The adenovirus major core protein VII is dispensable for virion assembly but is essential for lytic infection.

Philomena Ostapchuk,Maarit Suomalainen,Patrick Hearing,Yueting Zheng,Karin Boucke,Urs F Greber,Michael J Imperiale

doi:10.1371/journal.ppat.1006455

Philomena Ostapchuk, Maarit Suomalainen + Show 5 more

Open Access

https://doi.org/10.1371/journal.ppat.1006455

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Journal: PLoS pathogens	Publication Date: Jun 19, 2017
Citations: 51	License type: CC BY 4.0

Affiliation: University of Zurich, Stony Brook University

Abstract

The Adenovirus (Ad) genome within the capsid is tightly associated with a virus-encoded, histone-like core protein—protein VII. Two other Ad core proteins, V and X/μ, also are located within the virion and are loosely associated with viral DNA. Core protein VII remains associated with the Ad genome during the early phase of infection. It is not known if naked Ad DNA is packaged into the capsid, as with dsDNA bacteriophage and herpesviruses, followed by the encapsidation of viral core proteins, or if a unique packaging mechanism exists with Ad where a DNA-protein complex is simultaneously packaged into the virion. The latter model would require an entirely new molecular mechanism for packaging compared to known viral packaging motors. We characterized a virus with a conditional knockout of core protein VII. Remarkably, virus particles were assembled efficiently in the absence of protein VII. No changes in protein composition were evident with VII−virus particles, including the abundance of core protein V, but changes in the proteolytic processing of some capsid proteins were evident. Virus particles that lack protein VII enter the cell, but incoming virions did not escape efficiently from endosomes. This greatly diminished all subsequent aspects of the infectious cycle. These results reveal that the Ad major core protein VII is not required to condense viral DNA within the capsid, but rather plays an unexpected role during virus maturation and the early stages of infection. These results establish a new paradigm pertaining to the Ad assembly mechanism and reveal a new and important role of protein VII in early stages of infection.

Highlights

Adenovirus (Ad) infection is generally associated with mild respiratory, ocular, or gastrointestinal diseases, but Ad has been recognized in recent years as a significant pathogen in immunocompromised patients and in the young and elderly [1]
The Ad major core protein VII protects the viral genome from recognition by a cellular DNA damage response during the early stages of infection and alters cellular chromatin to block innate signaling mechanisms
Our results demonstrate that protein VII is not required for virion assembly or Ad genome packaging, but rather protein VII plays a critical role in virus escape from the endosome following infection

Summary

Introduction

Adenovirus (Ad) infection is generally associated with mild respiratory, ocular, or gastrointestinal diseases, but Ad has been recognized in recent years as a significant pathogen in immunocompromised patients and in the young and elderly [1]. Ad replication involves a number of events that must be temporally and spatially organized within the host cell in order to lead to optimal productive infection. The 36-kbp Ad genome encodes at least 25 early gene products and ~15 late gene products. The early viral proteins alter host cell functions to promote an environment that is conducive to viral replication and to block cellular and host antiviral responses, as well as for the enzymatic replication of the Ad genome [2]. The late gene products comprise structural components of the capsid, as well as proteins involved in virion assembly and maturation and viral genome encapsidation [3]. Ad is an excellent example of a virus that efficiently utilizes limited genetic capacity to maximize viral protein and virion production

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