Literature DB >> 26655235

The pseudorabies virus protein, pUL56, enhances virus dissemination and virulence but is dispensable for axonal transport.

Gina R Daniel1, Patricia J Sollars2, Gary E Pickard2, Gregory A Smith3.   

Abstract

Neurotropic herpesviruses exit the peripheral nervous system and return to exposed body surfaces following reactivation from latency. The pUS9 protein is a critical viral effector of the anterograde axonal transport that underlies this process. We recently reported that while pUS9 increases the frequency of sorting of newly assembled pseudorabies virus particles to axons from the neural soma during egress, subsequent axonal transport of individual virus particles occurs with wild-type kinetics in the absence of the protein. Here, we examine the role of a related pseudorabies virus protein, pUL56, during neuronal infection. The findings indicate that pUL56 is a virulence factor that supports virus dissemination in vivo, yet along with pUS9, is dispensable for axonal transport.
Copyright © 2015 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Herpesvirus; Nervous system; PRV; UL56; US9; Virulence

Mesh:

Substances:

Year:  2015        PMID: 26655235      PMCID: PMC4744496          DOI: 10.1016/j.virol.2015.11.014

Source DB:  PubMed          Journal:  Virology        ISSN: 0042-6822            Impact factor:   3.616


  67 in total

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Authors:  G A Smith; L W Enquist
Journal:  Proc Natl Acad Sci U S A       Date:  2000-04-25       Impact factor: 11.205

2.  Herpesviruses use bidirectional fast-axonal transport to spread in sensory neurons.

Authors:  G A Smith; S P Gross; L W Enquist
Journal:  Proc Natl Acad Sci U S A       Date:  2001-03-13       Impact factor: 11.205

3.  Intravitreal injection of the attenuated pseudorabies virus PRV Bartha results in infection of the hamster suprachiasmatic nucleus only by retrograde transsynaptic transport via autonomic circuits.

Authors:  Gary E Pickard; Cynthia A Smeraski; Christine C Tomlinson; Bruce W Banfield; Jessica Kaufman; Christine L Wilcox; Lynn W Enquist; Patricia J Sollars
Journal:  J Neurosci       Date:  2002-04-01       Impact factor: 6.167

4.  Herpes simplex virus gE/gI and US9 proteins promote transport of both capsids and virion glycoproteins in neuronal axons.

Authors:  Aleksandra Snyder; Katarina Polcicova; David C Johnson
Journal:  J Virol       Date:  2008-08-27       Impact factor: 5.103

5.  Pseudorabies virus membrane proteins gI and gE facilitate anterograde spread of infection in projection-specific neurons in the rat.

Authors:  P J Husak; T Kuo; L W Enquist
Journal:  J Virol       Date:  2000-12       Impact factor: 5.103

6.  Herpes simplex virus type 2 UL56 interacts with the ubiquitin ligase Nedd4 and increases its ubiquitination.

Authors:  Yoko Ushijima; Tetsuo Koshizuka; Fumi Goshima; Hiroshi Kimura; Yukihiro Nishiyama
Journal:  J Virol       Date:  2008-03-19       Impact factor: 5.103

7.  Anterograde spread of herpes simplex virus type 1 requires glycoprotein E and glycoprotein I but not Us9.

Authors:  Helen M McGraw; Sita Awasthi; Jason A Wojcechowskyj; Harvey M Friedman
Journal:  J Virol       Date:  2009-07-01       Impact factor: 5.103

8.  UL36p is required for efficient transport of membrane-associated herpes simplex virus type 1 along microtubules.

Authors:  Sara K Shanda; Duncan W Wilson
Journal:  J Virol       Date:  2008-05-21       Impact factor: 5.103

9.  The order Herpesvirales.

Authors:  Andrew J Davison; Richard Eberle; Bernhard Ehlers; Gary S Hayward; Duncan J McGeoch; Anthony C Minson; Philip E Pellett; Bernard Roizman; Michael J Studdert; Etienne Thiry
Journal:  Arch Virol       Date:  2008-12-09       Impact factor: 2.574

10.  A herpesvirus encoded deubiquitinase is a novel neuroinvasive determinant.

Authors:  Joy I Lee; Patricia J Sollars; Scott B Baver; Gary E Pickard; Mindy Leelawong; Gregory A Smith
Journal:  PLoS Pathog       Date:  2009-04-17       Impact factor: 6.823
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  6 in total

1.  Inner tegument proteins of Herpes Simplex Virus are sufficient for intracellular capsid motility in neurons but not for axonal targeting.

Authors:  Anna Buch; Oliver Müller; Lyudmila Ivanova; Katinka Döhner; Dagmara Bialy; Jens B Bosse; Anja Pohlmann; Anne Binz; Maike Hegemann; Claus-Henning Nagel; Martin Koltzenburg; Abel Viejo-Borbolla; Bodo Rosenhahn; Rudolf Bauerfeind; Beate Sodeik
Journal:  PLoS Pathog       Date:  2017-12-28       Impact factor: 6.823

2.  Multi-Platform Sequencing Approach Reveals a Novel Transcriptome Profile in Pseudorabies Virus.

Authors:  Norbert Moldován; Dóra Tombácz; Attila Szűcs; Zsolt Csabai; Michael Snyder; Zsolt Boldogkői
Journal:  Front Microbiol       Date:  2018-01-22       Impact factor: 5.640

Review 3.  Cytoskeletons in the Closet-Subversion in Alphaherpesvirus Infections.

Authors:  Christopher E Denes; Monica Miranda-Saksena; Anthony L Cunningham; Russell J Diefenbach
Journal:  Viruses       Date:  2018-02-13       Impact factor: 5.048

4.  Host BAG3 Is Degraded by Pseudorabies Virus pUL56 C-Terminal 181L-185L and Plays a Negative Regulation Role during Viral Lytic Infection.

Authors:  Chuang Lyu; Wei-Dong Li; Shu-Wen Wang; Jin-Mei Peng; Yong-Bo Yang; Zhi-Jun Tian; Xue-Hui Cai
Journal:  Int J Mol Sci       Date:  2020-04-29       Impact factor: 5.923

5.  A GFP-tagged version of the pseudorabies virus protein UL56 localizes to the Golgi and trans-Golgi network through a predicted C-terminal leucine-rich helix in transfected cells.

Authors:  Chuang Lyu; Xuehui Cai
Journal:  Virol J       Date:  2019-06-20       Impact factor: 4.099

Review 6.  Motor Skills: Recruitment of Kinesins, Myosins and Dynein during Assembly and Egress of Alphaherpesviruses.

Authors:  Duncan W Wilson
Journal:  Viruses       Date:  2021-08-17       Impact factor: 5.048
  6 in total

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