The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.

The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.

Dengue virus (DENV) is the etiologic agent for dengue fever, for which there is no approved vaccine or specific anti-viral drug. As a remedy for this, we explored the use of compounds that interfere with the action of required host factors and describe here the characterization of a kinase inhibitor...

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Main Authors: Azlinda Anwar, Takamitsu Hosoya, Kok Mun Leong, Hiroshi Onogi, Yukiko Okuno, Toshiyuki Hiramatsu, Hiroko Koyama, Masaaki Suzuki, Masatoshi Hagiwara, Mariano A Garcia-Blanco
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3157368?pdf=render
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spelling doaj-007a215f64bf45b3a057e4abe316b7fa2020-11-25T02:03:33ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0168e2324610.1371/journal.pone.0023246The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.Azlinda AnwarTakamitsu HosoyaKok Mun LeongHiroshi OnogiYukiko OkunoToshiyuki HiramatsuHiroko KoyamaMasaaki SuzukiMasatoshi HagiwaraMariano A Garcia-BlancoDengue virus (DENV) is the etiologic agent for dengue fever, for which there is no approved vaccine or specific anti-viral drug. As a remedy for this, we explored the use of compounds that interfere with the action of required host factors and describe here the characterization of a kinase inhibitor (SFV785), which has selective effects on NTRK1 and MAPKAPK5 kinase activity, and anti-viral activity on Hepatitis C, DENV and yellow fever viruses. SFV785 inhibited DENV propagation without inhibiting DENV RNA synthesis or translation. The compound did not cause any changes in the cellular distribution of non-structural 3, a protein critical for DENV RNA synthesis, but altered the distribution of the structural envelope protein from a reticulate network to enlarged discrete vesicles, which altered the co-localization with the DENV replication complex. Ultrastructural electron microscopy analyses of DENV-infected SFV785-treated cells showed the presence of viral particles that were distinctly different from viable enveloped virions within enlarged ER cisternae. These viral particles were devoid of the dense nucleocapsid. The secretion of the viral particles was not inhibited by SFV785, however a reduction in the amount of secreted infectious virions, DENV RNA and capsid were observed. Collectively, these observations suggest that SFV785 inhibited the recruitment and assembly of the nucleocapsid in specific ER compartments during the DENV assembly process and hence the production of infectious DENV. SFV785 and derivative compounds could be useful biochemical probes to explore the DENV lifecycle and could also represent a new class of anti-virals.http://europepmc.org/articles/PMC3157368?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Azlinda Anwar
Takamitsu Hosoya
Kok Mun Leong
Hiroshi Onogi
Yukiko Okuno
Toshiyuki Hiramatsu
Hiroko Koyama
Masaaki Suzuki
Masatoshi Hagiwara
Mariano A Garcia-Blanco
spellingShingle Azlinda Anwar
Takamitsu Hosoya
Kok Mun Leong
Hiroshi Onogi
Yukiko Okuno
Toshiyuki Hiramatsu
Hiroko Koyama
Masaaki Suzuki
Masatoshi Hagiwara
Mariano A Garcia-Blanco
The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
PLoS ONE
author_facet Azlinda Anwar
Takamitsu Hosoya
Kok Mun Leong
Hiroshi Onogi
Yukiko Okuno
Toshiyuki Hiramatsu
Hiroko Koyama
Masaaki Suzuki
Masatoshi Hagiwara
Mariano A Garcia-Blanco
author_sort Azlinda Anwar
title The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
title_short The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
title_full The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
title_fullStr The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
title_full_unstemmed The kinase inhibitor SFV785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
title_sort kinase inhibitor sfv785 dislocates dengue virus envelope protein from the replication complex and blocks virus assembly.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Dengue virus (DENV) is the etiologic agent for dengue fever, for which there is no approved vaccine or specific anti-viral drug. As a remedy for this, we explored the use of compounds that interfere with the action of required host factors and describe here the characterization of a kinase inhibitor (SFV785), which has selective effects on NTRK1 and MAPKAPK5 kinase activity, and anti-viral activity on Hepatitis C, DENV and yellow fever viruses. SFV785 inhibited DENV propagation without inhibiting DENV RNA synthesis or translation. The compound did not cause any changes in the cellular distribution of non-structural 3, a protein critical for DENV RNA synthesis, but altered the distribution of the structural envelope protein from a reticulate network to enlarged discrete vesicles, which altered the co-localization with the DENV replication complex. Ultrastructural electron microscopy analyses of DENV-infected SFV785-treated cells showed the presence of viral particles that were distinctly different from viable enveloped virions within enlarged ER cisternae. These viral particles were devoid of the dense nucleocapsid. The secretion of the viral particles was not inhibited by SFV785, however a reduction in the amount of secreted infectious virions, DENV RNA and capsid were observed. Collectively, these observations suggest that SFV785 inhibited the recruitment and assembly of the nucleocapsid in specific ER compartments during the DENV assembly process and hence the production of infectious DENV. SFV785 and derivative compounds could be useful biochemical probes to explore the DENV lifecycle and could also represent a new class of anti-virals.
url http://europepmc.org/articles/PMC3157368?pdf=render
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