Virus-like gene transfer into cells mediated by polyoma virus pseudocapsids

Krauzewicz, Nina; Štokrová, Jitka; Jenkins, Christopher M.; Elliott, Martin; Higgins, Claire A.; Griffin, B. E.

doi:10.1038/sj.gt.3301322

Cited by 52 publications

(38 citation statements)

References 44 publications

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“…VLPs may only require the primary HSPG receptor for internalization. Two routes of particle uptake and differences in the uptake mechanisms of virions and VLPs were also observed for polyomaviruses, resulting either in nuclear targeting or, as for the bulk of empty VLPs, in lysosomal degradation (26).…”

Section: Discussionmentioning

confidence: 99%

Further Evidence that Papillomavirus Capsids Exist inTwo DistinctConformations

Selinka

Giroglou

Nowak

et al. 2003

J Virol

117

115

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Cell surface heparan sulfate proteoglycans (HSPGs) serve as primary attachment receptors for human papillomaviruses (HPVs). To demonstrate that a biologically functional HPV-receptor interaction is restricted to a specific subset of HSPGs, we first explored the role of HSPG glucosaminoglycan side chain modifications. We demonstrate that HSPG O sulfation is essential for HPV binding and infection, whereas de-N-sulfated heparin interfered with VLP binding but not with HPV pseudoinfection. This points to differences in VLP-HSPG and pseudovirion-HSPG interactions. Interestingly, internalization kinetics of VLPs and pseudovirions, as measured by fluorescence-activated cell sorting analysis, also differ significantly with approximate half times of 3.5 and 7.5 h, respectively. These data suggest that differences in HSPG binding significantly influence postbinding events. We also present evidence that pseudovirions undergo a conformational change after cell attachment. A monoclonal antibody (H33.J3), which displays negligible effectiveness in preattachment neutralization assays, efficiently neutralizes cell-bound virions. However, no difference in H33.J3 binding to pseudovirions and VLPs was observed in enzyme-linked immunosorbent assay and virus capture assays. In contrast to antibody H33.B6, which displays equal efficiencies in pre-and postattachment neutralization assays, H33.J3 does not block VLP binding to heparin, demonstrating that it interferes with steps subsequent to virus binding. Our data strongly suggest that H33.J3 recognizes a conformation-dependent epitope in capsid protein L1, which undergoes a structural change after cell attachment.Human papillomaviruses (HPVs) are highly species-specific epitheliotropic DNA viruses. Of the more than 100 different genotypes, HPV type 16 (HPV16), HPV18, HPV31, HPV33, HPV35, HPV45, and HPV58 are most closely associated with cervical epithelial neoplasias and members of the group of HPV imposing a "high risk" for malignant progression to invasive genital carcinomas (30). The nonenveloped papillomavirus is composed of 360 copies of the major capsid protein L1, organized in 72 capsomeres, and probably 12 copies of the minor capsid protein L2 (1, 43). The encapsidated genome is an 8,000-bp circularized double-stranded DNA associated with cellular histones.Despite their considerable clinical significance, the initial steps leading to infection with these viruses, as well as the mechanisms involved in virus entry into host cells, have not yet been completely elucidated due to the limited growth properties of HPV in cell cultures and the ubiquitous expression of HPV-binding proteins. The use of virus-like particles (VLPs) (20,25,36,46,49) has helped in the study of the initial interaction of papillomavirus particles with cell surfaces. It was established that VLPs of many HPV types compete for binding to the same highly conserved proteinaceous attachment receptor. In contrast to L1, L2 protein was not essential for binding, since L1 VLPs bound as efficiently as L1L2 VLPs (32,3...

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Section: Discussionmentioning

confidence: 99%

Further Evidence that Papillomavirus Capsids Exist inTwo DistinctConformations

Selinka

Giroglou

Nowak

et al. 2003

J Virol

117

115

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show abstract

“…First, and most importantly, the position of fluorescently labeled particles can be related directly to the topography of the cell surface. Previously, this had only been possible in the context of markers such as plasma membrane proteins, cytoskeleton, or lipid dyes (16,22,23). Such studies can result in artifacts if the markers change during the uptake process and, as the surface of most cells is dynamic, determining whether particles have passed through the membrane or have moved with the membrane as it undulates is extremely difficult.…”

Section: Discussionmentioning

confidence: 99%

“…The protein nanospheres encapsidate 1-2 kb of the plasmid DNA whereas the remainder loosely associates with the outside of the VLP structure (14,15). These particles enter cells by both receptor-dependent and -independent routes, but only the former is productive for gene transfer (16). Thus, the fate of the VLPs may be determined by their interaction with the cell membrane, making VLPs an ideal model to test our system.…”

mentioning

confidence: 99%

Scanning surface confocal microscopy for simultaneous topographical and fluorescence imaging: Application to single virus-like particle entry into a cell

Gorelik

Shevchuk

Ramalho

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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“…A study on transfection by recombinant polyoma virus coat proteins assembled with DNA observed that these complexes entered at least two pathways: one that was clathrin-mediated and microtubule dependent, leading to transfection, and another that was actin mediated and nonproductive for transfection. 186 Microtubule depolymerization by nocodazole nearly completely abolished gene transfer, whereas actin depolymerization by cytochalasin D did not. While two pathways of trafficking were observed, the bulk of material entering cells translocated by the actin-mediated route.…”

Section: Lipoplexes a Study On Lipoplex Transfection Hasmentioning

confidence: 98%