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Literature DB >> 24525291

Concepts of papillomavirus entry into host cells.

Abstract

Papillomaviruses enter basal cells of stratified epithelia. Assembly of new virions occurs in infected cells during terminal differentiation. This unique biology is reflected in the mechanism of entry. Extracellularly, the interaction of nonenveloped capsids with several host cell proteins, after binding, results in discrete conformational changes. Asynchronous internalization occurs over several hours by an endocytic mechanism related to, but distinct from macropinocytosis. Intracellular trafficking leads virions through the endosomal system, and from late endosomes to the trans-Golgi-network, before nuclear delivery. Here, we discuss the existing data with the aim to synthesize an integrated model of the stepwise process of entry, thereby highlighting key open questions. Additionally, we relate data from experiments with cultured cells to in vivo results.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2013 PMID： 24525291 PMCID： PMC3951680 DOI： 10.1016/j.coviro.2013.11.002

Source DB: PubMed Journal: Curr Opin Virol ISSN： 1879-6257 Impact factor: 7.090

86 in total

Review 1. Structure, attachment and entry of polyoma- and papillomaviruses.

Authors: Martin Sapp; Patricia M Day
Journal: Virology Date: 2009-01-21 Impact factor: 3.616

Review 2. Rab GTPases as coordinators of vesicle traffic.

Authors: Harald Stenmark
Journal: Nat Rev Mol Cell Biol Date: 2009-07-15 Impact factor: 94.444

3. Role of heparan sulfate in attachment to and infection of the murine female genital tract by human papillomavirus.

Authors: Katherine M Johnson; Rhonda C Kines; Jeffrey N Roberts; Douglas R Lowy; John T Schiller; Patricia M Day
Journal: J Virol Date: 2008-12-10 Impact factor: 5.103

4. Caveolin-1-dependent infectious entry of human papillomavirus type 31 in human keratinocytes proceeds to the endosomal pathway for pH-dependent uncoating.

Authors: Jessica L Smith; Samuel K Campos; Angela Wandinger-Ness; Michelle A Ozbun
Journal: J Virol Date: 2008-07-30 Impact factor: 5.103

5. Heparan sulfate-independent cell binding and infection with furin-precleaved papillomavirus capsids.

Authors: Patricia M Day; Douglas R Lowy; John T Schiller
Journal: J Virol Date: 2008-10-01 Impact factor: 5.103

6. Human papillomavirus type 16 infection of human keratinocytes requires clathrin and caveolin-1 and is brefeldin a sensitive.

Authors: Valerie Laniosz; Sarah A Dabydeen; Mallory A Havens; Patricio I Meneses
Journal: J Virol Date: 2009-06-03 Impact factor: 5.103

7. Virus activated filopodia promote human papillomavirus type 31 uptake from the extracellular matrix.

Authors: Jessica L Smith; Diane S Lidke; Michelle A Ozbun
Journal: Virology Date: 2008-10-02 Impact factor: 3.616

8. Target cell cyclophilins facilitate human papillomavirus type 16 infection.

Authors: Malgorzata Bienkowska-Haba; Hetalkumar D Patel; Martin Sapp
Journal: PLoS Pathog Date: 2009-07-24 Impact factor: 6.823

9. Clathrin- and caveolin-independent entry of human papillomavirus type 16--involvement of tetraspanin-enriched microdomains (TEMs).

Authors: Gilles Spoden; Kirsten Freitag; Matthias Husmann; Klaus Boller; Martin Sapp; Carsten Lambert; Luise Florin
Journal: PLoS One Date: 2008-10-02 Impact factor: 3.240

10. Establishment of human papillomavirus infection requires cell cycle progression.

Authors: Dohun Pyeon; Shane M Pearce; Simon M Lank; Paul Ahlquist; Paul F Lambert
Journal: PLoS Pathog Date: 2009-02-27 Impact factor: 6.823

35 in total

Review 1. Human Papillomavirus Biology, Pathogenesis, and Potential for Drug Discovery: A Literature Review for HIV Nurse Clinical Scientists.

Authors: Tara Walhart
Journal: J Assoc Nurses AIDS Care Date: 2015-07-08 Impact factor: 1.354

Review 2. Human papillomavirus molecular biology.

Authors: Mallory E Harden; Karl Munger
Journal: Mutat Res Rev Mutat Res Date: 2016-07-05 Impact factor: 5.657

3. Kallikrein-8 Proteolytically Processes Human Papillomaviruses in the Extracellular Space To Facilitate Entry into Host Cells.

Authors: Carla Cerqueira; Pilar Samperio Ventayol; Christian Vogeley; Mario Schelhaas
Journal: J Virol Date: 2015-04-29 Impact factor: 5.103

4. Structural comparison of four different antibodies interacting with human papillomavirus 16 and mechanisms of neutralization.

Authors: Jian Guan; Stephanie M Bywaters; Sarah A Brendle; Hyunwook Lee; Robert E Ashley; Alexander M Makhov; James F Conway; Neil D Christensen; Susan Hafenstein
Journal: Virology Date: 2015-05-19 Impact factor: 3.616

Review 5. Cruising the cellular highways: How human papillomavirus travels from the surface to the nucleus.

Authors: Stephen DiGiuseppe; Malgorzata Bienkowska-Haba; Lucile G Guion; Martin Sapp
Journal: Virus Res Date: 2016-10-29 Impact factor: 3.303

6. Extracellular Conformational Changes in the Capsid of Human Papillomaviruses Contribute to Asynchronous Uptake into Host Cells.

Authors: Miriam Becker; Lilo Greune; M Alexander Schmidt; Mario Schelhaas
Journal: J Virol Date: 2018-05-14 Impact factor: 5.103

10. Interaction of human papillomavirus type 16 particles with heparan sulfate and syndecan-1 molecules in the keratinocyte extracellular matrix plays an active role in infection.

Authors: Zurab Surviladze; Rosa T Sterkand; Michelle A Ozbun
Journal: J Gen Virol Date: 2015-08 Impact factor: 3.891