Genetic studies have revealed natural amino acid variations within the human papillomavirus (HPV) type 16 E6 oncoprotein. To address the functional significance of E6 polymorphisms, 10 HPV16 E6 variants isolated from cervical lesions of Swedish women were evaluated for their activities in different in vitro and in vivo assays relevant to the carcinogenic potential of E6. Small differences between E6 prototype and variants, and among variants, were observed in transient expression assays that assessed p53 degradation, Bax degradation, and inhibition of p53 transactivation. More variable levels of activities were exhibited by the E6 proteins in assays that evaluated binding to the E6-binding protein (E6BP) or the human discs large protein (hDlg). The E6 prototype expressed moderate to high activity in the above assays. The L83V polymorphism, previously associated with risk for cancer progression in some populations, expressed similar levels of activity as that of the E6 prototype in most functional assays. On the other hand, L83V displayed more efficient degradation of Bax and binding to E6BP, but lower binding to hDlg. Results of this study indicate that naturally occurring amino acid variations in HPV16 E6 can alter activities of the protein important for its carcinogenic potential.
In this study we investigated the effect of HPV16 E6 on the Wnt/beta-catenin oncogenic signaling pathway. Luciferase reporter assays indicated that ectopically expressed E6 significantly augmented the Wnt/beta-catenin/TCF-dependent signaling response in a dose-dependent manner. This activity was independent of the ability of E6 to target p53 for degradation or bind to the PDZ-containing E6 targets. Epistasis experiments suggested that the stimulatory effect is independent of GSK3beta or APC. Coexpression, half-life determination, cell fractionation and immunofluorescence analyses indicated that E6 did not alter the expression levels, stability or cellular distribution of beta-catenin. Further experiments using E6 mutants defective for E6AP binding and E6AP knockdown cells indicated the absolute requirement of the ubiquitin ligase E6AP for enhancement of the Wnt signal by E6. Thus, this study suggests a role for the E6/E6AP complex in augmentation of the Wnt signaling pathway which may contribute to HPV induced carcinogenesis.
We have recently shown that human papillomavirus (HPV16) E6 oncoprotein exhibits two separate biological activities in genital keratinocytes (PHKs). E6 protein by itself is capable of inducing colonies of proliferating cells resistant to serum and calcium-induced differentiation, whereas both E6 and E7 are required for immortalization of PHK. Using epitope-tagged E6 carboxy-terminal truncation mutants, we mapped the domain between amino acid residues 132 and 141 as being essential for the induction of differentiation resistance (L. Sherman and R. Schlegel, J. Virol. 70, 3269-3279, 1996). To determine whether E6 protein's ability to alter PHK response to serum and calcium was associated with its ability to inactivate p53, we evaluated each of the above E6 mutants and three E6 natural variants in these respective assays. Our results demonstrate that the E6 region spanning residues 132-141 is required for p53 degradation and for abrogation of p53 transactivation, suggesting a possible correlation between E6 biological activity in altering differentiation and loss of p53 function. To evaluate whether selective inactivation of p53 is sufficient for altering the response of PHK to serum and calcium we investigated the capacity of plasmids encoding a dominant mutant human p53 and human MDM-2 to functionally substitute for E6 in colony formation in PHK. Plasmids were verified for their ability to inactivate wild-type p53 by testing their capacity to abrogate the p53 transactivation function. The results obtained showed that vectors encoding human MDM-2 and mutant p53, while active in inhibition of p53-dependent transactivation and capable of expressing stable proteins in PHK, failed to induce colonies of proliferating cells resistant to serum and calcium differentiation. These data argue that p53 inactivation may not be the sole E6 function required for altering the response of PHK to serum- and calcium-triggered differentiation.
Genetic variations in the E6 oncogene have been associated with different risk for cancer progression. In the present study, the functional significance of human papillomavirus (HPV) polymorphism in the E6 oncogene was investigated. Ten HPV16 E6 variants containing amino acid substitutions in the N-terminal region of E6 were evaluated for different biological and biochemical activities in human keratinocytes, the target cells for HPV infection. Western blot analyses of primary foreskin human keratinocytes or immortalized human keratinocytes, stably transduced with the E6 variants, revealed reduced p53 and Bax levels in all E6 expressing cultures. The reduction induced by most E6 proteins was at similar levels and comparable to the reduction induced by the E6 prototype. The ability of the proteins to induce serum/calcium-differentiation resistant colonies in primary keratinocytes was more variable. Overall activities of the variants ranged between 0.24- and 2.18-fold of the E6 prototype activity. The I27R/L83V variant showed the lowest activity whereas the R8Q variant showed the highest activity. The L83V polymorphism previously associated with risk for cancer progression in some populations, showed significant activity, comparable to that of the E6 prototype, in reducing p53 and Bax levels. Furthermore, this variant showed enhancement in the ability to induce colonies resistant to serum/calcium-triggered differentiation, however, the difference from the prototype was not statistically significant. This, and augmentation of other described functions might result in differences in L83V pathogenicity.
Transfection of human papillomavirus (HPV) 16 E6 oncogene into foreskin primary human keratinocytes (PHKs) causes the formation of colonies of viable cells resistant to serum-calcium differentiation. To define the stage of keratinocyte differentiation inhibited by E6, we examined the response of PHKs to serum and calcium with respect to parameters of both growth and differentiation. The effect of HPV16 E6 was evaluated by infection with recombinant retroviruses encoding the E6 protein. Results of these studies indicated that terminal differentiation of cultured foreskin keratinocytes, triggered by serum and calcium, is a progressive process (2-3 weeks) that ends with cell death with characteristics of apoptosis. Human keratinocyte terminal differentiation was accompanied by time-related changes in the expression of cellular proteins involved in the control pathways of apoptosis, including downregulation of Bcl-2 and p53 and upregulation of Bax, which coincided with the appearance of morphological signs of apoptosis. E6 expression did not override the differentiation-associated G1 arrest or prevent the induction of squamous differentiation-specific markers, transglutaminase 1 and involucrin. E6 expression led, however, to a significant reduction in cell stratification and cell death by apoptosis, which correlated with prolonged expression of Bcl-2 and reduced elevation of Bax levels that occurred concomitant with a complete loss of p53. The data argue that E6 inhibits terminal differentiation of foreskin PHKs through inhibition of their differentiation-induced apoptotic program.
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