The region of the HPV E7 oncoprotein homologous to adenovirus E1a and Sv40 large T antigen contains separate domains for Rb binding and casein kinase II phosphorylation.

Some genital human papillomavirus (HPV) types, such as 16 and 18, are highly associated with malignant cervical tumors while others, such as HPV 6, are only rarely found in these malignancies. The E7 oncoproteins of HPV 6, 16 and 18 each have a 17 amino acid region with striking homology to adenovirus E1a and SV40 LT. E1a, LT and the E7 oncoprotein of HPV16 all bind the cellular Rb protein in vitro, and for E1a and LT this region of homology contains sequences essential for interaction with Rb. We have now found that in HPV 16 E7 this region (amino acids 21-37) contains two separate biochemical activities, each of which contributes to E7-mediated transformation. Rb binding was localized to the N terminus of this region, while the C terminus was shown to serve as a substrate for casein kinase (CK) II, which phosphorylated serine-31 and serine-32. Replacement of the two serines by non-phosphorylatable amino acids led to a reduction in transforming activity and abolished phosphorylation but did not affect Rb binding. Rb binding and CK II phosphorylation were also examined for the E7 proteins of HPV 6 and HPV 18. HPV 16 and 18 E7 bound similar amounts of Rb, but HPV 6 E7 consistently bound less. Phosphorylation rates also varied, with HPV 18 E7 being 2-fold faster than HPV 16 E7, which in turn was 2-fold faster than HPV 6 E7. We conclude that Rb binding and phosphorylation of E7 by CKII are independent activities which are required for efficient transformation by E7 and that these activities correlate directly with the relative oncogenic potential of these viruses.     

Mutational analysis of human papillomavirus type 16 E7 functions.

The human papillomavirus type 16 E7 gene encodes a nuclear oncoprotein (98 amino acids [AAs] long) consisting of three regions: regions 1 (AAs 1 to 20) and 2 (AAs 21 to 40), which show high homology to the sequences of conserved domains 1 and 2, respectively, of adenovirus E1A; and region 3 (AAs 41 to 98) containing two metal-binding motifs Cys-X-X-Cys (AAs 58 and 91 to 94). We constructed AA deletion (substitution) mutants and single-AA substitution mutants of E7 placed under the control of the simian virus 40 promoter and examined their biological functions. Stable expression of E7 protein in monkey COS-1 cells required almost the entire length of E7 and was markedly lowered by the mutations in region 3. Transactivation of the adenovirus E2 promoter in monkey CV-1 cells was lowered by the mutations. It was abolished by changing Cys-24 to Gly and markedly decreased by a mutation at His-2 or at the metal-binding motifs in region 3. Focal transformation of rat 3Y1 cells by E7 was eliminated by changing His-2 to Asp or Cys-24 to Gly and was greatly impaired by changing Cys-61 or Cys-94 to Gly. The transforming function survived mutations at Leu-13 and Cys-68 and deletion of Asp-Ser-Ser (AAs 30 to 32). The data suggest that regions 1 to 3 are required for its functions and that the meta-binding motifs in region 3 are required to maintain a stable or functional structure of the E7 protein.     

Human papillomavirus type 18 E7 protein requires intact Cys-X-X-Cys motifs for zinc binding, dimerization, and transformation but not for Rb binding.

Human papillomavirus type 18 (HPV-18) E7 proteins bind zinc through Cys-X-X-Cys repeats located at the C terminus of the protein. In order to examine the role of these cysteine motifs in E7 function, we expressed the HPV-18 E7 protein in bacteria and found that purified E7 forms a dimer through interactions with zinc. Mutants with single mutations within the Cys-X-X-Cys motifs bound a reduced level of zinc in a zinc blot assay, while a double mutant lost all zinc-binding activity. When expressed in vivo, none of the mutants cooperated with an activated ras oncogene to transform primary rat embryo fibroblasts, but all mutants retained nearly wild-type Rb-binding activity. The results indicate that the cysteine motifs play an important role in transformation by HPV-18 E7 but do not contribute to Rb binding.     

