Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.

Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.

As an arthropod-borne human pathogen, Rift Valley fever virus (RVFV) cycles between an insect vector and mammalian hosts. Little is known about the cellular requirements for infection in either host. Here we developed a tissue culture model for RVFV infection of human and insect cells that is amenab...

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Main Authors: Claire Marie Filone, Sheri L Hanna, M Cecilia Caino, Shelly Bambina, Robert W Doms, Sara Cherry
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-11-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2991366?pdf=render
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spelling doaj-e6291af5b34f4f4d89211d5f81e39c1f2020-11-25T01:02:27ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-11-01511e1548310.1371/journal.pone.0015483Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.Claire Marie FiloneSheri L HannaM Cecilia CainoShelly BambinaRobert W DomsSara CherryAs an arthropod-borne human pathogen, Rift Valley fever virus (RVFV) cycles between an insect vector and mammalian hosts. Little is known about the cellular requirements for infection in either host. Here we developed a tissue culture model for RVFV infection of human and insect cells that is amenable to high-throughput screening. Using this approach we screened a library of 1280 small molecules with pharmacologically defined activities and identified 59 drugs that inhibited RVFV infection with 15 inhibiting RVFV replication in both human and insect cells. Amongst the 15 inhibitors that blocked infection in both hosts was a subset that inhibits protein kinase C. Further studies found that infection is dependent upon the novel protein kinase C isozyme epsilon (PKCε) in both human and insect cells as well as in adult flies. Altogether, these data show that inhibition of cellular factors required for early steps in the infection cycle including PKCε can block RVFV infection, and may represent a starting point for the development of anti-RVFV therapeutics.http://europepmc.org/articles/PMC2991366?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Claire Marie Filone
Sheri L Hanna
M Cecilia Caino
Shelly Bambina
Robert W Doms
Sara Cherry
spellingShingle Claire Marie Filone
Sheri L Hanna
M Cecilia Caino
Shelly Bambina
Robert W Doms
Sara Cherry
Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
PLoS ONE
author_facet Claire Marie Filone
Sheri L Hanna
M Cecilia Caino
Shelly Bambina
Robert W Doms
Sara Cherry
author_sort Claire Marie Filone
title Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
title_short Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
title_full Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
title_fullStr Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
title_full_unstemmed Rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase C epsilon.
title_sort rift valley fever virus infection of human cells and insect hosts is promoted by protein kinase c epsilon.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-11-01
description As an arthropod-borne human pathogen, Rift Valley fever virus (RVFV) cycles between an insect vector and mammalian hosts. Little is known about the cellular requirements for infection in either host. Here we developed a tissue culture model for RVFV infection of human and insect cells that is amenable to high-throughput screening. Using this approach we screened a library of 1280 small molecules with pharmacologically defined activities and identified 59 drugs that inhibited RVFV infection with 15 inhibiting RVFV replication in both human and insect cells. Amongst the 15 inhibitors that blocked infection in both hosts was a subset that inhibits protein kinase C. Further studies found that infection is dependent upon the novel protein kinase C isozyme epsilon (PKCε) in both human and insect cells as well as in adult flies. Altogether, these data show that inhibition of cellular factors required for early steps in the infection cycle including PKCε can block RVFV infection, and may represent a starting point for the development of anti-RVFV therapeutics.
url http://europepmc.org/articles/PMC2991366?pdf=render
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