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Hazara Nairovirus Requires COPI Components in both Arf1-Dependent and Arf1-Independent Stages of Its Replication Cycle

Jack Fuller, B. Álvarez-Rodríguez, Eleanor J. A. A. Todd, Jamel Mankouri, Roger Hewson, John N. Barr

2020Journal of Virology14 citationsDOIOpen Access PDF

Abstract

Nairoviruses are tick-borne enveloped RNA viruses that include several pathogens responsible for fatal disease in humans and animals. Here, we analyzed host genes involved in trafficking networks to examine their involvement in nairovirus replication. We revealed important roles for genes that express multiple components of the COPI complex, which regulates transport of Golgi apparatus-resident cargos. COPI components influenced at least two stages of the nairovirus replication cycle: an early stage prior to and including gene expression and also a later stage during assembly of infectious virus, with COPI knockdown reducing titers by approximately 1,000-fold. Importantly, while the late stage was Arf1 dependent, as expected for canonical COPI vesicle formation, the early stage was found to be Arf1 independent, suggestive of a previously unreported function of COPI unrelated to vesicle formation. Collectively, these data improve our understanding of nairovirus host-pathogen interactions and suggest a new Arf1-independent role for components of the COPI coatomer complex.

Topics & Concepts

COPIBiologyGene knockdownCell biologyViral replicationGolgi apparatusVirologyGeneVirusGeneticsSecretory pathwayEndoplasmic reticulumViral Infections and VectorsVector-Borne Animal DiseasesMosquito-borne diseases and control