Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.

The glycoprotein (G) of rabies virus (RV) is required for binding to neuronal receptors and for viral entry. G-deleted RV vector is a powerful tool for investigating the organization and function of the neural circuits. It gives the investigator the ability to genetically target initial infection to...

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Main Authors: Shinya Ohara, Sho Sato, Kei Oyama, Ken-Ichiro Tsutsui, Toshio Iijima
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3820615?pdf=render
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spelling doaj-6b7e613fe6484a74a87b7bf57d798c5d2020-11-25T01:24:51ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e8024510.1371/journal.pone.0080245Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.Shinya OharaSho SatoKei OyamaKen-Ichiro TsutsuiToshio IijimaThe glycoprotein (G) of rabies virus (RV) is required for binding to neuronal receptors and for viral entry. G-deleted RV vector is a powerful tool for investigating the organization and function of the neural circuits. It gives the investigator the ability to genetically target initial infection to particular neurons and to control trans-synaptic propagation. In this study we have quantitatively evaluated the effect of G gene deletion on the cytotoxicity and transgene expression level of the RV vector. We compared the characteristics of the propagation-competent RV vector (rHEP5.0-CVSG-mRFP) and the G-deleted RV vector (rHEP5.0-ΔG-mRFP), both of which are based on the attenuated HEP-Flury strain and express monomeric red fluorescent protein (mRFP) as a transgene. rHEP5.0-ΔG-mRFP showed lower cytotoxicity than rHEP5.0-CVSG-mRFP, and within 16 days of infection we found no change in the basic electrophysiological properties of neurons infected with the rHEP5.0-ΔG-mRFP. The mRFP expression level of rHEP5.0-ΔG-mRFP was much higher than that of rHEP5.0-CVSG-mRFP, and 3 days after infection the retrogradely infected neurons were clearly visualized by the expressed fluorescent protein without any staining. This may be due to the low cytotoxicity and/or the presumed change in the polymerase gene (L) expression level of the G-deleted RV vector. Although the mechanisms remains to be clarified, the results of this study indicate that deletion of the G gene greatly improves the usability of the RV vector for studying the organization and function of the neural circuits by decreasing the cytotoxicity and increasing the transgene expression level.http://europepmc.org/articles/PMC3820615?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Shinya Ohara
Sho Sato
Kei Oyama
Ken-Ichiro Tsutsui
Toshio Iijima
spellingShingle Shinya Ohara
Sho Sato
Kei Oyama
Ken-Ichiro Tsutsui
Toshio Iijima
Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
PLoS ONE
author_facet Shinya Ohara
Sho Sato
Kei Oyama
Ken-Ichiro Tsutsui
Toshio Iijima
author_sort Shinya Ohara
title Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
title_short Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
title_full Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
title_fullStr Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
title_full_unstemmed Rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
title_sort rabies virus vector transgene expression level and cytotoxicity improvement induced by deletion of glycoprotein gene.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description The glycoprotein (G) of rabies virus (RV) is required for binding to neuronal receptors and for viral entry. G-deleted RV vector is a powerful tool for investigating the organization and function of the neural circuits. It gives the investigator the ability to genetically target initial infection to particular neurons and to control trans-synaptic propagation. In this study we have quantitatively evaluated the effect of G gene deletion on the cytotoxicity and transgene expression level of the RV vector. We compared the characteristics of the propagation-competent RV vector (rHEP5.0-CVSG-mRFP) and the G-deleted RV vector (rHEP5.0-ΔG-mRFP), both of which are based on the attenuated HEP-Flury strain and express monomeric red fluorescent protein (mRFP) as a transgene. rHEP5.0-ΔG-mRFP showed lower cytotoxicity than rHEP5.0-CVSG-mRFP, and within 16 days of infection we found no change in the basic electrophysiological properties of neurons infected with the rHEP5.0-ΔG-mRFP. The mRFP expression level of rHEP5.0-ΔG-mRFP was much higher than that of rHEP5.0-CVSG-mRFP, and 3 days after infection the retrogradely infected neurons were clearly visualized by the expressed fluorescent protein without any staining. This may be due to the low cytotoxicity and/or the presumed change in the polymerase gene (L) expression level of the G-deleted RV vector. Although the mechanisms remains to be clarified, the results of this study indicate that deletion of the G gene greatly improves the usability of the RV vector for studying the organization and function of the neural circuits by decreasing the cytotoxicity and increasing the transgene expression level.
url http://europepmc.org/articles/PMC3820615?pdf=render
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