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Uukuniemi virus as a tick-borne virus model


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Mazelier, Magalie, Rouxel, Ronan, Zumstein, Micheal, Mancini, Roberta, Bell-Sakyi, Lesley et Lozach, Pierre-Yves (2016). Uukuniemi virus as a tick-borne virus model Journal of Virology . DOI: 10.1128/jvi.00095-16.

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In the last decade, novel tick-borne pathogenic phleboviruses in the family Bunyaviridae, all closely related to Uukuniemi virus (UUKV), have emerged in different continents. To reproduce the tick-mammal switch in vitro, we first established a reverse genetics system to rescue UUKV with a genome the closest to that of the authentic virus isolated from the Ixodes ricinus tick reservoir. The IRE/CTVM19 and IRE/CTVM20 cell lines, both derived from I. ricinus, were susceptible to the virus rescued from plasmid DNAs and supported production of the virus over many weeks, indicating that infection is persistent. The glycoprotein GC was mainly highly-mannosylated on tick cell-derived viral progeny. The second envelope viral protein, GN, carried mostly N-glycans not recognized by the classical glycosidases PNGase F and Endo H. Treatment with beta-mercaptoethanol did not impact the apparent molecular weight of GN On viruses originating from mammalian BHK-21 cells, GN glycosylations were exclusively sensitive to PNGase F and the electrophoresis mobility of the protein was substantially slower after the reduction of disulfide bonds. Furthermore, the amount of viral nucleoprotein per foci forming units differed markedly whether viruses were produced in tick or BHK-21 cells, suggesting a higher infectivity for tick cell-derived viruses. Together, our results indicate that UUKV particles derived from vector tick cells have glycosylation and structural specificities that may influence the initial infection in mammalian hosts. This study also highlights the importance of working with viruses originating from arthropod vector cells when investigating the cell biology of arbovirus transmission and entry into mammalian hosts. IMPORTANCE: Tick-borne phleboviruses represent a growing threat to humans globally. Although ticks are important vectors of infectious emerging diseases, previous studies have mainly involved virus stocks produced in mammalian cells. This limitation tends to minimize the importance of host alternation in virus transmission to humans and initial infection at the molecular level. With this study, we have developed an in vitro tick cell-based model that allows production of the tick-borne Uukuniemi virus to high titers. Using this system, we found that virions derived from tick cells have specific structural properties and N-glycans that may enhance virus infectivity for mammalian cells. By shedding light on molecular aspects of tick-derived viral particles, our data illustrate the importance of considering the host switch in studying early virus-mammalian receptor/cell interactions. The information gained here lays the basis for future research, not only on tick-borne phleboviruses, but on all viruses and other pathogens transmitted by ticks.

Type de document: Article
Mots-clés libres: -
Centre: Centre INRS-Institut Armand Frappier
Date de dépôt: 24 août 2016 18:55
Dernière modification: 24 août 2016 18:55
URI: https://espace.inrs.ca/id/eprint/4529

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