The wild-type E6 and E7 genes of human papillomavirus type 16 (HPV16) can cooperate to immortalize normal human keratinocytes in culture. The E6 open reading frame of HPV16 and other HPV types highly associated with cervical cancer has the potential of encoding both full-length E6 and two truncated E6* proteins, the latter being generated via splicing within the E6 open reading frame portion of the E6-E7 polycistronic transcript. Those types, such as HPV6, that are infrequently associated with cervical carcinoma lack the splice site and encode only a full-length E6. We have now found that, in addition to cooperating with E7 to immortalize keratinocytes, HPV16 E6 can induce anchorage-independent growth in NIH 3T3 cells and trans-activate the adenovirus E2 promoter. HPV6 E6 was also able to trans-activate the adenovirus E2 promoter, although it was inactive in both cell transformation assays. An HPV16 splice site mutant which expressed only the full-length HPV16 E6 was active in all three assays, indicating that the E6* proteins are not required for these activities. The plasmid which encodes the E6* proteins was inactive and did not potentiate the activity of the HPV16 splice site mutant. The mutation that prevented splicing in E6-E7 mRNA severely reduced the level of E7 protein and increased E6 protein. Taken together, the results suggest that the primary function of the splice within E6 is to facilitate the translation of E7 and reduce translation of full-length E6, rather than to generate biologically active E6* proteins.
The existence of large geographic variations in the prevalence of esophageal cancer in some countries, such as China, indicates that environmental risk factors may be important in the development of this disease. Some studies have implicated genital-mucosal strains of human papillomaviruses (HPVs) in the etiology of this cancer. We conducted a case-control study in Shaanxi Province, China, an area with a population at high risk for esophageal cancer, to assess the association of this disease with infection by HPV type 16 (HPV16), the most common cancer-associated genital-mucosal HPV type. Ninety individuals with esophageal cancer and 121 cancer-free control subjects were identified among the patients in two hospitals in Xi'an, Shaanxi Province. The control subjects were matched to the case patients on the basis of age and sex. Blood specimens were drawn from all study subjects, and serum was isolated by routine methods. The presence of HPV16 antibodies in serum samples was determined by use of an enzyme-linked immunosorbent assay (ELISA) that used baculovirus-derived HPV16 virus-like particles as the antigen. A similar ELISA that used bovine papillomavirus type 1 (BPV1) virus-like particles as the antigen controlled for the specificity of HPV16 seroreactivity. Data from the HPV16 and the BPV1 assays were normalized with respect to results obtained in each assay with a control serum of known HPV16 seroreactivity. Odds ratios (ORs) and 95% confidence intervals (CIs) were calculated to examine the association between HPV16 seroreactivity and esophageal cancer. Reported P values are two-sided. The mean seroreactivity to HPV16 virus-like particles was significantly higher for the cancer patients than for the control subjects (mean value±standard deviation = 0.85± 0.22 versus 0.74±0.18; P <.0001). When the cancer patients and control subjects were compared by sex and age groups, the differences in mean seroreactivity remained statistically significant. The difference in mean seroreactivity to BPV1 virus-like particles between cancer patients and control subjects was not statistically significant (0.81± 0.28 versus 0.88 ± 0.32; P = .12); this result was not altered when sex and age groups were compared. By use of a cutoff point for HPV16 seropositivity that was established in studies of cervical neoplasia, 24% of the cancer patients were seropositive compared with 7% of the control subjects, yielding a sexand age-adjusted OR of 4.5 (95% CI = 1.8–11.9). In general, the OR for esophageal cancer increased with increasing HPV16 seroreactivity. HPV16 infection may be a risk factor for esophageal cancer. Further studies of the association between HPV16 infection and the incidence of esophageal cancer are needed.
Human papillomavirus type 16 (HPV16) E6 and E7 are selectively retained and expressed in HPV16-associated human genital tumors. E6 is active in several cell culture assays, including transformation of NIH 3T3 cells, trans activation of the adenovirus E2 promoter, and cooperation with E7 to immortalize normal human keratinocytes. Biochemically, the HPV16 E6 protein has been shown to bind to tumor suppressor protein p53 in vitro and induce its degradation in a rabbit reticulocyte lysate. To examine the relationship between the various biological activities of E6 and inactivation of p53, we tested the abilities of dominant negative mutants of p53 to substitute functionally for E6 in the three cell culture assays. While wild-type p53 inhibited keratinocyte proliferation, both mouse and human mutant p53s, in conjunction with E7, increased proliferation of the keratinocytes, resulting in generation of immortalized lines. However, in contrast to E6, mutant p53 was unable to induce transformation or trans activate the adenovirus E2 promoter in NIH 3T3 cells. These results suggest that inactivation of wild-type p53 is necessary for HPV-induced immortalization of human keratinocytes and that different or additional activities are required for E6-dependent transformation and trans activation of NIH 3T3 cells.
