Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders

Raeka S. Aiyar; Maria Bohnert; Stéphane Duvezin-Caubet; Cécile Voisset; Julien Gagneur; Emilie S. Fritsch; Elodie Couplan; Karina Von Der Malsburg; Charlotta Funaya; Flavie Soubigou; Florence Courtin; Sundari Suresh; Roza Kucharczyk; Justine Evrard; Claude Antony; Robert P. St.onge; Marc Blondel; Jean Paul Di Rago; Martin Van Der Laan; Lars M. Steinmetz

doi:10.1038/ncomms6585

Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders

Raeka S. Aiyar, Maria Bohnert, Stéphane Duvezin-Caubet, Cécile Voisset, Julien Gagneur, Emilie S. Fritsch, Elodie Couplan, Karina Von Der Malsburg, Charlotta Funaya, Flavie Soubigou, Florence Courtin, Sundari Suresh, Roza Kucharczyk, Justine Evrard, Claude Antony, Robert P. St.onge, Marc Blondel, Jean Paul Di Rago, Martin Van Der Laan, Lars M. Steinmetz

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28 Scopus citations

Abstract

Mitochondrial diseases are systemic, prevalent and often fatal; yet treatments remain scarce. Identifying molecular intervention points that can be therapeutically targeted remains a major challenge, which we confronted via a screening assay we developed. Using yeast models of mitochondrial ATP synthase disorders, we screened a drug repurposing library, and applied genomic and biochemical techniques to identify pathways of interest. Here we demonstrate that modulating the sorting of nuclear-encoded proteins into mitochondria, mediated by the TIM23 complex, proves therapeutic in both yeast and patient-derived cells exhibiting ATP synthase deficiency. Targeting TIM23-dependent protein sorting improves an array of phenotypes associated with ATP synthase disorders, including biogenesis and activity of the oxidative phosphorylation machinery. Our study establishes mitochondrial protein sorting as an intervention point for ATP synthase disorders, and because of the central role of this pathway in mitochondrial biogenesis, it holds broad value for the treatment of mitochondrial diseases.

Original language	English
Article number	5585
Journal	Nature Communications
Volume	5
DOIs	https://doi.org/10.1038/ncomms6585
State	Published - 2014
Externally published	Yes

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Aiyar, R. S., Bohnert, M., Duvezin-Caubet, S., Voisset, C., Gagneur, J., Fritsch, E. S., Couplan, E., Von Der Malsburg, K., Funaya, C., Soubigou, F., Courtin, F., Suresh, S., Kucharczyk, R., Evrard, J., Antony, C., St.onge, R. P., Blondel, M., Di Rago, J. P., Van Der Laan, M., & Steinmetz, L. M. (2014). Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders. Nature Communications, 5, Article 5585. https://doi.org/10.1038/ncomms6585

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title = "Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders",

abstract = "Mitochondrial diseases are systemic, prevalent and often fatal; yet treatments remain scarce. Identifying molecular intervention points that can be therapeutically targeted remains a major challenge, which we confronted via a screening assay we developed. Using yeast models of mitochondrial ATP synthase disorders, we screened a drug repurposing library, and applied genomic and biochemical techniques to identify pathways of interest. Here we demonstrate that modulating the sorting of nuclear-encoded proteins into mitochondria, mediated by the TIM23 complex, proves therapeutic in both yeast and patient-derived cells exhibiting ATP synthase deficiency. Targeting TIM23-dependent protein sorting improves an array of phenotypes associated with ATP synthase disorders, including biogenesis and activity of the oxidative phosphorylation machinery. Our study establishes mitochondrial protein sorting as an intervention point for ATP synthase disorders, and because of the central role of this pathway in mitochondrial biogenesis, it holds broad value for the treatment of mitochondrial diseases.",

