单纯疱疹病毒 2 型 pUL21 磷酸化的破坏会影响细胞质核衣壳的二次包膜。
Disruption of herpes simplex virus type 2 pUL21 phosphorylation impairs secondary envelopment of cytoplasmic nucleocapsids.
机构信息
Department of Biomedical and Molecular Sciences, Queen's University, Kingston, Ontario, Canada.
出版信息
J Virol. 2024 Sep 17;98(9):e0065624. doi: 10.1128/jvi.00656-24. Epub 2024 Aug 13.
UNLABELLED
The multifunctional tegument protein pUL21 of HSV-2 is phosphorylated in infected cells. We have identified two residues in the unstructured linker region of pUL21, serine 251 and serine 253, as phosphorylation sites. Both phosphorylation sites are absent in HSV-1 pUL21, which likely explains why phosphorylated pUL21 was not detected in cells infected with HSV-1. Cells infected with HSV-2 strain 186 viruses deficient in pUL21 phosphorylation exhibited reductions in both cell-cell spread of virus infection and virus replication. Defects in secondary envelopment of cytoplasmic nucleocapsids were also observed in cells infected with viruses deficient in pUL21 phosphorylation as well as in cells infected with multiple strains of HSV-2 and HSV-1 deleted for pUL21. These results confirm a role for HSV pUL21 in the secondary envelopment of cytoplasmic nucleocapsids and indicate that phosphorylation of HSV-2 pUL21 is required for this activity. Phosphorylation of pUL21 was substantially reduced in cells infected with HSV-2 strain 186 mutants lacking the viral serine/threonine kinase pUL13, indicating a requirement for pUL13 in pUL21 phosphorylation.
IMPORTANCE
It is well known that post-translational modification of proteins by phosphorylation can regulate protein function. Here, we determined that phosphorylation of the multifunctional HSV-2 tegument protein pUL21 requires the viral serine/threonine kinase pUL13. In addition, we identified serine residues within HSV-2 pUL21 that can be phosphorylated. Phenotypic analysis of mutant HSV-2 strains with deficiencies in pUL21 phosphorylation revealed reductions in both cell-cell spread of virus infection and virus replication. Deficiencies in pUL21 phosphorylation also compromised the secondary envelopment of cytoplasmic nucleocapsids, a critical final step in the maturation of all herpes virions. Unlike HSV-2 pUL21, phosphorylation of HSV-1 pUL21 was not detected. This fundamental difference between HSV-2 and HSV-1 may underlie our previous observations that the requirements for pUL21 differ between HSV species.
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HSV-2 的多功能被膜蛋白 pUL21 在受感染的细胞中发生磷酸化。我们已经确定 pUL21 的无结构连接区中的两个残基丝氨酸 251 和丝氨酸 253 是磷酸化位点。HSV-1 的 pUL21 中不存在这两个磷酸化位点,这可能解释了为什么在感染 HSV-1 的细胞中未检测到磷酸化的 pUL21。感染缺乏 pUL21 磷酸化的 HSV-2 186 株病毒的细胞中,病毒感染的细胞间传播和病毒复制均减少。在感染缺乏 pUL21 磷酸化的病毒以及感染多种 HSV-2 和 HSV-1 株缺失 pUL21 的细胞中,也观察到细胞质核衣壳的二次包被缺陷。这些结果证实了 HSV pUL21 在细胞质核衣壳的二次包被中的作用,并表明 HSV-2 pUL21 的磷酸化是该活性所必需的。感染缺乏 HSV-2 186 株病毒的丝氨酸/苏氨酸激酶 pUL13 的病毒突变体的细胞中 pUL21 的磷酸化大大减少,表明 pUL13 是 pUL21 磷酸化所必需的。
重要性
众所周知,蛋白质的磷酸化等翻译后修饰可以调节蛋白质的功能。在这里,我们确定了多功能 HSV-2 被膜蛋白 pUL21 的磷酸化需要病毒丝氨酸/苏氨酸激酶 pUL13。此外,我们确定了 HSV-2 pUL21 中可以被磷酸化的丝氨酸残基。在缺乏 pUL21 磷酸化的突变 HSV-2 株的表型分析中,病毒感染的细胞间传播和病毒复制均减少。pUL21 磷酸化缺陷也会影响细胞质核衣壳的二次包被,这是所有疱疹病毒成熟的关键最后一步。与 HSV-2 pUL21 不同,未检测到 HSV-1 pUL21 的磷酸化。HSV-2 和 HSV-1 之间的这种根本差异可能是我们之前观察到的 HSV 物种之间 pUL21 的要求不同的基础。
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