NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation

Michelle Huth; Laura Santini; Elena Galimberti; Julia Ramesmayer; Fabian Titz-Teixeira; Robert Sehlke; Michael Oberhuemer; Sarah Stummer; Veronika Herzog; Marius Garmhausen; Merrit Romeike; Anastasia Chugunova; Friederike Leesch; Laurenz Holcik; Klara Weipoltshammer; Andreas Lackner; Christian Schoefer; Arndt von Haeseler; Christa Bücker; Andrea Pauli; Stefan L Ameres; Austin Smith; Andreas Beyer; Martin Leeb

doi:10.1101/gad.347690.120

NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation

Michelle Huth, Laura Santini, Elena Galimberti, Julia Ramesmayer, Fabian Titz-Teixeira, Robert Sehlke, Michael Oberhuemer, Sarah Stummer, Veronika Herzog, Marius Garmhausen, Merrit Romeike, Anastasia Chugunova, Friederike Leesch, Laurenz Holcik, Klara Weipoltshammer, Andreas Lackner, Christian Schoefer, Arndt von Haeseler, Christa Bücker, Andrea PauliStefan L Ameres, Austin Smith, Andreas Beyer, Martin Leeb

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

Cell fate transitions depend on balanced rewiring of transcription and translation programs to mediate ordered developmental progression. Components of the nonsense-mediated mRNA decay (NMD) pathway have been implicated in regulating embryonic stem cell (ESC) differentiation, but the exact mechanism is unclear. Here we show that NMD controls expression levels of the translation initiation factor Eif4a2 and its premature termination codon-encoding isoform (Eif4a2PTC ). NMD deficiency leads to translation of the truncated eIF4A2PTC protein. eIF4A2PTC elicits increased mTORC1 activity and translation rates and causes differentiation delays. This establishes a previously unknown feedback loop between NMD and translation initiation. Furthermore, our results show a clear hierarchy in the severity of target deregulation and differentiation phenotypes between NMD effector KOs (Smg5 KO > Smg6 KO > Smg7 KO), which highlights heterodimer-independent functions for SMG5 and SMG7. Together, our findings expose an intricate link between mRNA homeostasis and mTORC1 activity that must be maintained for normal dynamics of cell state transitions.

Originalsprache	Englisch
Seiten (von - bis)	348-367
Seitenumfang	20
Fachzeitschrift	Genes & Development
Jahrgang	36
Ausgabenummer	5-6
DOIs	https://doi.org/10.1101/gad.347690.120
Publikationsstatus	Veröffentlicht - 3 März 2022

ÖFOS 2012

106039 Stammzellenforschung
106010 Entwicklungsbiologie

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10.1101/gad.347690.120Lizenz: CC BY-NC 4.0

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RNAdeco: Decorating RNA for a purpose
Jantsch, M. F., Ameres, S. & Hofacker, I.
1/03/20 → 29/02/28
Projekt: Forschungsförderung
RiboTrace: Bridging temporal resolution gaps to dissect RNA silencing at the molecular and genomic scale
Ameres, S.
1/01/22 → 31/01/25
Projekt: Forschungsförderung

Zitationsweisen

Huth, M., Santini, L., Galimberti, E., Ramesmayer, J., Titz-Teixeira, F., Sehlke, R., Oberhuemer, M., Stummer, S., Herzog, V., Garmhausen, M., Romeike, M., Chugunova, A., Leesch, F., Holcik, L., Weipoltshammer, K., Lackner, A., Schoefer, C., von Haeseler, A., Bücker, C., ... Leeb, M. (2022). NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation. Genes & Development, 36(5-6), 348-367. https://doi.org/10.1101/gad.347690.120

