A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy

A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy

Recent progress in neural stem cell- (NSC-) based tumor-targeted gene therapy showed that NSC vectors expressing an artificially engineered viral fusogenic protein, VSV-G H162R, could cause tumor cell death specifically under acidic tumor microenvironment by syncytia formation; however, the killing...

Full description

Bibliographic Details
Main Authors: Yumei Luo, Detu Zhu, Dang Hoang Lam, Juan Huang, Yi Tang, Xitu Luo, Shu Wang
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:Stem Cells International
Online Access:http://dx.doi.org/10.1155/2015/649080
id doaj-729fad19811d4f85823fa965f6aaabec
record_format Article
spelling doaj-729fad19811d4f85823fa965f6aaabec2020-11-24T22:34:15ZengHindawi LimitedStem Cells International1687-966X1687-96782015-01-01201510.1155/2015/649080649080A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene TherapyYumei Luo0Detu Zhu1Dang Hoang Lam2Juan Huang3Yi Tang4Xitu Luo5Shu Wang6Key Laboratory for Major Obstetric Diseases of Guangdong Province, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, ChinaKey Laboratory for Major Obstetric Diseases of Guangdong Province, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, ChinaDepartment of Biological Sciences, National University of Singapore, 117543, SingaporeDepartment of General Surgery, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, ChinaDepartment of General Surgery, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, ChinaDepartment of General Surgery, The Third Affiliated Hospital of Guangzhou Medical University, Guangzhou 510150, ChinaDepartment of Biological Sciences, National University of Singapore, 117543, SingaporeRecent progress in neural stem cell- (NSC-) based tumor-targeted gene therapy showed that NSC vectors expressing an artificially engineered viral fusogenic protein, VSV-G H162R, could cause tumor cell death specifically under acidic tumor microenvironment by syncytia formation; however, the killing efficiency still had much room to improve. In the view that coexpression of another antitumoral gene with VSV-G can augment the bystander effect, a synthetic regulatory system that triggers transgene expression in a cell fusion-inducible manner has been proposed. Here we have developed a double-switch cell fusion-inducible transgene expression system (DoFIT) to drive transgene expression upon VSV-G-mediated NSC-glioma cell fusion. In this binary system, transgene expression is coregulated by a glioma-specific promoter and targeting sequences of a microRNA (miR) that is highly expressed in NSCs but lowly expressed in glioma cells. Thus, transgene expression is “switched off” by the miR in NSC vectors, but after cell fusion with glioma cells, the miR is diluted and loses its suppressive effect. Meanwhile, in the syncytia, transgene expression is “switched on” by the glioma-specific promoter. Our in vitro and in vivo experimental data show that DoFIT successfully abolishes luciferase reporter gene expression in NSC vectors but activates it specifically after VSV-G-mediated NSC-glioma cell fusion.http://dx.doi.org/10.1155/2015/649080
collection DOAJ
language English
format Article
sources DOAJ
author Yumei Luo
Detu Zhu
Dang Hoang Lam
Juan Huang
Yi Tang
Xitu Luo
Shu Wang
spellingShingle Yumei Luo
Detu Zhu
Dang Hoang Lam
Juan Huang
Yi Tang
Xitu Luo
Shu Wang
A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
Stem Cells International
author_facet Yumei Luo
Detu Zhu
Dang Hoang Lam
Juan Huang
Yi Tang
Xitu Luo
Shu Wang
author_sort Yumei Luo
title A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
title_short A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
title_full A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
title_fullStr A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
title_full_unstemmed A Double-Switch Cell Fusion-Inducible Transgene Expression System for Neural Stem Cell-Based Antiglioma Gene Therapy
title_sort double-switch cell fusion-inducible transgene expression system for neural stem cell-based antiglioma gene therapy
publisher Hindawi Limited
series Stem Cells International
issn 1687-966X
1687-9678
publishDate 2015-01-01
description Recent progress in neural stem cell- (NSC-) based tumor-targeted gene therapy showed that NSC vectors expressing an artificially engineered viral fusogenic protein, VSV-G H162R, could cause tumor cell death specifically under acidic tumor microenvironment by syncytia formation; however, the killing efficiency still had much room to improve. In the view that coexpression of another antitumoral gene with VSV-G can augment the bystander effect, a synthetic regulatory system that triggers transgene expression in a cell fusion-inducible manner has been proposed. Here we have developed a double-switch cell fusion-inducible transgene expression system (DoFIT) to drive transgene expression upon VSV-G-mediated NSC-glioma cell fusion. In this binary system, transgene expression is coregulated by a glioma-specific promoter and targeting sequences of a microRNA (miR) that is highly expressed in NSCs but lowly expressed in glioma cells. Thus, transgene expression is “switched off” by the miR in NSC vectors, but after cell fusion with glioma cells, the miR is diluted and loses its suppressive effect. Meanwhile, in the syncytia, transgene expression is “switched on” by the glioma-specific promoter. Our in vitro and in vivo experimental data show that DoFIT successfully abolishes luciferase reporter gene expression in NSC vectors but activates it specifically after VSV-G-mediated NSC-glioma cell fusion.
url http://dx.doi.org/10.1155/2015/649080
work_keys_str_mv AT yumeiluo adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT detuzhu adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT danghoanglam adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT juanhuang adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT yitang adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT xituluo adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT shuwang adoubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT yumeiluo doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT detuzhu doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT danghoanglam doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT juanhuang doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT yitang doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT xituluo doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
AT shuwang doubleswitchcellfusioninducibletransgeneexpressionsystemforneuralstemcellbasedantigliomagenetherapy
_version_ 1725728713427910656

Similar Items