Global mRNA Degradation during Lytic Gammaherpesvirus Infection Contributes to Establishment of Viral Latency

Justin M Richner,Tina Wang,Laurent Coscoy,Britt Glaunsinger,G Renuka Kumar,Andrea C Pezda,Benson Yee Hin Cheng,Sergio Covarrubias,Karen Clyde,Samuel H Speck

doi:10.1371/journal.ppat.1002150

Justin M Richner, Tina Wang + Show 8 more

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https://doi.org/10.1371/journal.ppat.1002150

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Journal: PLoS Pathogens	Publication Date: Jul 21, 2011
Citations: 126	License type: CC BY 4.0

Affiliation: University of California, Berkeley

Abstract

During a lytic gammaherpesvirus infection, host gene expression is severely restricted by the global degradation and altered 3′ end processing of mRNA. This host shutoff phenotype is orchestrated by the viral SOX protein, yet its functional significance to the viral lifecycle has not been elucidated, in part due to the multifunctional nature of SOX. Using an unbiased mutagenesis screen of the murine gammaherpesvirus 68 (MHV68) SOX homolog, we isolated a single amino acid point mutant that is selectively defective in host shutoff activity. Incorporation of this mutation into MHV68 yielded a virus with significantly reduced capacity for mRNA turnover. Unexpectedly, the MHV68 mutant showed little defect during the acute replication phase in the mouse lung. Instead, the virus exhibited attenuation at later stages of in vivo infections suggestive of defects in both trafficking and latency establishment. Specifically, mice intranasally infected with the host shutoff mutant accumulated to lower levels at 10 days post infection in the lymph nodes, failed to develop splenomegaly, and exhibited reduced viral DNA levels and a lower frequency of latently infected splenocytes. Decreased latency establishment was also observed upon infection via the intraperitoneal route. These results highlight for the first time the importance of global mRNA degradation during a gammaherpesvirus infection and link an exclusively lytic phenomenon with downstream latency establishment.

Highlights

A number of viruses from diverse evolutionary lineages downregulate cellular gene expression through a variety of mechanisms [1,2,3,4]
We address the purpose of this activity in the viral lifecycle through the generation of a single amino acid point mutant selectively defective for host shutoff activity
Host shutoff appears largely dispensable for viral replication, yet plays an important role in the ability of the virus to traffic and establish latency in the host organism. These findings link two distinct phases of the viral lifecycle and indicate that the global manipulation of gene expression may contribute to the establishment of a lifelong gammaherpesvirus infection

Summary

Introduction

A number of viruses from diverse evolutionary lineages downregulate cellular gene expression through a variety of mechanisms [1,2,3,4]. The precise in vivo function has been difficult to delineate, in part due to the multifunctional nature of the viral proteins driving host shutoff and the lack of appropriate model systems. Within this latter category are the gammaherpesviruses, which direct host shutoff primarily through the induction of host mRNA degradation. MHV68 has been instrumental in the identification of factors that contribute to in vivo replication and pathogenesis of the gammaherpesviruses

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