Protein Kinase C subtype δ interacts with Venezuelan equine encephalitis virus capsid protein and regulates viral RNA binding through modulation of capsid phosphorylation

Protein Kinase C subtype δ interacts with Venezuelan equine encephalitis virus capsid protein and regulates viral RNA binding through modulation of capsid phosphorylation

Protein phosphorylation plays an important role during the life cycle of many viruses. Venezuelan equine encephalitis virus (VEEV) capsid protein has recently been shown to be phosphorylated at four residues. Here those studies are extended to determine the kinase responsible for phosphorylation and...

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Bibliographic Details
Published in:PLoS pathogens Vol. 16; no. 3; p. e1008282
Main Authors: Carey, Brian D, Akhrymuk, Ivan, Dahal, Bibha, Pinkham, Chelsea L, Bracci, Nicole, Finstuen-Magro, Sarah, Lin, Shih-Chao, Lehman, Caitlin W, Sokoloski, Kevin J, Kehn-Hall, Kylene
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-03-2020
Public Library of Science (PLoS)
Subjects:
Alanine
Amino acids
Assembly
Binding
Biology
Biology and Life Sciences
Capsid protein
Compounds
Encephalitis
Epidemics
Genomes
Genomics
Herpes viruses
Infectious diseases
Isoforms
Kinases
Life cycles
Localization
Pathogenesis
Phosphatase
Phosphorylation
Physical Sciences
Protein kinase C
Proteins
Research and Analysis Methods
siRNA
Software
Venezuelan equine encephalitis
Viruses
United States > US
Virginia
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Summary:Protein phosphorylation plays an important role during the life cycle of many viruses. Venezuelan equine encephalitis virus (VEEV) capsid protein has recently been shown to be phosphorylated at four residues. Here those studies are extended to determine the kinase responsible for phosphorylation and the importance of capsid phosphorylation during the viral life cycle. Phosphorylation site prediction software suggests that Protein Kinase C (PKC) is responsible for phosphorylation of VEEV capsid. VEEV capsid co-immunoprecipitated with PKCδ, but not other PKC isoforms and siRNA knockdown of PKCδ caused a decrease in viral replication. Furthermore, knockdown of PKCδ by siRNA decreased capsid phosphorylation. A virus with capsid phosphorylation sites mutated to alanine (VEEV CPD) displayed a lower genomic copy to pfu ratio than the parental virus; suggesting more efficient viral assembly and more infectious particles being released. RNA:capsid binding was significantly increased in the mutant virus, confirming these results. Finally, VEEV CPD is attenuated in a mouse model of infection, with mice showing increased survival and decreased clinical signs as compared to mice infected with the parental virus. Collectively our data support a model in which PKCδ mediated capsid phosphorylation regulates viral RNA binding and assembly, significantly impacting viral pathogenesis.
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The authors have declared that no competing interests exist.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1008282