dHuman papillomavirus (HPV) entry is accompanied by multiple receptor-induced conformational changes (CCs) affecting both the major and minor capsid proteins, L1 and L2. Interaction of heparan sulfate (HS) with L1 is essential for successful HPV16 entry. Recently, cocrystallization of HPV16 with heparin revealed four distinct binding sites. Here we characterize mutant HPV16 to delineate the role of engagement with HS binding sites during infectious internalization. Site 1 (Lys278, Lys361), which mediates primary binding, is sufficient to trigger an L2 CC, exposing the amino terminus. Site 2 (Lys54, Lys356) and site 3 (Asn57, Lys59, Lys442, Lys443) are engaged following primary attachment and are required for infectious entry. Site 2 mutant particles are efficiently internalized but fail to undergo an L1 CC on the cell surface and subsequent uncoating in the endocytic compartment. After initial attachment to the cell, site 3 mutants undergo L1 and L2 CCs and then accumulate on the extracellular matrix (ECM). We conclude that the induction of CCs following site 1 and site 2 interactions results in reduced affinity for the primary HS binding site(s) on the cell surface, which allows engagement with site 3. Taken together, our findings suggest that HS binding site engagement induces CCs that prepare the virus for downstream events, such as the exposure of secondary binding sites, CCs, transfer to the uptake receptor, and uncoating.H uman papillomaviruses (HPVs) are small, nonenveloped epitheliotropic DNA viruses. HPV infection usually induces benign papillomas of the skin and mucosa. However, certain species, especially HPV16, are known as "high risk" due to their involvement in the progression to invasive carcinomas. Infection by HPV is considered necessary, though not sufficient, for the development of cervical cancer (1, 2). HPV infection is also associated with various anogenital and head and neck cancers (3). Despite the clear medical importance of preventing HPV-induced lesions, limited molecular detail regarding the attachment and entry of the virus is available. HPVs productively infect only epithelial cells in the skin and mucosa and depend on the differentiation of these cells for the completion of the viral life cycle (4). To bypass this obstacle, an in vitro surrogate system for viral propagation using a marker gene encapsidated into the viral capsid proteins was developed (5-7). This pseudovirus system overcomes the tropism and species specificity for viral propagation displayed by HPVs, allowing for study of the early events in the infection process.The papillomavirus virion is composed of the major and minor capsid proteins, L1 and L2, respectively. L1 is present in 360 copies organized into 72 pentamers, referred to as capsomeres (8-10). The L2 protein is present in an undetermined number of copies and is initially hidden inside the L1 structure prior to attachment to the cell surface (11). The outer virion shell, formed via pentavalent and hexavalent capsomere interactions between L1 molecules, medi...
