siRNA screen of early poxvirus genes identifies the AAA+ ATPase D5 as the virus genome-uncoating factor

Samuel Kilcher; Florian Ingo Schmidt; Christoph Schneider; Manfred Kopf; Ari Helenius; Jason Mercer

doi:10.1016/j.chom.2013.12.008

siRNA screen of early poxvirus genes identifies the AAA+ ATPase D5 as the virus genome-uncoating factor

Samuel Kilcher, Florian Ingo Schmidt, Christoph Schneider, Manfred Kopf, Ari Helenius, Jason Mercer^*

^*Corresponding author for this work

Biosciences

Research output: Contribution to journal › Article › peer-review

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Abstract

Summary Poxvirus genome uncoating is a two-step process. First, cytoplasmic viral cores are activated and early viral genes are expressed. Next, cores are disassembled and the genomes released. This second step depends on an early viral factor(s) that has eluded identification for over 40 years. We used a large-scale, high-throughput RNAi screen directed against vaccinia virus (VACV) to identify the VACV AAA+ ATPase D5 as the poxvirus uncoating factor. We show that the ATPase activity of D5 is required for uncoating. Superresolution microscopy suggests that D5 acts directly at viral cores for genome release. Thus, the putative helicase D5 is a multifunctional protein required for genome uncoating and replication. Additionally, in vivo delivery of anti-D5 siRNAs reduced virus production in a mouse model of VACV infection. These results demonstrate the use of virus-targeting RNAi libraries to investigate viral gene function and suggest therapeutic avenues.

Original language	English
Pages (from-to)	103-112
Number of pages	10
Journal	Cell Host and Microbe
Volume	15
Issue number	1
DOIs	https://doi.org/10.1016/j.chom.2013.12.008
Publication status	Published - 15 Jan 2014

ASJC Scopus subject areas

Parasitology
Microbiology
Virology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "siRNA screen of early poxvirus genes identifies the AAA+ ATPase D5 as the virus genome-uncoating factor",

abstract = "Summary Poxvirus genome uncoating is a two-step process. First, cytoplasmic viral cores are activated and early viral genes are expressed. Next, cores are disassembled and the genomes released. This second step depends on an early viral factor(s) that has eluded identification for over 40 years. We used a large-scale, high-throughput RNAi screen directed against vaccinia virus (VACV) to identify the VACV AAA+ ATPase D5 as the poxvirus uncoating factor. We show that the ATPase activity of D5 is required for uncoating. Superresolution microscopy suggests that D5 acts directly at viral cores for genome release. Thus, the putative helicase D5 is a multifunctional protein required for genome uncoating and replication. Additionally, in vivo delivery of anti-D5 siRNAs reduced virus production in a mouse model of VACV infection. These results demonstrate the use of virus-targeting RNAi libraries to investigate viral gene function and suggest therapeutic avenues.",

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AU - Kilcher, Samuel

AU - Schmidt, Florian Ingo

AU - Schneider, Christoph

AU - Kopf, Manfred

AU - Helenius, Ari

AU - Mercer, Jason

PY - 2014/1/15

Y1 - 2014/1/15

N2 - Summary Poxvirus genome uncoating is a two-step process. First, cytoplasmic viral cores are activated and early viral genes are expressed. Next, cores are disassembled and the genomes released. This second step depends on an early viral factor(s) that has eluded identification for over 40 years. We used a large-scale, high-throughput RNAi screen directed against vaccinia virus (VACV) to identify the VACV AAA+ ATPase D5 as the poxvirus uncoating factor. We show that the ATPase activity of D5 is required for uncoating. Superresolution microscopy suggests that D5 acts directly at viral cores for genome release. Thus, the putative helicase D5 is a multifunctional protein required for genome uncoating and replication. Additionally, in vivo delivery of anti-D5 siRNAs reduced virus production in a mouse model of VACV infection. These results demonstrate the use of virus-targeting RNAi libraries to investigate viral gene function and suggest therapeutic avenues.

AB - Summary Poxvirus genome uncoating is a two-step process. First, cytoplasmic viral cores are activated and early viral genes are expressed. Next, cores are disassembled and the genomes released. This second step depends on an early viral factor(s) that has eluded identification for over 40 years. We used a large-scale, high-throughput RNAi screen directed against vaccinia virus (VACV) to identify the VACV AAA+ ATPase D5 as the poxvirus uncoating factor. We show that the ATPase activity of D5 is required for uncoating. Superresolution microscopy suggests that D5 acts directly at viral cores for genome release. Thus, the putative helicase D5 is a multifunctional protein required for genome uncoating and replication. Additionally, in vivo delivery of anti-D5 siRNAs reduced virus production in a mouse model of VACV infection. These results demonstrate the use of virus-targeting RNAi libraries to investigate viral gene function and suggest therapeutic avenues.

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siRNA screen of early poxvirus genes identifies the AAA+ ATPase D5 as the virus genome-uncoating factor

Abstract

ASJC Scopus subject areas

UN SDGs

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