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title = "NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation",

abstract = "Cell fate transitions depend on balanced rewiring of transcription and translation programs to mediate ordered developmental progression. Components of the nonsense-mediated mRNA decay (NMD) pathway have been implicated in regulating embryonic stem cell (ESC) differentiation, but the exact mechanism is unclear. Here we show that NMD controls expression levels of the translation initiation factor Eif4a2 and its premature termination codon-encoding isoform (Eif4a2PTC ). NMD deficiency leads to translation of the truncated eIF4A2PTC protein. eIF4A2PTC elicits increased mTORC1 activity and translation rates and causes differentiation delays. This establishes a previously unknown feedback loop between NMD and translation initiation. Furthermore, our results show a clear hierarchy in the severity of target deregulation and differentiation phenotypes between NMD effector KOs (Smg5 KO > Smg6 KO > Smg7 KO), which highlights heterodimer-independent functions for SMG5 and SMG7. Together, our findings expose an intricate link between mRNA homeostasis and mTORC1 activity that must be maintained for normal dynamics of cell state transitions.",

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Huth, M, Santini, L, Galimberti, E, Ramesmayer, J, Titz-Teixeira, F, Sehlke, R, Oberhuemer, M, Stummer, S, Herzog, V, Garmhausen, M, Romeike, M, Chugunova, A, Leesch, F, Holcik, L, Weipoltshammer, K, Lackner, A, Schoefer, C, von Haeseler, A, Bücker, C , Pauli, A , Ameres, SL, Smith, A, Beyer, A & Leeb, M 2022, 'NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation', Genes & Development, Jg. 36, Nr. 5-6, S. 348-367. https://doi.org/10.1101/gad.347690.120

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AU - Huth, Michelle

AU - Santini, Laura

AU - Galimberti, Elena

AU - Ramesmayer, Julia

AU - Titz-Teixeira, Fabian

AU - Sehlke, Robert

AU - Oberhuemer, Michael

AU - Stummer, Sarah

AU - Herzog, Veronika

AU - Garmhausen, Marius

AU - Romeike, Merrit

AU - Chugunova, Anastasia

AU - Leesch, Friederike

AU - Holcik, Laurenz

AU - Weipoltshammer, Klara

AU - Lackner, Andreas

AU - Schoefer, Christian

AU - von Haeseler, Arndt

AU - Bücker, Christa

AU - Pauli, Andrea

AU - Ameres, Stefan L

AU - Smith, Austin

AU - Beyer, Andreas

AU - Leeb, Martin

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AB - Cell fate transitions depend on balanced rewiring of transcription and translation programs to mediate ordered developmental progression. Components of the nonsense-mediated mRNA decay (NMD) pathway have been implicated in regulating embryonic stem cell (ESC) differentiation, but the exact mechanism is unclear. Here we show that NMD controls expression levels of the translation initiation factor Eif4a2 and its premature termination codon-encoding isoform (Eif4a2PTC ). NMD deficiency leads to translation of the truncated eIF4A2PTC protein. eIF4A2PTC elicits increased mTORC1 activity and translation rates and causes differentiation delays. This establishes a previously unknown feedback loop between NMD and translation initiation. Furthermore, our results show a clear hierarchy in the severity of target deregulation and differentiation phenotypes between NMD effector KOs (Smg5 KO > Smg6 KO > Smg7 KO), which highlights heterodimer-independent functions for SMG5 and SMG7. Together, our findings expose an intricate link between mRNA homeostasis and mTORC1 activity that must be maintained for normal dynamics of cell state transitions.

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KW - Gene Expression

KW - HeLa Cells

KW - Humans

KW - Mechanistic Target of Rapamycin Complex 1/genetics

KW - Nonsense Mediated mRNA Decay

KW - RNA biology

KW - embryonic stem cells

KW - translation initiation

KW - nonsense-mediated mRNA decay

KW - pluripotency

KW - exit from naïve pluripotency

KW - cell fate regulation

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DO - 10.1101/gad.347690.120

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SN - 0890-9369

VL - 36

SP - 348

EP - 367

JO - Genes & Development

JF - Genes & Development

IS - 5-6

ER -

NMD is required for timely cell fate transitions by fine-tuning gene expression and regulating translation

Abstract

ÖFOS 2012

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

RNAdeco: Decorating RNA for a purpose

RiboTrace: Bridging temporal resolution gaps to dissect RNA silencing at the molecular and genomic scale

Zitationsweisen