DRP1 levels determine the apoptotic threshold during embryonic differentiation through a mitophagy-dependent mechanism

Barbara Pernaute; Salvador Pérez-Montero; Juan Miguel Sánchez Nieto; Aida Di Gregorio; Ana Lima; Katerina Lawlor; Sarah Bowling; Gianmaria Liccardi; Alejandra Tomás; Pascal Meier; Hiromi Sesaki; Guy A. Rutter; Ivana Barbaric; Tristan A. Rodríguez

doi:10.1016/j.devcel.2022.04.020

DRP1 levels determine the apoptotic threshold during embryonic differentiation through a mitophagy-dependent mechanism

Barbara Pernaute, Salvador Pérez-Montero, Juan Miguel Sánchez Nieto, Aida Di Gregorio, Ana Lima, Katerina Lawlor, Sarah Bowling, Gianmaria Liccardi, Alejandra Tomás, Pascal Meier, Hiromi Sesaki, Guy A. Rutter, Ivana Barbaric, Tristan A. Rodríguez

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

The changes that drive differentiation facilitate the emergence of abnormal cells that need to be removed before they contribute to further development or the germline. Consequently, in mice in the lead-up to gastrulation, ∼35% of embryonic cells are eliminated. This elimination is caused by hypersensitivity to apoptosis, but how it is regulated is poorly understood. Here, we show that upon exit of naive pluripotency, mouse embryonic stem cells lower their mitochondrial apoptotic threshold, and this increases their sensitivity to cell death. We demonstrate that this enhanced apoptotic response is induced by a decrease in mitochondrial fission due to a reduction in the activity of dynamin-related protein 1 (DRP1). Furthermore, we show that in naive pluripotent cells, DRP1 prevents apoptosis by promoting mitophagy. In contrast, during differentiation, reduced mitophagy levels facilitate apoptosis. Together, these results indicate that during early mammalian development, DRP1 regulation of mitophagy determines the apoptotic response.

Original language	English (US)
Pages (from-to)	1316-1330.e7
Journal	Developmental Cell
Volume	57
Issue number	11
DOIs	https://doi.org/10.1016/j.devcel.2022.04.020
State	Published - Jun 6 2022

Keywords

apoptosis
early development
embryonic stem cell differentiation
mitochondrial dynamics
mitophagy
pluripotency

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
Molecular Biology
Cell Biology
Developmental Biology

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10.1016/j.devcel.2022.04.020

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Pernaute, B., Pérez-Montero, S., Sánchez Nieto, J. M., Di Gregorio, A., Lima, A., Lawlor, K., Bowling, S., Liccardi, G., Tomás, A., Meier, P., Sesaki, H., Rutter, G. A., Barbaric, I., & Rodríguez, T. A. (2022). DRP1 levels determine the apoptotic threshold during embryonic differentiation through a mitophagy-dependent mechanism. Developmental Cell, 57(11), 1316-1330.e7. https://doi.org/10.1016/j.devcel.2022.04.020

Pernaute, B, Pérez-Montero, S, Sánchez Nieto, JM, Di Gregorio, A, Lima, A, Lawlor, K, Bowling, S, Liccardi, G, Tomás, A, Meier, P, Sesaki, H, Rutter, GA, Barbaric, I & Rodríguez, TA 2022, 'DRP1 levels determine the apoptotic threshold during embryonic differentiation through a mitophagy-dependent mechanism', Developmental Cell, vol. 57, no. 11, pp. 1316-1330.e7. https://doi.org/10.1016/j.devcel.2022.04.020

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abstract = "The changes that drive differentiation facilitate the emergence of abnormal cells that need to be removed before they contribute to further development or the germline. Consequently, in mice in the lead-up to gastrulation, ∼35% of embryonic cells are eliminated. This elimination is caused by hypersensitivity to apoptosis, but how it is regulated is poorly understood. Here, we show that upon exit of naive pluripotency, mouse embryonic stem cells lower their mitochondrial apoptotic threshold, and this increases their sensitivity to cell death. We demonstrate that this enhanced apoptotic response is induced by a decrease in mitochondrial fission due to a reduction in the activity of dynamin-related protein 1 (DRP1). Furthermore, we show that in naive pluripotent cells, DRP1 prevents apoptosis by promoting mitophagy. In contrast, during differentiation, reduced mitophagy levels facilitate apoptosis. Together, these results indicate that during early mammalian development, DRP1 regulation of mitophagy determines the apoptotic response.",

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AU - Pernaute, Barbara

AU - Pérez-Montero, Salvador

AU - Sánchez Nieto, Juan Miguel

AU - Di Gregorio, Aida

AU - Lima, Ana

AU - Lawlor, Katerina

AU - Bowling, Sarah

AU - Liccardi, Gianmaria

AU - Tomás, Alejandra

AU - Meier, Pascal

AU - Sesaki, Hiromi

AU - Rutter, Guy A.

AU - Barbaric, Ivana

AU - Rodríguez, Tristan A.

PY - 2022/6/6

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N2 - The changes that drive differentiation facilitate the emergence of abnormal cells that need to be removed before they contribute to further development or the germline. Consequently, in mice in the lead-up to gastrulation, ∼35% of embryonic cells are eliminated. This elimination is caused by hypersensitivity to apoptosis, but how it is regulated is poorly understood. Here, we show that upon exit of naive pluripotency, mouse embryonic stem cells lower their mitochondrial apoptotic threshold, and this increases their sensitivity to cell death. We demonstrate that this enhanced apoptotic response is induced by a decrease in mitochondrial fission due to a reduction in the activity of dynamin-related protein 1 (DRP1). Furthermore, we show that in naive pluripotent cells, DRP1 prevents apoptosis by promoting mitophagy. In contrast, during differentiation, reduced mitophagy levels facilitate apoptosis. Together, these results indicate that during early mammalian development, DRP1 regulation of mitophagy determines the apoptotic response.

AB - The changes that drive differentiation facilitate the emergence of abnormal cells that need to be removed before they contribute to further development or the germline. Consequently, in mice in the lead-up to gastrulation, ∼35% of embryonic cells are eliminated. This elimination is caused by hypersensitivity to apoptosis, but how it is regulated is poorly understood. Here, we show that upon exit of naive pluripotency, mouse embryonic stem cells lower their mitochondrial apoptotic threshold, and this increases their sensitivity to cell death. We demonstrate that this enhanced apoptotic response is induced by a decrease in mitochondrial fission due to a reduction in the activity of dynamin-related protein 1 (DRP1). Furthermore, we show that in naive pluripotent cells, DRP1 prevents apoptosis by promoting mitophagy. In contrast, during differentiation, reduced mitophagy levels facilitate apoptosis. Together, these results indicate that during early mammalian development, DRP1 regulation of mitophagy determines the apoptotic response.

KW - apoptosis

KW - early development

KW - embryonic stem cell differentiation

KW - mitochondrial dynamics

KW - mitophagy

KW - pluripotency

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DRP1 levels determine the apoptotic threshold during embryonic differentiation through a mitophagy-dependent mechanism

Abstract

Keywords

ASJC Scopus subject areas

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