Kobayashi Shintaro, Suzuki Tadaki, Igarashi Manabu, Orba Yasuko, Ohtake Noriko, Nagakawa Keita, Niikura Kenichi, Kimura Takashi, Kasamatsu Harumi, Sawa Hirofumi
Division of Molecular Pathobiology, Hokkaido University Research Center for Zoonosis Control, Kita-ku, Sapporo, Japan ; Global COE Program for Zoonosis Control, Hokkaido University, Sapporo, Japan.
PLoS One. 2013 Oct 9;8(10):e76668. doi: 10.1371/journal.pone.0076668. eCollection 2013.
The capsid of the human polyomavirus JC virus (JCV) consists of 72 pentameric capsomeres of a major structural protein, Vp1. The cysteine residues of the related Vp1 of SV40 are known to contribute to Vp1 folding, pentamer formation, pentamer-pentamer contacts, and capsid stabilization. In light of the presence of a slight structural difference between JCV Vp1 and SV40 counterpart, the way the former folds could be either different from or similar to the latter. We found a difference: an important contribution of Vp1 cysteines to the formation of infectious virions, unique in JCV and absent in SV40. Having introduced amino acid substitution at each of six cysteines (C42, C80, C97, C200, C247, and C260) in JCV Vp1, we found that, when expressed in HeLa cells, the Vp1 level was decreased in C80A and C247A mutants, and remained normal in the other mutants. Additionally, the C80A and C247A Vp1-expressing cell extracts did not show the hemagglutination activity characteristic of JCV particles. The C80A and C247A mutant Vp1s were found to be less stable than the wild-type Vp1 in HeLa cells. When produced in a reconstituted in vitro protein translation system, these two mutant proteins were stable, suggesting that some cellular factors were responsible for their degradation. As determined by their sucrose gradient sedimentation profiles, in vitro translated C247A Vp1 formed pentamers, but in vitro translated C80A Vp1 was entirely monomeric. When individually incorporated into the JCV genome, the C80A and C247A mutants, but not the other Vp1 cysteine residues mutants, interfered with JCV infectivity. Furthermore, the C80A, but not the C247A, mutation prevented the nuclear localization of Vp1 in JCV genome transfected cells. These findings suggest that C80 of JCV Vp1 is required for Vp1 stability and pentamer formation, and C247 is involved in capsid assembly in the nucleus.
人类多瘤病毒JC病毒(JCV)的衣壳由主要结构蛋白Vp1的72个五聚体壳粒组成。已知SV40相关Vp1的半胱氨酸残基有助于Vp1折叠、五聚体形成、五聚体-五聚体接触以及衣壳稳定。鉴于JCV Vp1与SV40对应物之间存在细微结构差异,前者的折叠方式可能与后者不同或相似。我们发现了一个差异:Vp1半胱氨酸对感染性病毒粒子形成的重要贡献,这在JCV中是独特的,而在SV40中不存在。在JCV Vp1的六个半胱氨酸(C42、C80、C97、C200、C247和C260)处引入氨基酸替换后,我们发现,当在HeLa细胞中表达时,C80A和C247A突变体中的Vp1水平降低,而其他突变体中的Vp1水平保持正常。此外,表达C80A和C247A Vp1的细胞提取物未显示出JCV颗粒特有的血凝活性。发现C80A和C247A突变体Vp1在HeLa细胞中比野生型Vp1更不稳定。当在重组体外蛋白质翻译系统中产生时,这两种突变蛋白是稳定的,表明某些细胞因子负责它们降解。根据它们的蔗糖梯度沉降图谱测定,体外翻译的C247A Vp1形成五聚体,但体外翻译的C80A Vp1完全是单体。当单独整合到JCV基因组中时,C80A和C247A突变体,而不是其他Vp1半胱氨酸残基突变体,干扰JCV感染性。此外,C80A突变,而不是C247A突变,阻止了Vp1在JCV基因组转染细胞中的核定位。这些发现表明,JCV Vp1的C80是Vp1稳定性和五聚体形成所必需的,而C247参与细胞核中的衣壳组装。
