Sibil Oksayan scite author profile

The evasion of host innate immunity by Rabies virus, the prototype of the genus Lyssavirus, depends on a unique mechanism of selective targeting of interferon-activated STAT proteins by the viral phosphoprotein (P-protein). However, the immune evasion strategies of other lyssaviruses, including several lethal human pathogens, are unresolved. Here, we show that this mechanism is conserved between the most distantly related members of the genus, providing important insights into the pathogenesis and potential therapeutic targeting of lyssaviruses.

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Dual modes of rabies P-protein association with microtubules: a novel strategy to suppress the antiviral response

Moseley

Lahaye

Roth

et al. 2009

108

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Conventional nuclear import is independent of the cytoskeleton, but recent data have shown that the import of specific proteins can be either facilitated or inhibited by microtubules (MTs). Nuclear import of the P-protein from rabies virus involves a MT-facilitated mechanism, but here, we show that P-protein is unique in that it also undergoes MT-inhibited import, with the mode of MT-interaction being regulated by the oligomeric state of the P-protein. This is the first demonstration that a protein can utilise both MT-inhibited and MT-facilitated import mechanisms, and can switch between these different modes of MT interaction to regulate its nuclear trafficking. Importantly, we show that the P-protein exploits MT-dependent mechanisms to manipulate host cell processes by switching the import of the interferon-activated transcription factor STAT1 from a conventional to a MT-inhibited mechanism. This prevents STAT1 nuclear import and signalling in response to interferon, which is vital to the host innate antiviral response. This is the first report of MT involvement in the viral subversion of interferon signalling that is central to virus pathogenicity, and identifies novel targets for the development of antiviral drugs or attenuated viruses for vaccine applications.

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A Novel Nuclear Trafficking Module Regulates the Nucleocytoplasmic Localization of the Rabies Virus Interferon Antagonist, P Protein

Oksayan

Wiltzer

Rowe

et al. 2012

Journal of Biological Chemistry

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Subcellular Trafficking in Rhabdovirus Infection and Immune Evasion: A Novel Target for Therapeutics

Oksayan¹,

Ito²,

Moseley³

et al. 2012

IDDT

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Vesicular stomatitis virus (VSV) and Rabies Virus (RABV) are the prototypic members of the rhabdovirus family. These viruses have a particularly broad host range, and despite the availability of vaccines, RABV still causes more than 50,000 human deaths a year. Trafficking of the virion or viral particles is important at several stages of the replicative life cycle, including cellular entry, localization into the cytoplasmic inclusion bodies which primarily house the transcription and replication of the viral genome, and migration to the plasma membrane from whence the virus is released by budding. Intriguingly, specific viral proteins, VSV M and RABV P have also been shown to undergo intracellular trafficking independent of the other viral apparatus. These proteins are multifunctional, and play roles in antagonism of host processes, namely the IFN system, and as such enable viral evasion of the innate cellular antiviral response. A body of recent research has been aimed at characterizing the mechanisms by which these proteins are able to shuttle between and localize to various subcellular sites, including the nucleus, which is not required during the cytoplasmic replicative life cycle of the virus. This work has indicated that trafficking of these proteins plays a significant role in determining the ability of the viruses to replicate and cause infection, and as such, represents a viable target for development of a new generation of vaccines and prophylactic therapeutics which are required to battle these pathogens of human and agricultural significance.

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Identification of a Role for Nucleolin in Rabies Virus Infection

Oksayan

Nikolić

David

et al. 2015

J Virol

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c Rabies virus replicates in the cytoplasm of host cells, but rabies virus phosphoprotein (P-protein) undergoes active nucleocytoplasmic trafficking. Here we show that the largely nuclear P-protein isoform P3 can localize to nucleoli and forms specific interactions with nucleolin. Importantly, depletion of nucleolin expression inhibits viral protein expression and infectious virus production by infected cells. This provides the first evidence that lyssaviruses interact with nucleolin and that nucleolin is important to lyssavirus infection.

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Sibil Oksayan

Conservation of a Unique Mechanism of Immune Evasion across the Lyssavirus Genus

Dual modes of rabies P-protein association with microtubules: a novel strategy to suppress the antiviral response

A Novel Nuclear Trafficking Module Regulates the Nucleocytoplasmic Localization of the Rabies Virus Interferon Antagonist, P Protein

Subcellular Trafficking in Rhabdovirus Infection and Immune Evasion: A Novel Target for Therapeutics

Identification of a Role for Nucleolin in Rabies Virus Infection

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