The E7 oncoprotein associates with Mi2 and histone deacetylase activity to promote cell growth

E7 is the main transforming protein of human papilloma virus type 16 (HPV16) which is implicated in the formation of cervical cancer. The transforming activity of E7 has been attributed to its interaction with the retinoblastoma (Rb) tumour suppressor. However, Rb binding is not sufficient for transformation by E7. Mutations within a zinc finger domain, which is dispensable for Rb binding, also abolish E7 transformation functions. Here we show that HPV16 E7 associates with histone deacetylase in vitro and in vivo, via its zinc finger domain. Using a genetic screen, we identify Mi2beta, a component of the recently identified NURD histone deacetylase complex, as a protein that binds directly to the E7 zinc finger. A zinc finger point mutant which is unable to bind Mi2beta and histone deacetylase but is still able to bind Rb fails to overcome cell cycle arrest in osteosarcoma cells. Our results suggest that the binding to a histone deacetylase complex is an important parameter for the growthpromoting activity of the human papilloma virus E7 protein. This provides the first indication that viral oncoproteins control cell proliferation by targeting deacetylation pathways.     

人乳头瘤病毒16型E6和E7基因及其突变体转化活性的研究

为筛选出可用于研制HPV治疗性疫苗的HPV16型E6和E7基因突变体,故将HPV16型原型株(德国株)E6和E7基因及其各种突变体分别转染Balb/c3T3细胞,观察转染后的细胞在软琼脂培养中的集落形成能力和在裸鼠体内的成瘤能力.结果表明,单独转染和共转染HPV16野生型E6和E7基因的Balb/c3T3细胞系,在软琼脂中呈集落样生长,并在裸鼠体内成瘤;而转染E6基因突变体mE6(50G)、E7基因的两种突变体mE7-1(24G26G)和mE7-3(24G26G67R)以及共转染mE6和mE7-1的Balb/c3T3细胞,在软琼脂培养中极少形成集落,也不能在裸鼠体内成瘤.提示经结构改造后的HPV16 E6和E7基因已失去了对Balb/c3T3细胞的转化活性,而保留了免疫原性,可用于HPV16相关肿瘤治疗性疫苗的构建.     

Multiple regions of v-Fos protein involved in the activation of AP1-dependent transcription: is trans-activation crucial for transformation?

We show that trans-activation by v-Fos requires several functionally separable regions, including the leucine repeat, the basic DNA-binding region, a directly adjacent acidic cluster, and additional flanking sequences. Structural alterations in the flanking regions are in part responsible for the greater trans-activating potential of the fos gene product of the Finkel-Biskis-Reilly mouse osteosarcoma virus, FBR-MuSV. A point mutation in the acidic cluster, which is known to activate the immortalizing potential of Fos, leads to a significant increase in trans-activation. However, comparison of the trans-activating and transforming properties of mutant Fos proteins suggests that functions other than trans-activation are involved in the induction of transformation.     

Identification of human papillomavirus type 18 transforming genes in immortalized and primary cells.

The selective retention and expression of the E6-E7 region of human papillomavirus (HPV) types 16 and 18 in cervical carcinomas suggests that these viral sequences play a role in the development of genital neoplasia. Each of three possible gene products, E6, E6*, and E7, from this region of HPV-18 were examined for transforming properties in several types of rodent cells. We have found that in immortalized fibroblasts, both E6 and E7 (but not E6*) are capable of inducing anchorage-independent growth. In rat embryo cells, the HPV-18 E7 open reading frame was an effective immortalizing agent and complemented an activated ras oncogene for transformation. In both immortalized and primary cells, transformation was observed when the HPV-18 sequences were expressed from either the HPV-18 promoter or a heterologous promoter. The E6-E7 region is not, however, the sole transforming domain of HPV-18, since another portion of the early region, possibly E5, also exhibited transforming capability in immortalized fibroblasts. The development of human cervical carcinomas may therefore involve a series of steps involving multiple viral and cellular gene products.     

Transforming properties of the cottontail rabbit papillomavirus oncoproteins Le6 and SE6 and of the E8 protein.

