Human papillomavirus type 16 (HPV-16) is a DNA tumor virus that is associated with human anogenital cancers and encodes two transforming proteins, E6 and E7. The E7 protein has been shown to bind to the retinoblastoma tumor suppressor gene product, pRB. This study shows that the E6 protein of HPV-16 is capable of binding to the cellular p53 protein. The ability of the E6 proteins from different human papillomaviruses to form complexes with p53 was assayed and found to correlate with the in vivo clinical behavior and the in vitro transforming activity of these different papillomaviruses. The wild-type p53 protein has tumor suppressor properties and has also been found in association with large T antigen and the E1B 55-kilodalton protein in cells transformed by SV40 and by adenovirus type 5, respectively, providing further evidence that the human papillomaviruses, the adenoviruses, and SV40 may effect similar cellular pathways in transformation.
The E7 proteins encoded by the human papillomaviruses (HPVs) associated with anogenital lesions share significant amino acid sequence homology. The E7 proteins of these different HPVs were assessed for their ability to form complexes with the retinoblastoma tumor suppressor gene product (p105‐RB). Similar to the E7 protein of HPV‐16, the E7 proteins of HPV‐18, HBV‐6b and HPV‐11 were found to associate with p105‐RB in vitro. The E7 proteins of HPV types associated with a high risk of malignant progression (HPV‐16 and HPV‐18) formed complexes with p105‐RB with equal affinities. The E7 proteins encoded by HPV types 6b and 11, which are associated with clinical lesions with a lower risk for progression, bound to p105‐RB with lower affinities. The E7 protein of the bovine papillomavirus type 1 (BPV‐1), which does not share structural similarity in the amino terminal region with the HPV E7 proteins, was unable to form a detectable complex with p105‐RB. The amino acid sequences of the HPV‐16 E7 protein involved in complex formation with p105‐RB in vitro have been mapped. Only a portion of the sequences that are conserved between the HPV E7 proteins and AdE1A were necessary for association with p105‐RB. Furthermore, the HPV‐16 E7‐p105‐RB complex was detected in an HPV‐16‐transformed human keratinocyte cell line.
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