reverse genetics approaches to explore the genome plasticity of RVFV by generating a set of recombinant (r)RVFV that express fluorescent or luminescent proteins to track viral infection. All the generated reporter-expressing rRVFV were able to propagate in mammalian or insect cells, and in a mouse model of infection. Our studies may contribute to advances in research on RVFV and other bunyaviruses and pave the way for the development of novel vaccines and the identification of new antivirals for the prophylactic and therapeutic treatment, respectively, of RFVF infections.

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Novel replication-competent reporter-expressing Rift Valley Fever Viruses for molecular studies

Nogales,

Alonso,

Moreno

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Engineering recombinant replication-competent bluetongue viruses expressing reporter genes for in vitro and non-invasive in vivo studies

Cited by 1 publication

References 100 publications

Novel replication-competent reporter-expressing Rift Valley Fever Viruses for molecular studies

Novel replication-competent reporter-expressing Rift Valley Fever Viruses for molecular studies

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