Human papillomavirus type 16 E7 DNA vaccine: mutation in the open reading frame of E7 enhances specific cytotoxic T-lymphocyte induction and antitumor activity.
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A human papillomavirus type 16 E7 DNA vaccine with the open reading frame encoding mutations in two zinc-binding motifs expressed a rapidly degraded E7 protein. This vaccine induced a significantly stronger E7-specific cytotoxic T-lymphocyte response and better tumor protection in mice than did a wild-type E7 DNA vaccine expressing a stable E7 protein. (+info)
Identification of a gene encoding a human oxysterol-binding protein-homologue: a potential general molecular marker for blood dissemination of solid tumors.
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This study describes a new potential role in human cancer for a gene, HLM, isolated by differential display, that bears homology to an oxysterol-binding protein. A significant association between increased expression of HLM with metastatic disease was found. HLM mRNA levels were increased in circulating tumor cells in patients' peripheral blood and in primary human epithelial cells expressing the human papillomavirus16 E6 and E7 proteins. HLM mRNA was not detected in most normal human tissues, including peripheral blood and lymph node. These findings indicate that HLM may function as a potential marker for tumor dissemination. (+info)
Disruption of retinoblastoma protein family function by human papillomavirus type 16 E7 oncoprotein inhibits lens development in part through E2F-1.
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Complexes between the retinoblastoma protein (pRb) and the transcription factor E2F-1 are thought to be important for regulating cell proliferation. We have shown previously that the E7 oncoprotein from human papillomavirus type 16, dependent upon its binding to pRb proteins, induces proliferation, disrupts differentiation, and induces apoptosis when expressed in the differentiating, or fiber, cells of the ocular lenses in transgenic mice. Mice that carry a null mutation in E2F-1 do not exhibit any defects in proliferation and differentiation in the lens. By examining the lens phenotype in mice that express E7 on an E2F-1 null background, we now show genetic evidence that E7's ability to alter the fate of fiber cells is partially dependent on E2F-1. On the other hand, E2F-1 status does not affect E7-induced proliferation in the undifferentiated lens epithelium. These data provide genetic evidence that E2F-1, while dispensible for normal fiber cell differentiation, is one mediator of E7's activity in vivo and that the requirement for E2F-1 is context dependent. These data suggest that an important role for pRb-E2F-1 complex during fiber cell differentiation is to negatively regulate cell cycle progression, thereby allowing completion of the differentiation program to occur. (+info)
Overlapping YY1- and aberrant SP1-binding sites proximal to the early promoter of human papillomavirus type 16.
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Transcription of oncogenes E6 and E7 of human papillomavirus type 16 (HPV-16) from the P97 promoter is regulated by viral and cellular proteins. The transcription factor YY1 represses transcription through binding to cognate sequences in the long control region (LCR). In HPV-16 DNA from cervical carcinomas, mutations of YY1-binding sites have been identified that increase P97 activity 3-6-fold. A second, SP1-binding site has now been identified in the HPV-16 LCR (nt 7842-7847), which overlaps the YY1-binding site at positions 7840-7848. A point mutation within this YY1 site in viral DNA from a cervical cancer, previously shown to prevent YY1 binding, was shown to increase SP1 binding and P97 activity 4.7-fold. An engineered mutant eliminating SP1 binding showed only 1- to 1.6-fold increased P97 activity. It is concluded that competition between SP1 and YY1 for DNA binding plays a major role in YY1 repression mediated by the binding site at positions 7840-7848. (+info)
Regulation of cyclin E gene expression by the human papillomavirus type 16 E7 oncoprotein.
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In this study, we characterized the 5' regulatory region of the murine cyclin E gene and analysed activation of the gene by the E7 oncogene of human papillomavirus type 16 in transfection experiments. We found that the murine cyclin E promoter is composed of multiple regulatory elements, and we present evidence for at least two independent transcription units, designated P1 and P2. Overlapping binding sites for the cellular transcription factors Sp1 and E2F were identified in both promoters, and we found that E2F-mediated activation of transcription is inhibited by Sp1 in cotransfection experiments. The E2F/Sp1 binding sites contribute to transcriptional activation by E7, and the data suggest that the cyclin E gene is rendered E7-inducible through the combination of several cis-acting elements which display only weak intrinsic responsiveness to E7. (+info)
BRCA1-associated growth arrest is RB-dependent.