The E6 proteins of the high-risk human papillomaviruses (HPVs) have been shown to form a complex with and induce the degradation of human p53 in vitro. To determine whether p53 is degraded more rapidly in cells expressing E6 in vivo, the half-life of p53 was determined by pulse-chase analysis in early-passage normal human keratinocytes and fibroblasts, human keratinocytes immortalized with HPV type 16 (HPV16) E6 plus E7, and nonimmortal keratinocytes transfected with E6. The results of these experiments indicate that (i) the half-life of newly synthesized p53 is relatively long (4 h) in early-passage human keratinocytes and fibroblasts but short in keratinocytes expressing E6 (15 to 30 min), (ii) a similar increased rate of p53 degradation was measured in lines immortalized with HPV16 E6 plus E7 and senescent cells expressing E6, indicating that this increase is not simply the result of selection in the immortalized lines, and (iii) very low levels of expression of E6 result in a greatly decreased half-life of p53, suggesting that E6 acts in a catalytic manner.
Serological assays for measuring antibodies to human papillomavirus type 16 (HPV-16) virus-like particles (VLPs) have become important epidemiologic tools in recent years. However, the interlaboratory replicability of these assays has not been assessed. In this investigation, three laboratories tested a panel of specimens obtained from two different groups: 265 subjects in a vulvar cancer case-control study and 107 healthy volunteer blood donors. Each laboratory used an enzyme-linked immunosorbent assay (ELISA), but no attempt was made to standardize assay procedures among the three laboratories. The data showed good day-to-day intralaboratory replicability in laboratory 1 (correlation coefficient, > or = 0.88) and good intra-assay variability in laboratory 3 (correlation coefficient, > or = 0.93). Interlaboratory correlations, likewise, ranged between 0.61 and 0.80 in both case-control study subjects and healthy blood donors, indicating that ELISA optical density (OD) values between laboratories were linearly related regardless of the population. Kappa coefficients (kappa), based on each laboratory's categorical interpretation of its results (as positive or negative), showed good agreement (kappa, > 0.6) in case-control study subjects and moderate agreement (kappa, > or = 0.4) in blood donors, a population that had few strongly positive sera. When OD values near seropositive cutoffs were treated as indeterminates, there was little discordance between laboratories in either population. The data suggest that each laboratory measured the same humoral immune response and that their HPV-16 VLP ELISAs performed similarly (Pearson correlations). Interlaboratory differences, however, probably due to reagents and procedures, were considerably greater than intralaboratory day-to-day variability. Interlaboratory agreement in determining seropositivity (kappa) could be improved by sharing positive and negative serum controls and by treating marginal results as indeterminate. As part of continuing cooperation to improve interlaboratory agreement, we are preparing bulk serum control specimens to be shared and made available to interested researchers.
We tested the ability of vaccination with virus-like particles (VLPs) to protect domestic rabbits against papillomas induced by the cottontail rabbit papillomavirus (CRPV). A recombinant baculovirus system that expressed only the L1 major papillomavirus structural protein or L1 plus the minor L2 protein was used in insect cells as the source of VLPs. Groups of 10 rabbits were immunized with native or denatured VLPs from CRPV or type 1 bovine papillomavirus by using Freund's adjuvant. Alum was used as the adjuvant for an additional group immunized with CRPV L1-L2 VLPs. Animals were challenged with 5 x 10(10) and 2 x 10(11) particles on opposing flanks. No protection was seen in rabbits immunized with native or denatured bovine papillomavirus L1-L2 or with denatured CRPV L1-L2. In these groups, the lower and higher challenge doses resulted in 27 of 30 animals with extensive papillomas, with each of the remaining animals having a smaller number of persistent papillomas. Progression to carcinoma developed in 20 rabbits. Animals inoculated with native CRPV VLPs composed of L1 alone or L1-L2 developed many fewer lesions; the lower and higher challenge doses resulted in 17 of 29 and 5 of 29 rabbits, respectively, with no lesions, and the remainder developed only one to eight papillomas, which all regressed except for those on 1 rabbit. None developed cancer within 1 year of infection. Rabbits vaccinated with native CRPV VLPs developed high-titer antibodies in an enzyme-linked immunosorbent assay based on native VLPs, and passive transfer of serum or immunoglobulin G from rabbits immunized with CRPV VLPs protected against CRPV challenge. We conclude that native VLPs can induce antibody-mediated, type-specific protection against experimental papillomavirus infection.
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