High-risk human papillomaviruses (HPVs) (e.g., HPV-16) cause anogenital and head and neck cancers, and low-risk HPVs (e.g., HPV-6) cause benign hyperproliferative disease. The E7 protein of HPV-16 binds all retinoblastoma tumor suppressor protein (pRB) family members with higher affinity than HPV-6E7. The HPV-16 E7 protein has been reported to target pRB family members for degradation and to immortalize cells. Here we tested the hypothesis that the low-risk E7 protein has an intrinsic ability to decrease expression of pRB family members. First, we introduced a high-affinity pRBbinding site into HPV-6 E7 (6E7G22D) and showed that, in human foreskin keratinocytes, HPV-6 E7G22D decreased the level of pRB protein but not pRB mRNA. Second, we analyzed the ability of wild-type HPV-6 E7 to destabilize the other pRB family members, p107 and p130. HPV-6 E7, like HPV-16 E7, decreased the level of p130 protein. This decrease was inhibited by MG132, a proteasome inhibitor. Binding of HPV-6 E7 to p130 was necessary but not sufficient to decrease the level of p130. Furthermore, the destabilization of p130 correlated with a decrease in the expression of involucrin, a differentiation marker. We suggest that the shared activity of HPV-16 E7 and HPV-6 E7 to destabilize p130 and decrease or delay differentiation may be related to the role of E7 in the HPV life cycle. The added ability of HPV-16 E7 to regulate pRB and p107 may be related to oncogenic activity.keratinocytes ͉ RB family members ͉ human papillomaviruses ͉ differentiation H uman papillomaviruses (HPVs) are nonenveloped viruses that contain an Ϸ8,000-bp circular DNA genome. HPVs infect mucosal and cutaneous stratified squamous epithelia and are divided into high-risk and low-risk viruses based on their pathogenicity (1). The low-risk viruses, e.g., HPV-6 and HPV-11, mainly cause benign hyperproliferative disease, including the most prevalent viral sexually transmitted disease, condyloma acuminata or genital warts. The high-risk viruses, e.g., HPV-16, HPV-18, and HPV-31, are normally found in malignant tumors, including cervical cancer and some head and neck cancers (1). The replication cycle of all HPVs is differentiation-dependent (1, 2). The virus presumably enters through a break in the epithelium and initially infects the basal cells, which are the proliferating epithelial cells (keratinocytes). In these cells, the virus undergoes the nonproductive stage of its life cycle, where it is maintained as a low-copy-number episome. When the infected cell moves to the suprabasal compartment, both the high-risk and low-risk viruses undergo the productive phase of their life cycle: amplifying their DNA, synthesizing structural proteins, and producing infectious virus. Uninfected cells in this suprabasal compartment normally have exited the cell cycle and begun to differentiate. Because HPVs require the host cell DNA replication machinery to replicate, the viral DNA must encode proteins able to generate an intracellular environment within this differentiated compartment approp...
