Division of Virology, National Institute for Medical Research, The Ridgeway, Mill Hill, London, NW7 1AA, United Kingdom.
Virology. 2013 Oct;445(1-2):80-98. doi: 10.1016/j.virol.2013.07.008. Epub 2013 Sep 7.
The papillomavirus E4 open reading frame (ORF) is contained within the E2 ORF, with the primary E4 gene-product (E1^E4) being translated from a spliced mRNA that includes the E1 initiation codon and adjacent sequences. E4 is located centrally within the E2 gene, in a region that encodes the E2 protein's flexible hinge domain. Although a number of minor E4 transcripts have been reported, it is the product of the abundant E1^E4 mRNA that has been most extensively analysed. During the papillomavirus life cycle, the E1^E4 gene products generally become detectable at the onset of vegetative viral genome amplification as the late stages of infection begin. E4 contributes to genome amplification success and virus synthesis, with its high level of expression suggesting additional roles in virus release and/or transmission. In general, E4 is easily visualised in biopsy material by immunostaining, and can be detected in lesions caused by diverse papillomavirus types, including those of dogs, rabbits and cattle as well as humans. The E4 protein can serve as a biomarker of active virus infection, and in the case of high-risk human types also disease severity. In some cutaneous lesions, E4 can be expressed at higher levels than the virion coat proteins, and can account for as much as 30% of total lesional protein content. The E4 proteins of the Beta, Gamma and Mu HPV types assemble into distinctive cytoplasmic, and sometimes nuclear, inclusion granules. In general, the E4 proteins are expressed before L2 and L1, with their structure and function being modified, first by kinases as the infected cell progresses through the S and G2 cell cycle phases, but also by proteases as the cell exits the cell cycle and undergoes true terminal differentiation. The kinases that regulate E4 also affect other viral proteins simultaneously, and include protein kinase A, Cyclin-dependent kinase, members of the MAP Kinase family and protein kinase C. For HPV16 E1^E4, these kinases regulate one of the E1^E4 proteins main functions, the association with the cellular keratin network, and eventually also its cleavage by the protease calpain which allows assembly into amyloid-like fibres and reorganisation of the keratin network. Although the E4 proteins of different HPV types appear divergent at the level of their primary amino acid sequence, they share a recognisable modular organisation and pattern of expression, which may underlie conserved functions and regulation. Assembly into higher-order multimers and suppression of cell proliferation are common to all E4 proteins examined. Although not yet formally demonstrated, a role in virus release and transmission remains a likely function for E4.
乳头瘤病毒 E4 开放阅读框(ORF)包含在 E2 ORF 内,主要的 E4 基因产物(E1^E4)是从包含 E1 起始密码子和相邻序列的拼接 mRNA 中翻译而来的。E4 位于 E2 基因的中央,位于编码 E2 蛋白的柔性铰链结构域的区域内。尽管已经报道了许多少量的 E4 转录本,但大量的 E1^E4 mRNA 的产物已经被广泛分析。在乳头瘤病毒生命周期中,E1^E4 基因产物通常在感染的晚期开始时,随着植物病毒基因组扩增的开始而可检测到。E4 有助于基因组扩增的成功和病毒合成,其高水平的表达表明在病毒释放和/或传播中具有额外的作用。一般来说,E4 可以通过免疫染色在活检材料中轻易观察到,并且可以在由各种乳头瘤病毒类型引起的病变中检测到,包括狗、兔和牛以及人类的乳头瘤病毒类型。E4 蛋白可以作为活跃病毒感染的生物标志物,在高危型人类乳头瘤病毒的情况下,也可以作为疾病严重程度的标志物。在一些皮肤病变中,E4 的表达水平可以高于病毒衣壳蛋白,并且可以占病变总蛋白含量的 30%。β、γ 和 Mu HPV 型的 E4 蛋白组装成独特的细胞质,有时是核内包含体颗粒。一般来说,E4 蛋白在 L2 和 L1 之前表达,其结构和功能首先被激酶修饰,随着感染细胞通过 S 和 G2 细胞周期阶段的进展,激酶也被蛋白酶修饰,因为细胞退出细胞周期并经历真正的终末分化。调节 E4 的激酶也同时影响其他病毒蛋白,包括蛋白激酶 A、细胞周期蛋白依赖性激酶、MAP 激酶家族成员和蛋白激酶 C。对于 HPV16 E1^E4,这些激酶调节 E1^E4 蛋白的主要功能之一,即与细胞角蛋白网络的关联,最终也被蛋白酶 calpain 切割,允许组装成类淀粉样纤维并重新组织角蛋白网络。尽管不同 HPV 型的 E4 蛋白在其一级氨基酸序列水平上看起来不同,但它们具有可识别的模块化组织和表达模式,这可能是保守功能和调节的基础。形成更高阶的多聚体和抑制细胞增殖是所有检查过的 E4 蛋白的共同特征。尽管尚未正式证明,但在病毒释放和传播中的作用仍然是 E4 的一个可能功能。
