Weiss R S, Lee S S, Prasad B V, Javier R T
Division of Molecular Virology, Baylor College of Medicine, Houston, Texas 77030, USA.
J Virol. 1997 Mar;71(3):1857-70. doi: 10.1128/JVI.71.3.1857-1870.1997.
An essential oncogenic determinant of subgroup D human adenovirus type 9 (Ad9), which uniquely elicits estrogen-dependent mammary tumors in rats, is encoded by early region 4 open reading frame 1 (E4 ORF1). Whereas Ad9 E4 ORF1 efficiently induces transformed foci on the established rat embryo fibroblast cell line CREF, the related subgroup A Ad12 and subgroup C Ad5 E4 ORF1s do not (R. T. Javier, J. Virol. 68:3917-3924, 1994). In this study, we found that the lack of transforming activity associated with non-subgroup D adenovirus E4 ORF1s in CREF cells correlated with significantly reduced protein levels compared to Ad9 E4 ORF1 in these cells. In the human cell line TE85, however, the non-subgroup D adenovirus E4 ORF1s produced protein levels higher than those seen in CREF cells as well as transforming activities similar to that of Ad9 E4 ORF1, suggesting that all adenovirus E4 ORF1 polypeptides possess comparable cellular growth-transforming activities. In addition, searches for known proteins related to these novel viral transforming proteins revealed that the E4 ORF1 proteins had weak sequence similarity, over the entire length of the E4 ORF1 polypeptides, with a variety of organismal and viral dUTP pyrophosphatase (dUTPase) enzymes. Even though adenovirus E4 ORF1 proteins lacked conserved protein motifs of dUTPase enzymes or detectable enzymatic activity, E4 ORF1 and dUTPase proteins were predicted to possess strikingly similar secondary structure arrangements. It was also established that an avian adenovirus protein, encoded within a genomic location analogous to that of the human adenovirus E4 ORF1s, was a genuine dUTPase enzyme. Although no functional similarity was found for the E4 ORF1 and dUTPase proteins, we propose that human adenovirus E4 ORF1 genes have evolved from an ancestral adenovirus dUTPase and, from this structural framework, developed novel transforming properties.
9型人腺病毒D亚组(Ad9)是大鼠雌激素依赖性乳腺肿瘤的独特诱发因素,其一个关键致癌决定因素由早期区域4开放阅读框1(E4 ORF1)编码。尽管Ad9 E4 ORF1能在已建立的大鼠胚胎成纤维细胞系CREF上高效诱导转化灶,但相关的A亚组Ad12和C亚组Ad5 E4 ORF1却不能(R. T. 哈维尔,《病毒学杂志》68:3917 - 3924,1994年)。在本研究中,我们发现与非D亚组腺病毒E4 ORF1相关的CREF细胞转化活性缺乏,与这些细胞中相较于Ad9 E4 ORF1显著降低的蛋白质水平相关。然而,在人细胞系TE85中,非D亚组腺病毒E4 ORF1产生的蛋白质水平高于CREF细胞中的水平,并且具有与Ad9 E4 ORF1相似的转化活性,这表明所有腺病毒E4 ORF1多肽都具有相当的细胞生长转化活性。此外,对与这些新型病毒转化蛋白相关的已知蛋白质进行搜索发现,E4 ORF1蛋白在E4 ORF1多肽的全长范围内与多种生物体和病毒的dUTP焦磷酸酶(dUTPase)酶具有微弱的序列相似性。尽管腺病毒E4 ORF1蛋白缺乏dUTPase酶的保守蛋白基序或可检测的酶活性,但E4 ORF1和dUTPase蛋白预计具有惊人相似的二级结构排列。还确定了一种禽腺病毒蛋白,其编码位置与人类腺病毒E4 ORF1的位置类似,是一种真正的dUTPase酶。尽管未发现E4 ORF1和dUTPase蛋白的功能相似性,但我们提出人类腺病毒E4 ORF1基因是从祖先腺病毒dUTPase进化而来,并从这个结构框架发展出了新的转化特性。