Department of Molecular Biosciences, University of Kansas, Lawrence, Kansas, USA.
J Virol. 2013 Feb;87(4):2109-19. doi: 10.1128/JVI.02588-12. Epub 2012 Dec 5.
The herpes simplex virus 1 (HSV-1) infected cell protein 0 (ICP0) is an immediate-early phosphoprotein that transactivates viral gene expression. Evidence suggests that phosphorylation regulates the functions of ICP0, and three regions (termed regions I, II, and III) in the protein are known to be phosphorylated. Mutation of the putative phosphorylation sites within region I, termed Phos 1, which lies in the N-terminal portion of ICP0, impairs the E3 ubiquitin (Ub) ligase and ND10-disrupting activities of ICP0 in cell culture and diminishes viral replication. To identify the specific phosphorylation site(s) or residues responsible for the phenotypes observed with Phos 1, individual residues within region I were mutated to alanine (S224A, T226A, T231A, and T232A) and one double mutant S224A/T226A was constructed. Tissue culture studies demonstrated that the S224A, S224A/T226A, T231A, and T232A mutants were unable to dissociate the cellular protein PML from ND10 and that the S224/T226A mutant was defective in its ability to dissociate the cellular protein Sp100 from ND10. Additionally, the transactivation activity of ICP0 was impaired in the S224A and S224A/T226A mutants. The S224A and S224A/T226A mutant forms were more stable than wild-type ICP0, suggesting that their ability to autoubiquitinate was limited. Moreover, one ICP0 ubiquitination target, USP-7, was also more stable after infection with these two mutants. Lastly, the replication of the S224A and S224A/T226A mutant viruses was reduced in cell culture and in vivo. Overall, our data suggest that specific phosphorylation sites within region I differentially regulate the activities of ICP0, which are required for efficient viral replication.
单纯疱疹病毒 1(HSV-1)感染细胞蛋白 0(ICP0)是一种即刻早期磷酸蛋白,可转激活病毒基因表达。有证据表明,磷酸化调节 ICP0 的功能,并且该蛋白中的三个区域(称为区域 I、II 和 III)已知被磷酸化。突变 ICP0 中 N 端部分的假定磷酸化位点 Phos 1(位于区域 I 内),会损害 ICP0 在细胞培养中的 E3 泛素(Ub)连接酶和 ND10 破坏活性,并降低病毒复制。为了确定 Phos 1 观察到的表型所涉及的特定磷酸化位点或残基,区域 I 内的各个残基被突变为丙氨酸(S224A、T226A、T231A 和 T232A),并构建了一个双突变体 S224A/T226A。组织培养研究表明,S224A、S224A/T226A、T231A 和 T232A 突变体无法使细胞蛋白 PML 从 ND10 上解离,而 S224/T226A 突变体在使细胞蛋白 Sp100 从 ND10 上解离的能力上存在缺陷。此外,ICP0 的转录激活活性在 S224A 和 S224A/T226A 突变体中受损。S224A 和 S224A/T226A 突变体形式比野生型 ICP0 更稳定,表明其自身泛素化的能力受到限制。此外,感染这两种突变体后,一个 ICP0 泛素化靶标 USP-7 也更加稳定。最后,S224A 和 S224A/T226A 突变病毒在细胞培养和体内的复制能力降低。总的来说,我们的数据表明,区域 I 内的特定磷酸化位点差异调节 ICP0 的活性,这对于病毒的高效复制是必需的。