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BRCA1 is a susceptibility gene for breast and ovarian cancer with growth-inhibitory activity for which the mechanism of action remains unclear. When introduced into cells, BRCA1 inhibits growth of some but not all cell lines. In an attempt to uncover the mechanism of growth suppression by BRCA1, we examined a panel of cell lines for their ability to reduce colony outgrowth in response to BRCA1 overexpression. Of all variables tested, only those cells with wild-type pRb were sensitive to BRCA1-induced growth suppression. In cells with an intact rb gene, inactivation of pRb by HPV E7 abrogates the growth arrest imposed by BRCA1. In accordance with these observations, we found that BRCA1 could not suppress BrdUrd uptake in primary fibroblasts from rb-/- mice and exhibited an intermediate ability to inhibit DNA synthesis in rb+/- as compared with rb+/+ cells. We further found that the BRCA1 protein complexes with the hypophosphorylated form of pRb. This binding is localized to amino acids 304-394 of BRCA1 protein and requires the ABC domain of pRb. In-frame deletion of BRCA1 fragment involved in interaction with pRb completely abolished the growth-suppressive property of BRCA1. Although it has been reported that BRCA1 interacts with p53, we find the p53 status did not affect the ability of BRCA1 to suppress colony formation. Our data suggest that the growth suppressor function of BRCA1 depends, at least in part, on Rb. (+info)
Interaction of the fork head domain transcription factor MPP2 with the human papilloma virus 16 E7 protein: enhancement of transformation and transactivation.
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The high risk human papillomavirus (HPV) type 16 E7 protein affects cell growth control and promotes transformation by interfering with functions of cellular proteins. A key target of E7 is the tumor suppressor protein p105RB. Although this interaction is required for E7-dependent transformation, other cellular molecules must also be involved, because some E7 mutants that have reduced transforming abilities still bind to p105RB. In order to identify additional proteins that interact with E7 and that may be responsible to mediate its transforming function, we have used the C-terminal half of E7 in a yeast two-hybrid screen. We identified the fork head domain transcription factor M phase phosphoprotein 2 (MPP2) as an interaction partner of E7. Specific interaction of the two proteins both in vitro and in vivo in mammalian cells was detected. The interaction of MPP2 with E7 is functionally relevant since MPP2 enhances the E7/Ha-Ras co-transformation of rat embryo fibroblasts. In addition HPV16 E7, but neither non-transforming mutants of HPV16 E7 nor low risk HPV6 E7, was able to stimulate MPP2-specific transcriptional activity. Thus, MPP2 is a potentially important target for E7-mediated transformation. (+info)
Serum antibodies to human papillomavirus 16 proteins in women from Brazil with invasive cervical carcinoma.
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Serum samples from 194 cases and 217 controls participating in a case-control study of invasive cervical cancer in Brazil were examined for antibodies to human papillomavirus (HPV) 16 virus-like particles (VLPs) by ELISA. The prevalence of antibody in cases and controls was 47.4 versus 24.4% (P < 0.001). The prevalence was higher in women who had HPV-16 DNA in the genital tract (54.2%) than in those with other HPVs (36.8%) or no HPVs (44.8%), but the differences were not statistically significant. Among cases and controls, HPV-16 VLP antibodies were associated with a greater number of lifetime sexual partners (chi2 for trend, P < 0.001). Among controls, age was inversely associated with HPV-16 VLP seroreactivity (chi2 for trend, P = 0.019). The sera were previously tested for antibodies to HPV-16 E6 and E7 oncoproteins; there was no correlation between antibody titers to HPV-16 E6 or E7 and VLPs. The HPV-16 serological assays were compared as screening tests for invasive cervical cancer. The sensitivity and specificity estimates were 47.4 and 75.6% for HPV-16 VLP serology, 63.4 and 89.9% for either HPV-16 E6 or E7 serology, and 53.6 and 93.6% for high titers of either HPV-16 E6 or E7 or VLP antibodies. The utility of HPV-16 VLP ELISA as a screening test for invasive cervical cancer is limited by a high seroprevalence in women with probable prior exposure to HVP 16 but without disease. (+info)