Development of Defective and Persistent Sendai Virus Vector: a Unique Gene Delivery/expression System Ideal for Cell Reprogramming

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2010 Dec 9

PMID 21138846

Citations 163

Authors

Ken Nishimura

Masayuki Sano

Manami Ohtaka

Birei Furuta

Yoko Umemura

Yoshiro Nakajima

Yuzuru Ikehara

Toshihiro Kobayashi

Hiroaki Segawa

Satoko Takayasu

Hideyuki Sato

Kaori Motomura

Eriko Uchida

Toshie Kanayasu-Toyoda

Makoto Asashima

Hiromitsu Nakauchi

Teruhide Yamaguchi

Mahito Nakanishi

Affiliations

Soon will be listed here.

Abstract

The ectopic expression of transcription factors can reprogram differentiated tissue cells into induced pluripotent stem cells. However, this is a slow and inefficient process, depending on the simultaneous delivery of multiple genes encoding essential reprogramming factors and on their sustained expression in target cells. Moreover, once cell reprogramming is accomplished, these exogenous reprogramming factors should be replaced with their endogenous counterparts for establishing autoregulated pluripotency. Complete and designed removal of the exogenous genes from the reprogrammed cells would be an ideal option for satisfying this latter requisite as well as for minimizing the risk of malignant cell transformation. However, no single gene delivery/expression system has ever been equipped with these contradictory characteristics. Here we report the development of a novel replication-defective and persistent Sendai virus (SeVdp) vector based on a noncytopathic variant virus, which fulfills all of these requirements for cell reprogramming. The SeVdp vector could accommodate up to four exogenous genes, deliver them efficiently into various mammalian cells (including primary tissue cells and human hematopoietic stem cells) and express them stably in the cytoplasm at a prefixed balance. Furthermore, interfering with viral transcription/replication using siRNA could erase the genomic RNA of SeVdp vector from the target cells quickly and thoroughly. A SeVdp vector installed with Oct4/Sox2/Klf4/c-Myc could reprogram mouse primary fibroblasts quite efficiently; ∼1% of the cells were reprogrammed to Nanog-positive induced pluripotent stem cells without chromosomal gene integration. Thus, this SeVdp vector has potential as a tool for advanced cell reprogramming and for stem cell research.

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