An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates

The mitochondrial proteome is built mainly by import of nuclear-encoded precursors, which are targeted mostly by cleavable presequences. Presequence processing upon import is essential for proteostasis and survival, but the consequences of dysfunctional protein maturation are unknown. We find that i...

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Autores principales: Poveda-Huertes, Daniel, Matic, Stanka, Marada, Adinarayana, Habernig, Lukas, Licheva, Mariya, Myketin, Lisa, Gilsbach, Ralf, Tosal-Castano, Sergi, Papinski, Daniel, Mulica, Patrycja, Kretz, Oliver, Kücükköse, Cansu, Taskin, Asli Aras, Hein, Lutz, Kraft, Claudine, Büttner, Sabrina, Meisinger, Chris, Vögtle, F.-Nora
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6941230/
https://www.ncbi.nlm.nih.gov/pubmed/31630969
http://dx.doi.org/10.1016/j.molcel.2019.09.026
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author Poveda-Huertes, Daniel
Matic, Stanka
Marada, Adinarayana
Habernig, Lukas
Licheva, Mariya
Myketin, Lisa
Gilsbach, Ralf
Tosal-Castano, Sergi
Papinski, Daniel
Mulica, Patrycja
Kretz, Oliver
Kücükköse, Cansu
Taskin, Asli Aras
Hein, Lutz
Kraft, Claudine
Büttner, Sabrina
Meisinger, Chris
Vögtle, F.-Nora
author_facet Poveda-Huertes, Daniel
Matic, Stanka
Marada, Adinarayana
Habernig, Lukas
Licheva, Mariya
Myketin, Lisa
Gilsbach, Ralf
Tosal-Castano, Sergi
Papinski, Daniel
Mulica, Patrycja
Kretz, Oliver
Kücükköse, Cansu
Taskin, Asli Aras
Hein, Lutz
Kraft, Claudine
Büttner, Sabrina
Meisinger, Chris
Vögtle, F.-Nora
author_sort Poveda-Huertes, Daniel
collection PubMed
description The mitochondrial proteome is built mainly by import of nuclear-encoded precursors, which are targeted mostly by cleavable presequences. Presequence processing upon import is essential for proteostasis and survival, but the consequences of dysfunctional protein maturation are unknown. We find that impaired presequence processing causes accumulation of precursors inside mitochondria that form aggregates, which escape degradation and unexpectedly do not cause cell death. Instead, cells survive via activation of a mitochondrial unfolded protein response (mtUPR)-like pathway that is triggered very early after precursor accumulation. In contrast to classical stress pathways, this immediate response maintains mitochondrial protein import, membrane potential, and translation through translocation of the nuclear HMG-box transcription factor Rox1 to mitochondria. Rox1 binds mtDNA and performs a TFAM-like function pivotal for transcription and translation. Induction of early mtUPR provides a reversible stress model to mechanistically dissect the initial steps in mtUPR pathways with the stressTFAM Rox1 as the first line of defense.
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spelling pubmed-69412302020-01-07 An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates Poveda-Huertes, Daniel Matic, Stanka Marada, Adinarayana Habernig, Lukas Licheva, Mariya Myketin, Lisa Gilsbach, Ralf Tosal-Castano, Sergi Papinski, Daniel Mulica, Patrycja Kretz, Oliver Kücükköse, Cansu Taskin, Asli Aras Hein, Lutz Kraft, Claudine Büttner, Sabrina Meisinger, Chris Vögtle, F.-Nora Mol Cell Article The mitochondrial proteome is built mainly by import of nuclear-encoded precursors, which are targeted mostly by cleavable presequences. Presequence processing upon import is essential for proteostasis and survival, but the consequences of dysfunctional protein maturation are unknown. We find that impaired presequence processing causes accumulation of precursors inside mitochondria that form aggregates, which escape degradation and unexpectedly do not cause cell death. Instead, cells survive via activation of a mitochondrial unfolded protein response (mtUPR)-like pathway that is triggered very early after precursor accumulation. In contrast to classical stress pathways, this immediate response maintains mitochondrial protein import, membrane potential, and translation through translocation of the nuclear HMG-box transcription factor Rox1 to mitochondria. Rox1 binds mtDNA and performs a TFAM-like function pivotal for transcription and translation. Induction of early mtUPR provides a reversible stress model to mechanistically dissect the initial steps in mtUPR pathways with the stressTFAM Rox1 as the first line of defense. Cell Press 2020-01-02 /pmc/articles/PMC6941230/ /pubmed/31630969 http://dx.doi.org/10.1016/j.molcel.2019.09.026 Text en © 2019 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Poveda-Huertes, Daniel
Matic, Stanka
Marada, Adinarayana
Habernig, Lukas
Licheva, Mariya
Myketin, Lisa
Gilsbach, Ralf
Tosal-Castano, Sergi
Papinski, Daniel
Mulica, Patrycja
Kretz, Oliver
Kücükköse, Cansu
Taskin, Asli Aras
Hein, Lutz
Kraft, Claudine
Büttner, Sabrina
Meisinger, Chris
Vögtle, F.-Nora
An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title_full An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title_fullStr An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title_full_unstemmed An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title_short An Early mtUPR: Redistribution of the Nuclear Transcription Factor Rox1 to Mitochondria Protects against Intramitochondrial Proteotoxic Aggregates
title_sort early mtupr: redistribution of the nuclear transcription factor rox1 to mitochondria protects against intramitochondrial proteotoxic aggregates
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6941230/
https://www.ncbi.nlm.nih.gov/pubmed/31630969
http://dx.doi.org/10.1016/j.molcel.2019.09.026
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