puc-header

4.5SH RNA Counteracts Deleterious Exonization of SINE B1 in Mice

102 Pages Posted: 9 Jun 2023 Publication Status: Published

See all articles by Rei Yoshimoto

Rei Yoshimoto

Setsunan University - Department of Applied Biological Sciences

Yuta Nakayama

Hokkaido University

Ikuko Nomura

Hokkaido University

Ikuko Yamamoto

Hokkaido University

Shigeyuki Tanaka

Setsunan University - Department of Applied Biological Sciences

Misuzu Kurihara

Hokkaido University

Yu Suzuki

University of Tokyo

Takehiko Kobayashi

University of Tokyo

Hiroko Kozuka-Hata

University of Tokyo - Medical Proteomics Laboratory

Masaaki Oyama

University of Tokyo - Medical Proteomics Laboratory

Mari Mito

RIKEN Cluster for Pioneering Research (CPR)

Shintaro Iwasaki

RIKEN Cluster for Pioneering Research (CPR)

Tomohiro Yamazaki

Osaka University

Tetsuro Hirose

Osaka University

Kimi Araki

Kumamoto University - Institute of Resource Development and Analysis and Center for Metabolic Regulation of Healthy Aging

Shinichi Nakagawa

Hokkaido University - RNA Biology Laboratory

More...

Abstract

4.5SH RNA is a highly abundant, small rodent-specific noncoding RNA that localizes to nuclear speckles enriched in pre-mRNA splicing regulators. To investigate physiological functions of 4.5SH RNA, we have created mutant mice that lack the expression of 4.5SH RNA. The mutant mice exhibited embryonic lethality, suggesting that 4.5SH RNA is an essential species-specific noncoding RNA in mice. RNA-sequencing analyses revealed that 4.5SH RNA protects the transcriptome from abnormal exonizations of the antisense insertions of the retrotransposon SINE B1 (asB1), which would otherwise introduce deleterious premature stop codons or frameshift mutations. Mechanistically, 4.5SH RNA base-pairs with complementary asB1-containing exons via the target recognition region, and recruits effector proteins including Hnrnpm via its 5' stem loop region. The modular organization of 4.5SH RNA allows us to engineer a programmable splicing regulator to induce the skipping of target exons of interest. Our results also suggest the general existence of splicing regulatory non-coding RNAs.

Keywords: 4.5SH RNA, Noncoding RNA, exon skipping, Alternative splicing, retrotransposon, SINE B1, Hnrnpm

Suggested Citation

Yoshimoto, Rei and Nakayama, Yuta and Nomura, Ikuko and Yamamoto, Ikuko and Tanaka, Shigeyuki and Kurihara, Misuzu and Suzuki, Yu and Kobayashi, Takehiko and Kozuka-Hata, Hiroko and Oyama, Masaaki and Mito, Mari and Iwasaki, Shintaro and Yamazaki, Tomohiro and Hirose, Tetsuro and Araki, Kimi and Nakagawa, Shinichi, 4.5SH RNA Counteracts Deleterious Exonization of SINE B1 in Mice. Available at SSRN: https://ssrn.com/abstract=4473806 or http://dx.doi.org/10.2139/ssrn.4473806
This version of the paper has not been formally peer reviewed.

Rei Yoshimoto

Setsunan University - Department of Applied Biological Sciences ( email )

Yuta Nakayama

Hokkaido University ( email )

5 Kita 8 Jonishi, Kita Ward
Hokkaido Prefecture
Sapporo, 060-0808
Japan

Ikuko Nomura

Hokkaido University ( email )

5 Kita 8 Jonishi, Kita Ward
Hokkaido Prefecture
Sapporo, 060-0808
Japan

Ikuko Yamamoto

Hokkaido University ( email )

5 Kita 8 Jonishi, Kita Ward
Hokkaido Prefecture
Sapporo, 060-0808
Japan

Shigeyuki Tanaka

Setsunan University - Department of Applied Biological Sciences ( email )

Misuzu Kurihara

Hokkaido University ( email )

5 Kita 8 Jonishi, Kita Ward
Hokkaido Prefecture
Sapporo, 060-0808
Japan

Yu Suzuki

University of Tokyo ( email )

7-3-1 Hongo
Bunkyo-ku
Tokyo, 113-0033
Japan

Takehiko Kobayashi

University of Tokyo ( email )

7-3-1 Hongo
Bunkyo-ku
Tokyo, 113-0033
Japan

Hiroko Kozuka-Hata

University of Tokyo - Medical Proteomics Laboratory ( email )

4-6-1 Shirokanedai
Minato-ku
Tokyo, 108-8639
Japan

Masaaki Oyama

University of Tokyo - Medical Proteomics Laboratory ( email )

4-6-1 Shirokanedai
Minato-ku
Tokyo, 108-8639
Japan

Mari Mito

RIKEN Cluster for Pioneering Research (CPR) ( email )

Shintaro Iwasaki

RIKEN Cluster for Pioneering Research (CPR)

Tomohiro Yamazaki

Osaka University ( email )

1-1 Yamadaoka
Suita
Osaka, 565-0871
Japan

Tetsuro Hirose

Osaka University ( email )

1-1 Yamadaoka
Suita
Osaka, 565-0871
Japan

Kimi Araki

Kumamoto University - Institute of Resource Development and Analysis and Center for Metabolic Regulation of Healthy Aging ( email )

Japan

Shinichi Nakagawa (Contact Author)

Hokkaido University - RNA Biology Laboratory ( email )

Click here to go to Cell.com

Paper statistics

Downloads
20
Abstract Views
345
PlumX Metrics