scholarly journals Packaging of the Virion Host Shutoff (Vhs) Protein of Herpes Simplex Virus: Two Forms of the Vhs Polypeptide Are Associated with Intranuclear B and C Capsids, but Only One Is Associated with Enveloped Virions

2007 ◽  
Vol 81 (3) ◽  
pp. 1148-1161 ◽  
Author(s):  
G. Sullivan Read ◽  
Mary Patterson
Keyword(s):  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Polyacrylamide Gel Electrophoresis ◽  
Sodium Dodecyl ◽  
Viral Envelope ◽  
Translation Product ◽  
Primary Translation Product ◽  
Virion Host Shutoff ◽  
Host Shutoff ◽  
Simplex Virus

ABSTRACT The virion host shutoff (Vhs) protein (UL41) is a minor component of herpes simplex virus virions which, following penetration, accelerates turnover of host and viral mRNAs. Infected cells contain 58-kDa and 59.5-kDa forms of Vhs, which differ in the extent of phosphorylation, yet only a 58-kDa polypeptide is incorporated into virions. In pulse-chase experiments, the primary Vhs translation product comigrated in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with the 58-kDa virion polypeptide, and could be chased to 59.5 kDa. While both 59.5-kDa and 58-kDa forms were found in nuclear and cytoplasmic fractions, the 59.5-kDa form was significantly enriched in the nucleus. Both forms were associated with intranuclear B and C capsids, yet only the 58-kDa polypeptide was found in enveloped cytoplasmic virions. A 58-kDa form, but not the 59.5-kDa form, was found in L particles, noninfectious particles that contain an envelope and tegument but no capsid. The data suggest that virions contain two populations of Vhs that are packaged by different pathways. In the first pathway, the primary translation product is processed to 59.5 kDa, is transported to the nucleus, binds intranuclear capsids, and is converted to 58 kDa at some stage prior to final envelopment. The second pathway does not involve the 59.5-kDa form or interactions between Vhs and capsids. Instead, the primary translation product is phosphorylated to the 58-kDa virion form and packaged through interactions with other tegument proteins in the cytoplasm or viral envelope proteins at the site of final envelopment.

scholarly journals The Splicing History of an mRNA Affects Its Level of Translation and Sensitivity to Cleavage by the Virion Host Shutoff Endonuclease during Herpes Simplex Virus Infections

2016 ◽  
Vol 90 (23) ◽  
pp. 10844-10856 ◽  
Author(s):  
Jouliana Sadek ◽  
G. Sullivan Read
Keyword(s):  
Gene Expression ◽  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Mrna Splicing ◽  
Exon Junction ◽  
Virion Host Shutoff ◽  
History Of ◽  
Host Shutoff ◽  
Simplex Virus ◽  
Hsv 1

ABSTRACTDuring lytic herpes simplex virus (HSV) infections, the virion host shutoff (Vhs) (UL41) endoribonuclease degrades many cellular and viral mRNAs. In uninfected cells, spliced mRNAs emerge into the cytoplasm bound by exon junction complexes (EJCs) and are translated several times more efficiently than unspliced mRNAs that have the same sequence but lack EJCs. Notably, most cellular mRNAs are spliced, whereas most HSV mRNAs are not. To examine the effect of splicing on gene expression during HSV infection, cells were transfected with plasmids harboring an unspliced renilla luciferase (RLuc) reporter mRNA or RLuc constructs with introns near the 5′ or 3′ end of the gene. After splicing of intron-containing transcripts, all three RLuc mRNAs had the same primary sequence. Upon infection in the presence of actinomycin D, spliced mRNAs were much less sensitive to degradation by copies of Vhs from infecting virions than were unspliced mRNAs. During productive infections (in the absence of drugs), RLuc was expressed at substantially higher levels from spliced than from unspliced mRNAs. Interestingly, the stimulatory effect of splicing on RLuc expression was significantly greater in infected than in uninfected cells. The translational stimulatory effect of an intron during HSV-1 infections could be replicated by artificially tethering various EJC components to an unspliced RLuc transcript. Thus, the splicing history of an mRNA, and the consequent presence or absence of EJCs, affects its level of translation and sensitivity to Vhs cleavage during lytic HSV infections.IMPORTANCEMost mammalian mRNAs are spliced. In contrast, of the more than 80 mRNAs harbored by herpes simplex virus 1 (HSV-1), only 5 are spliced. In addition, synthesis of the immediate early protein ICP27 causes partial inhibition of pre-mRNA splicing, with the resultant accumulation of both spliced and unspliced versions of some mRNAs in the cytoplasm. A common perception is that HSV-1 infection necessarily inhibits the expression of spliced mRNAs. In contrast, this study demonstrates two instances in which pre-mRNA splicing actually enhances the synthesis of proteins from mRNAs during HSV-1 infections. Specifically, splicing stabilized an mRNA against degradation by copies of the Vhs endoribonuclease from infecting virions and greatly enhanced the amount of protein synthesized from spliced mRNAs at late times after infection. The data suggest that splicing, and the resultant presence of exon junction complexes on an mRNA, may play an important role in gene expression during HSV-1 infections.

scholarly journals Herpes Simplex Virus 1 Counteracts Viperin via Its Virion Host Shutoff Protein UL41

