Long-term expression of miRNA for RNA interference using a novel vector system based on a negative-strand RNA virus

Tomoyuki Honda; Yusuke Yamamoto; Takuji Daito; Yusuke Matsumoto; Akiko Makino; Keizo Tomonaga

doi:10.1038/srep26154

Long-term expression of miRNA for RNA interference using a novel vector system based on a negative-strand RNA virus

Tomoyuki Honda, Yusuke Yamamoto, Takuji Daito, Yusuke Matsumoto, Akiko Makino, Keizo Tomonaga

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

RNA interference (RNAi) has emerged as a promising technique for gene therapy. However, the safe and long-term expression of small RNA molecules is a major concern for the application of RNAi therapies in vivo. Borna disease virus (BDV), a non-segmented, negative-strand RNA virus, establishes a persistent infection without obvious cytopathic effects. Unique among animal non-retroviral RNA viruses, BDV persistently establishes a long-lasting persistent infection in the nucleus. These features make BDV ideal for RNA virus vector persistently expressing small RNAs. Here, we demonstrated that the recombinant BDV (rBDV) containing the miR-155 precursor, rBDV-miR-155, persistently expressed miR-155 and efficiently silenced its target gene. The stem region of the miR-155 precursor in rBDV-miR-155 was replaceable by any miRNA sequences of interest and that such rBDVs efficiently silence the expression of target genes. Collectively, BDV vector would be a novel RNA virus vector enabling the long-term expression of miRNAs for RNAi therapies.

Original language	English
Article number	26154
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep26154
Publication status	Published - May 18 2016
Externally published	Yes

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title = "Long-term expression of miRNA for RNA interference using a novel vector system based on a negative-strand RNA virus",

abstract = "RNA interference (RNAi) has emerged as a promising technique for gene therapy. However, the safe and long-term expression of small RNA molecules is a major concern for the application of RNAi therapies in vivo. Borna disease virus (BDV), a non-segmented, negative-strand RNA virus, establishes a persistent infection without obvious cytopathic effects. Unique among animal non-retroviral RNA viruses, BDV persistently establishes a long-lasting persistent infection in the nucleus. These features make BDV ideal for RNA virus vector persistently expressing small RNAs. Here, we demonstrated that the recombinant BDV (rBDV) containing the miR-155 precursor, rBDV-miR-155, persistently expressed miR-155 and efficiently silenced its target gene. The stem region of the miR-155 precursor in rBDV-miR-155 was replaceable by any miRNA sequences of interest and that such rBDVs efficiently silence the expression of target genes. Collectively, BDV vector would be a novel RNA virus vector enabling the long-term expression of miRNAs for RNAi therapies.",

author = "Tomoyuki Honda and Yusuke Yamamoto and Takuji Daito and Yusuke Matsumoto and Akiko Makino and Keizo Tomonaga",

note = "Funding Information: This study was supported in part by KAKENHI Grant Numbers 26253027, 26670225 and 15H01259 (KT), 25860336 and 15K08496 (TH), and the Core-to-Core Program A, Advanced Research Networks (KT) from Japan Society for the Promotion of Science (JSPS), a Basic Science and Platform Technology Program for Innovative Biological Medicine (KT) from Japan Agency for Medical Research and Development (AMED), a Grant-in-Aid for Scientific Research on Innovative Areas (24115709 and 25115508) (TH) from the Ministry of Education, Culture, Science, Sports and Technology (MEXT) of Japan, and grants from the Takeda Science Foundation (KT and TH), Senri Life Science Foundation, Suzuken Memorial Foundation, The Shimizu Foundation for Immunology and Neuroscience Grant for 2015 and The NOVARTIS Foundation (Japan) for the Promotion of Science (TH).",

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doi = "10.1038/srep26154",

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AU - Honda, Tomoyuki

AU - Yamamoto, Yusuke

AU - Daito, Takuji

AU - Matsumoto, Yusuke

AU - Makino, Akiko

AU - Tomonaga, Keizo

N1 - Funding Information: This study was supported in part by KAKENHI Grant Numbers 26253027, 26670225 and 15H01259 (KT), 25860336 and 15K08496 (TH), and the Core-to-Core Program A, Advanced Research Networks (KT) from Japan Society for the Promotion of Science (JSPS), a Basic Science and Platform Technology Program for Innovative Biological Medicine (KT) from Japan Agency for Medical Research and Development (AMED), a Grant-in-Aid for Scientific Research on Innovative Areas (24115709 and 25115508) (TH) from the Ministry of Education, Culture, Science, Sports and Technology (MEXT) of Japan, and grants from the Takeda Science Foundation (KT and TH), Senri Life Science Foundation, Suzuken Memorial Foundation, The Shimizu Foundation for Immunology and Neuroscience Grant for 2015 and The NOVARTIS Foundation (Japan) for the Promotion of Science (TH).

PY - 2016/5/18

Y1 - 2016/5/18

N2 - RNA interference (RNAi) has emerged as a promising technique for gene therapy. However, the safe and long-term expression of small RNA molecules is a major concern for the application of RNAi therapies in vivo. Borna disease virus (BDV), a non-segmented, negative-strand RNA virus, establishes a persistent infection without obvious cytopathic effects. Unique among animal non-retroviral RNA viruses, BDV persistently establishes a long-lasting persistent infection in the nucleus. These features make BDV ideal for RNA virus vector persistently expressing small RNAs. Here, we demonstrated that the recombinant BDV (rBDV) containing the miR-155 precursor, rBDV-miR-155, persistently expressed miR-155 and efficiently silenced its target gene. The stem region of the miR-155 precursor in rBDV-miR-155 was replaceable by any miRNA sequences of interest and that such rBDVs efficiently silence the expression of target genes. Collectively, BDV vector would be a novel RNA virus vector enabling the long-term expression of miRNAs for RNAi therapies.

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Long-term expression of miRNA for RNA interference using a novel vector system based on a negative-strand RNA virus

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