Literature DB >> 24614368

Inhibition by cellular vacuolar ATPase impairs human papillomavirus uncoating and infection.

Konstantin H Müller1, Gilles A Spoden, Konstanze D Scheffer, Regina Brunnhöfer, Jef K De Brabander, Martin E Maier, Luise Florin, Claude P Muller.   

Abstract

Several viruses, including human papillomaviruses, depend on endosomal acidification for successful infection. Hence, the multisubunit enzyme vacuolar ATPase (V-ATPase), which is mainly responsible for endosome acidification in the cell, represents an attractive target for antiviral strategies. In the present study, we show that V-ATPase is required for human papillomavirus (HPV) infection and that uncoating/disassembly but not endocytosis is affected by V-ATPase inhibition. The infection inhibitory potencies of saliphenylhalamide, a proven V-ATPase inhibitor, and its derivatives, as well as those of other V-ATPase inhibitors, were analyzed on different HPV types in relevant cell lines. Variation in the selectivity indices among V-ATPase inhibitors was high, while variation for the same inhibitor against different HPV subtypes was low, indicating that broad-spectrum anti-HPV activity can be provided.

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Year:  2014        PMID: 24614368      PMCID: PMC3993236          DOI: 10.1128/AAC.02284-13

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  42 in total

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2.  The proton translocation domain of cellular vacuolar ATPase provides a target for the treatment of influenza A virus infections.

Authors:  Konstantin H Müller; Denis E Kainov; Karim El Bakkouri; Xavier Saelens; Jef K De Brabander; Christian Kittel; Elisabeth Samm; Claude P Muller
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Journal:  Virology       Date:  2015-03-12       Impact factor: 3.616

Review 3.  The long and winding road: human papillomavirus entry and subcellular trafficking.

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4.  The viral protein U (Vpu)-interacting host protein ATP6V0C down-regulates cell-surface expression of tetherin and thereby contributes to HIV-1 release.

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6.  Furin Cleavage of L2 during Papillomavirus Infection: Minimal Dependence on Cyclophilins.

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Review 7.  Subcellular Trafficking of the Papillomavirus Genome during Initial Infection: The Remarkable Abilities of Minor Capsid Protein L2.

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Review 8.  The tetraspanin CD151 in papillomavirus infection.

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Review 9.  Coat as a dagger: the use of capsid proteins to perforate membranes during non-enveloped DNA viruses trafficking.

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10.  The CD63-Syntenin-1 Complex Controls Post-Endocytic Trafficking of Oncogenic Human Papillomaviruses.

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