A reporter Oropouche virus expressing ZsGreen from the M segment enables pathogenesis studies in mice
病毒学
生物
人畜共患病
布尼亚病毒属
病毒
作者
Krista Gunter,Dorcus C. A. Omoga,James M. Bowen,L. González,Sydney Severt,Mackenzie Davis,Megan Szymanski,George Sandusky,W. Paul Duprex,Natasha L. Tilston‐Lunel
出处
期刊:Journal of Virology [American Society for Microbiology] 日期:2024-08-28被引量:1
ABSTRACT Oropouche fever caused by Oropouche virus (OROV) is a significant zoonosis in Central and South America. Despite its public health significance, we lack high-throughput diagnostics, therapeutics, and a comprehensive knowledge of OROV biology. Reporter viruses are valuable tools to rapidly study virus dynamics and develop neutralization and antiviral screening assays. OROV is a tri-segmented bunyavirus, which makes generating a reporter virus challenging, as introducing foreign elements into the viral genome typically affects fitness. We previously demonstrated that the non-structural gene NSm on the OROV medium (M) segment is non-essential for replication in vitro . Taking advantage of this, we have now generated a recombinant OROV expressing fluorescent protein ZsGreen in place of NSm. This reporter OROV is both stable and pathogenic in IFNAR -/- mice and provides a powerful tool for OROV pathogenesis studies and assay development. IMPORTANCE Emerging and reemerging infectious agents such as zoonotic bunyaviruses are of global health concern. Oropouche virus (OROV) causes recurring outbreaks of acute febrile illness in the Central and South American human populations. Biting midges are the primary transmission vectors, whereas sloths and non-human primates are their reservoir hosts. As global temperatures increase, we will likely see an expansion in arthropod-borne pathogens such as OROV. Therefore, developing reagents to study pathogen biology to aid in identifying druggable targets is essential. Here, we demonstrate the feasibility and use of a fluorescent OROV reporter in mice to study viral dynamics and pathogenesis. We show that this reporter OROV maintains characteristics such as growth and pathogenicity similar to the wild-type virus. Using this reporter virus, we can now develop methods to assist OROV studies and establish various high-throughput assays.