TY - JOUR
T1 - Transcription of MERVL retrotransposons is required for preimplantation embryo development
AU - Sakashita, Akihiko
AU - Kitano, Tomohiro
AU - Ishizu, Hirotsugu
AU - Guo, Youjia
AU - Masuda, Harumi
AU - Ariura, Masaru
AU - Murano, Kensaku
AU - Siomi, Haruhiko
N1 - Funding Information:
We thank all members of the Siomi laboratory for discussions on this work, K. Hayashi (Graduate School of Medicine, Faculty of Medicine, Osaka University) and A. Inoue (Center for Integrative Medical Science, RIKEN) for critical reading of the manuscript, and S. Aikawa (Graduate School of Medicine, The University of Tokyo) and C. Takeuchi (Keio University School of Medicine) for assistance with NGS data analyses. This work was supported by JSPS Grants-in-Aid for Early-Career Scientists (21K15108 to A.S.), the Kato Memorial Bioscience Foundation Research Grant (to A.S.), JST Fusion Oriented Research for disruptive Science and Technology (JPMJFR214O to A.S.), MEXT Grants-in-Aid for Scientific Research in Innovative Areas (19H05753 to H.S. and 22H04700 to A.S.), AMED project for elucidating and controlling mechanisms of aging and longevity (1005442 to H.S.), the Uehara Memorial Foundation Research Incentive Grant (to A.S.) and the Uehara Memorial Foundation Research Grant (to H.S.).
Funding Information:
We thank all members of the Siomi laboratory for discussions on this work, K. Hayashi (Graduate School of Medicine, Faculty of Medicine, Osaka University) and A. Inoue (Center for Integrative Medical Science, RIKEN) for critical reading of the manuscript, and S. Aikawa (Graduate School of Medicine, The University of Tokyo) and C. Takeuchi (Keio University School of Medicine) for assistance with NGS data analyses. This work was supported by JSPS Grants-in-Aid for Early-Career Scientists (21K15108 to A.S.), the Kato Memorial Bioscience Foundation Research Grant (to A.S.), JST Fusion Oriented Research for disruptive Science and Technology (JPMJFR214O to A.S.), MEXT Grants-in-Aid for Scientific Research in Innovative Areas (19H05753 to H.S. and 22H04700 to A.S.), AMED project for elucidating and controlling mechanisms of aging and longevity (1005442 to H.S.), the Uehara Memorial Foundation Research Incentive Grant (to A.S.) and the Uehara Memorial Foundation Research Grant (to H.S.).
Publisher Copyright:
© 2023, The Author(s).
PY - 2023/3
Y1 - 2023/3
N2 - Zygotic genome activation (ZGA) is a critical postfertilization step that promotes totipotency and allows different cell fates to emerge in the developing embryo. MERVL (murine endogenous retrovirus-L) is transiently upregulated at the two-cell stage during ZGA. Although MERVL expression is widely used as a marker of totipotency, the role of this retrotransposon in mouse embryogenesis remains elusive. Here, we show that full-length MERVL transcripts, but not encoded retroviral proteins, are essential for accurate regulation of the host transcriptome and chromatin state during preimplantation development. Both knockdown and CRISPRi-based repression of MERVL result in embryonic lethality due to defects in differentiation and genomic stability. Furthermore, transcriptome and epigenome analysis revealed that loss of MERVL transcripts led to retention of an accessible chromatin state at, and aberrant expression of, a subset of two-cell-specific genes. Taken together, our results suggest a model in which an endogenous retrovirus plays a key role in regulating host cell fate potential.
AB - Zygotic genome activation (ZGA) is a critical postfertilization step that promotes totipotency and allows different cell fates to emerge in the developing embryo. MERVL (murine endogenous retrovirus-L) is transiently upregulated at the two-cell stage during ZGA. Although MERVL expression is widely used as a marker of totipotency, the role of this retrotransposon in mouse embryogenesis remains elusive. Here, we show that full-length MERVL transcripts, but not encoded retroviral proteins, are essential for accurate regulation of the host transcriptome and chromatin state during preimplantation development. Both knockdown and CRISPRi-based repression of MERVL result in embryonic lethality due to defects in differentiation and genomic stability. Furthermore, transcriptome and epigenome analysis revealed that loss of MERVL transcripts led to retention of an accessible chromatin state at, and aberrant expression of, a subset of two-cell-specific genes. Taken together, our results suggest a model in which an endogenous retrovirus plays a key role in regulating host cell fate potential.
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U2 - 10.1038/s41588-023-01324-y
DO - 10.1038/s41588-023-01324-y
M3 - Article
C2 - 36864102
AN - SCOPUS:85149118950
SN - 1061-4036
VL - 55
SP - 484
EP - 495
JO - Nature Genetics
JF - Nature Genetics
IS - 3
ER -