Cottontail rabbit papillomavirus induces on cottontail and domestic rabbits papillomas which progress at a high frequency to carcinoma. The virus encodes three transforming proteins; one is translated from open reading frame (ORF) E7 and binds the retinoblastoma protein, and two, LE6 and SE6, are translated from the first and second ATGs of ORF E6, respectively. Here we show that neither of the E6 proteins coprecipitated with p53 in vitro, nor did they bind to a recently identified E6-binding protein (J. J. Chen, C. E. Reid, V. Band, and E. Androphy, Science 269:529-531, 1995). This protein was shown to bind to the E6 proteins of the high-risk human papillomairus types 16 and 18 but not to the low-risk human papillomavirus types VI and II. In-frame deletions cloned into the pZipNeo vector were used to identify structural features of SE6 and LE6 important for transformation of NIH 3T3 cells. Three deletions covering the amino-terminal half of SE6 did not transform cells. In two of the three deletions, two Cys-X-X-Cys motifs were deleted, each deletion preventing the formation of one of the potential small Zn fingers of SE6. Among the LE6 deletions, only one had a reduced transformation efficiency, while seven transformed cells at least as efficiently as wild-type LE6. In each of three of these seven mutants, two Cys-X-X-Cys motifs were deleted. None of the three amino acid deletions which abolished transformation by SE6 reduced transformation by LE6. Furthermore, transformation did not correlate with the level of SE6 or LE6 proteins detectable. ORF E8 colinear with ORF E6, which could generate a 50-amino-acid protein with a hydrophobic segment, did not transform cells when cloned into the pZipNeo vector. However, mutation of the E8 ATG, which did not alter the amino acid sequence of LE6, increased transformation by LE6 without affecting the level of LE6 expression. The data suggest that transformation by the E6 proteins is not mediated by interfering with p53 function or through binding to the E6-binding protein. Furthermore, different structural features are important to maintain transformation functions and protein stability of LE6 and SE6. Finally, E8 seems not to be a transforming protein but rather appears to modulate transformation bv LE6.     

不同地区HPV16 E7基因的克隆及序列差异分析

采用PCR扩增、pGEM T载体克隆和核苷酸序列分析的方法对一例武汉地区及两例五峰县高发区宫颈癌患者体内HPV16型的E7基因编码区进行序列分析并与野生型 (德国标准株 )及已发表的HPV16湖北株 (HPVHB)进行了比较。结果发现武汉地区HPV16型E7基因仅第 5 4位出现一个同义突变 ,而高发区HPV16型E7基因存在差异 ,第 77位氨基酸由精氨酸 (Arg)变为半胱氨酸 (Cys) ,第 96位由谷氨酰氨酸 (Gln)变为精氨酸 (Arg) ,E7蛋白的二级结构及亲、疏水性也相应改变 ,与野生型有较大差异     

Regions of human papillomavirus type 16 E7 oncoprotein required for immortalization of human keratinocytes.

Binding of the retinoblastoma gene product (pRB) by viral oncoproteins, including the E7 of human papillomavirus type 16 (HPV 16), is thought to be important in transformation of cells. One of the steps in transformation is the immortalization process. Here we show that mutations in E7 within the full-length genome which inhibit binding of pRB do not abrogate the ability of the HPV 16 DNA to immortalize primary human epithelial (keratinocyte) cells. A mutation in one of the cysteines of a Cys-X-X-Cys motif which is contained in the carboxy half of the E7 and is part of a zinc finger arrangement completely eliminates the ability of HPV 16 DNA to immortalize cells. The results indicate the importance of E7 in the immortalization of primary keratinocytes but suggest that the binding of pRB is not essential.     

Computer-assisted analysis of molecular mimicry between human papillomavirus 16 E7 oncoprotein and human protein sequences

The immunology of human papillomavirus (HPV) infections has peculiar characteristics. The long latency for cervical cancer development after primary viral infection suggests mechanisms that may aid the virus in avoiding the host immunosurveillance and establishing persistent infections. In order to understand whether molecular mimicry phenomena might explain the ability of HPV to avoid a protective immune response by the host cell, sequence similarity between HPV16 E7 oncoprotein and human self-proteins was examined by computer-assisted analysis. Data were obtained showing that the HPV16 E7 protein has high and widespread similarity to several human proteins involved in a number of critical regulatory processes. In addition, multiple identical and different E7 peptide motifs are present in the same human protein. Thus, sharing of common motifs between viral oncoproteins and molecules of normal cells may be one cause underlying the scarce immunogenicity of HPV infections. The hypothesis is advanced that synthetic peptides harbouring viral motifs not and/or scarcely represented in the host's cellular proteins may represent a valuable immunotherapeutic approach for cervical cancer treatment.