Genital human papillomavirus (HPV) infection is the most common sexually transmitted infection, and virtually all cases of cervical cancer are attributable to infection by a subset of HPVs (reviewed in ref. 1). Despite the high incidence of HPV infection and the recent development of a prophylactic vaccine that confers protection against some HPV types, many features of HPV infection are poorly understood. It remains worthwhile to consider other interventions against genital HPVs, particularly those that target infections not prevented by the current vaccine. However, productive papillomavirus infection is species- and tissue-restricted, and traditional models use animal papillomaviruses that infect the skin or oral mucosa. Here we report the development of a mouse model of cervicovaginal infection with HPV16 that recapitulates the establishment phase of papillomavirus infection. Transduction of a reporter gene by an HPV16 pseudovirus was characterized by histology and quantified by whole-organ, multispectral imaging. Disruption of the integrity of the stratified or columnar genital epithelium was required for infection, which occurred after deposition of the virus on the basement membrane underlying basal keratinocytes. A widely used vaginal spermicide, nonoxynol-9 (N-9), greatly increased susceptibility to infection. In contrast, carrageenan, a polysaccharide present in some vaginal lubricants, prevented infection even in the presence of N-9, suggesting that carrageenan might serve as an effective topical HPV microbicide.
HPVs (human papillomaviruses) and other papillomaviruses have a unique mechanism of infection that has likely evolved to limit infection to the basal cells of stratified epithelium, the only tissue in which they replicate. Recent studies in a mouse cervicovaginal challenge model indicate that, surprisingly, the virus cannot initially bind to keratinocytes in vivo. Rather it must first bind via its L1 major capsid protein to heparan sulfate proteoglycans (HSPGs) on segments of the basement membrane (BM) exposed after epithelial trauma and undergo a conformational change that exposes the N-terminus of L2 minor capsid protein to furin cleavage. L2 proteolysis exposes a previously occluded surface of L1 that binds an as yet undetermined cell surface receptor on keratinocytes that have migrated over the BM to close the wound. Papillomaviruses are the only viruses that are known to initiate their infectious process at an extracellular site. In contrast to the in vivo situation, the virions can bind directly to many cultured cell lines through cell surface HSPGs and then undergo a similar conformational change and L2 cleavage. Transfer to the secondary receptor leads to internalization, uncoating in late endosomes, escape from the endosome by an L2-dependent mechanism, and eventual trafficking of an L2–genome complex to specific subnuclear domains designated ND10 bodies, where viral gene transcription is initiated. The infectious process is remarkably slow and asynchronous both in vivo and in cultured cells, taking 12–24 h for initiation of transcription. The extended exposure of antibody neutralizing determinants while the virions reside on the BM and cell surfaces might, in part, account for the remarkable effectiveness of vaccines based on neutralizing antibodies to L1 virus-like particles or the domain of L2 exposed after furin cleavage.
Using a murine challenge model, we previously determined that human papillomavirus (HPV) pseudovirions initially bind preferentially to the cervicovaginal basement membrane (BM) at sites of trauma. We now report that the capsids undergo a conformational change while bound to the BM that results in L2 cleavage by a proprotein convertase (PC), furin, and/or PC5/6, followed by the exposure of an N-terminal cross-neutralization L2 epitope and transfer of the capsids to the epithelial cell surface. Prevention of this exposure by PC inhibition results in detachment of the pseudovirions from the BM and their eventual loss from the tissue, thereby preventing infection. Pseudovirions whose L2 had been precleaved by furin can bypass the PC inhibition of binding and infectivity. Cleavage of heparan sulfate proteoglycans (HSPG) with heparinase III prevented infection and BM binding by the precleaved pseudovirions, but did not prevent them from binding robustly to cell surfaces. These results indicate that the infectious process has evolved so that the initial steps take place on the BM, in contrast to the typical viral infection that is initiated by binding to the cell surface. The data are consistent with a dynamic model of in vivo HPV infection in which a conformational change and PC cleavage on the BM allows transfer of virions from HSPG attachment factors to an L1-specific receptor on basal keratinocytes migrating into the site of trauma.furin ͉ HSPG ͉ mouse model ͉ proprotein convertase P apillomaviruses (PVs) infect mucosal and cutaneous stratified squamous epithelia, resulting in benign lesions, some of which can progress to invasive cancer. Human papillomavirus (HPV) 16 and several other PVs that preferentially infect the anogenital mucosa are responsible for virtually all cases of cervical cancer, as well as a number of other mucosal epithelial malignancies. It has been recognized for decades that efficient induction of experimental PV infection of animals requires local wounding in conjunction with virus exposure (1-4). However, there has been little molecular insight into the in vivo steps by which PVs initiate the infectious process.We recently described a murine cervicovaginal challenge model of PV transmission that is amenable to examination of the early in vivo events of PV infection (5, 6). It employs high titer PV pseudoviruses, which are authentic PV capsids composed of the L1 major and L2 minor structural proteins that have encapsidated a non-PV plasmid encoding a quantifiable reporter gene to monitor successful infection (7). PV pseudoviruses abrogate the exquisite species specificity of the viral gene expression program of authentic PV virions, while retaining the early events of PV infection, including the preferential infection of keratinocytes in vivo. In the initial characterization of the mouse genital tract model, we confirmed that wounding by the transient disruption of cervicovaginal epithelial integrity, by physical or chemical means, is essential for efficient infection (5). It was shown that ...
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