Complexes of Vesicular Stomatitis Virus Matrix Protein with Host Rae1 and Nup98 Involved in Inhibition of Host Transcription

Margie O Mckenzie,Sean P J Whelan,Elizabeth L Pettit Kneller,Jeff W Chou,Karishma R Rajani,Douglas S Lyles,David A Horita

doi:10.1371/journal.ppat.1002929

Margie O Mckenzie, Sean P J Whelan + Show 5 more

Open Access

https://doi.org/10.1371/journal.ppat.1002929

Copy DOI

Journal: PLoS Pathogens	Publication Date: Sep 27, 2012
Citations: 109	License type: CC BY 4.0

Affiliation: Wake Forest University

Abstract

Vesicular stomatitis virus (VSV) suppresses antiviral responses in infected cells by inhibiting host gene expression at multiple levels, including transcription, nuclear cytoplasmic transport, and translation. The inhibition of host gene expression is due to the activity of the viral matrix (M) protein. Previous studies have shown that M protein interacts with host proteins Rae1 and Nup98 that have been implicated in regulating nuclear-cytoplasmic transport. However, Rae1 function is not essential for host mRNA transport, raising the question of how interaction of a viral protein with a host protein that is not essential for gene expression causes a global inhibition at multiple levels. We tested the hypothesis that there may be multiple M protein-Rae1 complexes involved in inhibiting host gene expression at multiple levels. Using size exclusion chromatography and sedimentation velocity analysis, it was determined that Rae1 exists in high, intermediate, and low molecular weight complexes. The intermediate molecular weight complexes containing Nup98 interacted most efficiently with M protein. The low molecular weight form also interacted with M protein in cells that overexpress Rae1 or cells in which Nup98 expression was silenced. Silencing Rae1 expression had little if any effect on nuclear accumulation of host mRNA in VSV-infected cells, nor did it affect VSV's ability to inhibit host translation. Instead, silencing Rae1 expression reduced the ability of VSV to inhibit host transcription. M protein interacted efficiently with Rae1-Nup98 complexes associated with the chromatin fraction of host nuclei, consistent with an effect on host transcription. These results support the idea that M protein-Rae1 complexes serve as platforms to promote the interaction of M protein with other factors involved in host transcription. They also support the idea that Rae1-Nup98 complexes play a previously under-appreciated role in regulation of transcription.

Highlights

The antiviral responses mounted by virus-infected cells include potent mechanisms to prevent virus replication
Vesicular stomatitis virus (VSV) suppresses antiviral responses by global inhibition of host gene expression mediated by the viral matrix (M) protein
M protein interacts with the host protein Rae1 in a complex with the nucleoporin Nup98

Summary

Introduction

The antiviral responses mounted by virus-infected cells include potent mechanisms to prevent virus replication. Many RNA viruses that replicate in the cytoplasm suppress antiviral responses by inhibiting host nuclear functions, such as transcription and nuclear-cytoplasmic transport. Vesicular stomatitis virus (VSV) is a widely studied prototype of the negative strand RNA viruses and is a potent suppressor of host antiviral responses [1]. This suppression is mediated by the viral matrix (M) protein, which inhibits multiple steps in the expression of host genes [2,3,4,5,6,7] including expression of genes that code for production of antiviral cytokines such as interferons [3,8,9]. The ability of M protein to suppress host gene expression is genetically separable from its function in virus assembly [3,11]

Methods

Results

Discussion

Conclusion