author = "Aiyar, {Raeka S.} and Maria Bohnert and St{\'e}phane Duvezin-Caubet and C{\'e}cile Voisset and Julien Gagneur and Fritsch, {Emilie S.} and Elodie Couplan and {Von Der Malsburg}, Karina and Charlotta Funaya and Flavie Soubigou and Florence Courtin and Sundari Suresh and Roza Kucharczyk and Justine Evrard and Claude Antony and St.onge, {Robert P.} and Marc Blondel and {Di Rago}, {Jean Paul} and {Van Der Laan}, Martin and Steinmetz, {Lars M.}",

year = "2014",

doi = "10.1038/ncomms6585",

language = "English",

volume = "5",

journal = "Nature Communications",

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Aiyar, RS, Bohnert, M, Duvezin-Caubet, S, Voisset, C, Gagneur, J, Fritsch, ES, Couplan, E, Von Der Malsburg, K, Funaya, C, Soubigou, F, Courtin, F, Suresh, S, Kucharczyk, R, Evrard, J, Antony, C, St.onge, RP, Blondel, M, Di Rago, JP, Van Der Laan, M & Steinmetz, LM 2014, 'Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders', Nature Communications, vol. 5, 5585. https://doi.org/10.1038/ncomms6585

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AU - Aiyar, Raeka S.

AU - Bohnert, Maria

AU - Duvezin-Caubet, Stéphane

AU - Voisset, Cécile

AU - Gagneur, Julien

AU - Fritsch, Emilie S.

AU - Couplan, Elodie

AU - Von Der Malsburg, Karina

AU - Funaya, Charlotta

AU - Soubigou, Flavie

AU - Courtin, Florence

AU - Suresh, Sundari

AU - Kucharczyk, Roza

AU - Evrard, Justine

AU - Antony, Claude

AU - St.onge, Robert P.

AU - Blondel, Marc

AU - Di Rago, Jean Paul

AU - Van Der Laan, Martin

AU - Steinmetz, Lars M.

PY - 2014

Y1 - 2014

N2 - Mitochondrial diseases are systemic, prevalent and often fatal; yet treatments remain scarce. Identifying molecular intervention points that can be therapeutically targeted remains a major challenge, which we confronted via a screening assay we developed. Using yeast models of mitochondrial ATP synthase disorders, we screened a drug repurposing library, and applied genomic and biochemical techniques to identify pathways of interest. Here we demonstrate that modulating the sorting of nuclear-encoded proteins into mitochondria, mediated by the TIM23 complex, proves therapeutic in both yeast and patient-derived cells exhibiting ATP synthase deficiency. Targeting TIM23-dependent protein sorting improves an array of phenotypes associated with ATP synthase disorders, including biogenesis and activity of the oxidative phosphorylation machinery. Our study establishes mitochondrial protein sorting as an intervention point for ATP synthase disorders, and because of the central role of this pathway in mitochondrial biogenesis, it holds broad value for the treatment of mitochondrial diseases.

AB - Mitochondrial diseases are systemic, prevalent and often fatal; yet treatments remain scarce. Identifying molecular intervention points that can be therapeutically targeted remains a major challenge, which we confronted via a screening assay we developed. Using yeast models of mitochondrial ATP synthase disorders, we screened a drug repurposing library, and applied genomic and biochemical techniques to identify pathways of interest. Here we demonstrate that modulating the sorting of nuclear-encoded proteins into mitochondria, mediated by the TIM23 complex, proves therapeutic in both yeast and patient-derived cells exhibiting ATP synthase deficiency. Targeting TIM23-dependent protein sorting improves an array of phenotypes associated with ATP synthase disorders, including biogenesis and activity of the oxidative phosphorylation machinery. Our study establishes mitochondrial protein sorting as an intervention point for ATP synthase disorders, and because of the central role of this pathway in mitochondrial biogenesis, it holds broad value for the treatment of mitochondrial diseases.

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SN - 2041-1723

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JO - Nature Communications

JF - Nature Communications

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Mitochondrial protein sorting as a therapeutic target for ATP synthase disorders

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