2014 ◽  
Vol 88 (20) ◽  
pp. 12163-12166 ◽  
Author(s):  
G. Shen ◽  
K. Wang ◽  
S. Wang ◽  
M. Cai ◽  
M.-l. Li ◽  
...  
Keyword(s):  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Herpes Simplex Virus 1 ◽  
Virion Host Shutoff ◽  
Virion Host Shutoff Protein ◽  
Host Shutoff ◽  
Simplex Virus

scholarly journals mRNA Decay during Herpes Simplex Virus (HSV) Infections: Protein-Protein Interactions Involving the HSV Virion Host Shutoff Protein and Translation Factors eIF4H and eIF4A

2005 ◽  
Vol 79 (15) ◽  
pp. 9651-9664 ◽  
Author(s):  
Pinghui Feng ◽  
David N. Everly ◽  
G. Sullivan Read
Keyword(s):  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Translation Initiation ◽  
Mammalian Cells ◽  
Translation Initiation Factor ◽  
Site Directed Mutagenesis ◽  
Initiation Factor ◽  
Virion Host Shutoff ◽  
Host Shutoff ◽  
Simplex Virus

ABSTRACT During lytic infections, the virion host shutoff (Vhs) protein of herpes simplex virus accelerates the degradation of both host and viral mRNAs. In so doing, it helps redirect the cell from host to viral protein synthesis and facilitates the sequential expression of different viral genes. Vhs interacts with the cellular translation initiation factor eIF4H, and several point mutations that abolish its mRNA degradative activity also abrogate its ability to bind eIF4H. In addition, a complex containing bacterially expressed Vhs and a glutathione S-transferase (GST)-eIF4H fusion protein has RNase activity. eIF4H shares a region of sequence homology with eIF4B, and it appears to be functionally similar in that both stimulate the RNA helicase activity of eIF4A, a component of the mRNA cap-binding complex eIF4F. We show that eIF4H interacts physically with eIF4A in the yeast two-hybrid system and in GST pull-down assays and that the two proteins can be coimmunoprecipitated from mammalian cells. Vhs also interacts with eIF4A in GST pull-down and coimmunoprecipitation assays. Site-directed mutagenesis of Vhs and eIF4H revealed residues of each that are important for their mutual interaction, but not for their interaction with eIF4A. Thus, Vhs, eIF4H, and eIF4A comprise a group of proteins, each of which is able to interact directly with the other two. Whether they interact simultaneously as a tripartite complex or sequentially is unclear. The data suggest a mechanism for linking the degradation of an mRNA to its translation and for targeting Vhs to mRNAs and to regions of translation initiation.

scholarly journals Herpes simplex virus VP16 forms a complex with the virion host shutoff protein vhs.

1994 ◽  
Vol 68 (4) ◽  
pp. 2339-2346 ◽  
Author(s):  
C A Smibert ◽  
B Popova ◽  
P Xiao ◽  
J P Capone ◽  
J R Smiley
Keyword(s):  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Virion Host Shutoff ◽  
Virion Host Shutoff Protein ◽  
Host Shutoff ◽  
Simplex Virus

scholarly journals Site-Directed Mutagenesis of the Virion Host Shutoff Gene (UL41) of Herpes Simplex Virus (HSV): Analysis of Functional Differences between HSV Type 1 (HSV-1) and HSV-2 Alleles

1999 ◽  
Vol 73 (11) ◽  
pp. 9117-9129 ◽  
Author(s):  
David N. Everly ◽  
G. Sullivan Read
Keyword(s):  
Amino Acids ◽  
Herpes Simplex Virus ◽  
Herpes Simplex ◽  
Site Directed Mutagenesis ◽  
Viral Mrnas ◽  
Virion Host Shutoff ◽  
Host Shutoff ◽  
Simplex Virus ◽  
Hsv 1

ABSTRACT During lytic herpes simplex virus (HSV) infections, the HSV virion host shutoff protein (UL41) accelerates the turnover of host and viral mRNAs. Although the UL41 polypeptides from HSV type 1 (HSV-1) strain KOS and HSV-2 strain 333 are 87% identical, HSV-2 strains generally shut off the host more rapidly and completely than HSV-1 strains. In a previous study, we identified three regions of the HSV-2 UL41 polypeptide (amino acids 1 to 135, 208 to 243, and 365 to 492) that enhance the activity of KOS when substituted for the corresponding portions of the KOS protein (D. N. Everly, Jr., and G. S. Read, J. Virol. 71:7157–7166, 1997). These results have been extended through the analysis of more than 50 site-directed mutants of UL41 in which selected HSV-2 amino acids were introduced into an HSV-1 background and HSV-1 amino acids were introduced into the HSV-2 allele. The HSV-2 amino acids R22 and E25 were found to contribute dramatically to the greater activity of the HSV-2 allele, as did the HSV-2 amino acids A396 and S423. The substitution of six HSV-2 amino acids between residues 210 and 242 enhanced the HSV-1 activity to a lesser extent. In most cases, individual substitutions or the substitution of combinations of fewer than all six amino acids reduced the UL41 activity to less than that of KOS. The results pinpoint several type-specific amino acids that are largely responsible for the greater activity of the UL41 polypeptide of HSV-2. In addition, several spontaneous mutations that abolish detectable UL41 activity were identified.

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