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Expanding the Proteome of an RNA Virus by Phosphorylation of an Intrinsically Disordered Viral Protein

Authors
Cordek, Daniel G.Croom-Perez, Tayler J.Hwang, JungwookHargittai, Michele R. S.Subba-Reddy, Chennareddy V.Han, QingxiaLodeiro, Maria FernandaNing, GangMcCrory, Thomas S.Arnold, Jamie J.Koc, HasanLindenbach, Brett D.Showalter, Scott A.Cameron, Craig E.
Issue Date
Aug-2014
Publisher
American Society for Biochemistry and Molecular Biology Inc.
Keywords
Hepatitis C Virus (HCV); Intrinsically Disordered Protein; Phosphorylation; RNA Virus; Viral Replication; NMR; Non-structural Protein 5A
Citation
Journal of Biological Chemistry, v.289, no.35, pp 24397 - 24416
Pages
20
Indexed
SCI
SCIE
SCOPUS
Journal Title
Journal of Biological Chemistry
Volume
289
Number
35
Start Page
24397
End Page
24416
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/159451
DOI
10.1074/jbc.M114.589911
ISSN
0021-9258
1083-351X
Abstract
Background: How can HCV require only 10 proteins for decades-long evasion of the immune system? Results: Phosphorylation of the intrinsically disordered domain (IDD) of NS5A changes its dynamics, inducing unique structure and function. Conclusion: IDD phosphorylation expands the HCV proteome. Significance: Post-translational modification of a viral IDD represents a strategy to expand a viral proteome when coding capacity is limited. The human proteome contains myriad intrinsically disordered proteins. Within intrinsically disordered proteins, polyproline-II motifs are often located near sites of phosphorylation. We have used an unconventional experimental paradigm to discover that phosphorylation by protein kinase A (PKA) occurs in the intrinsically disordered domain of hepatitis C virus non-structural protein 5A (NS5A) on Thr-2332 near one of its polyproline-II motifs. Phosphorylation shifts the conformational ensemble of the NS5A intrinsically disordered domain to a state that permits detection of the polyproline motif by using N-15-, C-13-based multidimensional NMR spectroscopy. PKA-dependent proline resonances were lost in the presence of the Src homology 3 domain of c-Src, consistent with formation of a complex. Changing Thr-2332 to alanine in hepatitis C virus genotype 1b reduced the steady-state level of RNA by 10-fold; this change was lethal for genotype 2a. The lethal phenotype could be rescued by changing Thr-2332 to glutamic acid, a phosphomimetic substitution. Immunofluorescence and transmission electron microscopy showed that the inability to produce Thr(P)-2332-NS5A caused loss of integrity of the virus-induced membranous web/replication organelle. An even more extreme phenotype was observed in the presence of small molecule inhibitors of PKA. We conclude that the PKA-phosphorylated form of NS5A exhibits unique structure and function relative to the unphosphorylated protein. We suggest that post-translational modification of viral proteins containing intrinsic disorder may be a general mechanism to expand the viral proteome without a corresponding expansion of the genome.
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GRADUATE SCHOOL OF BIOMEDICAL SCIENCE AND ENGINEERING (DEPARTMENT OF BIOMEDICAL SCIENCE)
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