Nutrient-dependent mTORCl association with the ULK1-Atg13-FIP200 complex required for autophagy

Nao Hosokawa; Taichi Hara; Takeshi Kaizuka; Chieko Kishi; Akito Takamura; Yutaka Miura; Shun Ichiro Iemura; Tohru Natsume; Kenji Takehana; Naoyuki Yamada; Jun Lin Guan; Noriko Oshiro; Noboru Mizushima

doi:10.1091/mbc.E08-12-1248

Nutrient-dependent mTORCl association with the ULK1-Atg13-FIP200 complex required for autophagy

Nao Hosokawa, Taichi Hara, Takeshi Kaizuka, Chieko Kishi, Akito Takamura, Yutaka Miura, Shun Ichiro Iemura, Tohru Natsume, Kenji Takehana, Naoyuki Yamada, Jun Lin Guan, Noriko Oshiro, Noboru Mizushima^*

^*Corresponding author for this work

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

1586 Citations (Scopus)

Abstract

Autophagy is an intracellular degradation system, by which cytoplasmic contents are degraded in lysosomes. Autophagy is dynamically induced by nutrient depletion to provide necessary amino acids within cells, thus helping them adapt to starvation. Although it has been suggested that mTOR is a major negative regulator of autophagy, how it controls autophagy has not yet been determined. Here, we report a novel mammalian autophagy factor, Atg13, which forms a stable ∼3-MDa protein complex with ULK1 and FIP200. Atg13 localizes on the autophagic isolation membrane and is essential for autophagosome formation. In contrast to yeast counterparts, formation of the ULK1-Atg13-FIP200 complex is not altered by nutrient conditions. Importantly, mTORC1 is incorporated into the ULK1-Atg13-FIP200 complex through ULK1 in a nutrient-dependent manner and mTOR phosphorylates ULK1 and Atg13. ULK1 is dephosphorylated by rapamycin treatment or starvation. These data suggest that mTORC1 suppresses autophagy through direct regulation of the ∼3-MDa ULK1-Atg13-FIP200 complex.

Original language	English
Pages (from-to)	1981-1991
Number of pages	11
Journal	Molecular biology of the cell
Volume	20
Issue number	7
DOIs	https://doi.org/10.1091/mbc.E08-12-1248
Publication status	Published - 2009 Apr 1
Externally published	Yes

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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title = "Nutrient-dependent mTORCl association with the ULK1-Atg13-FIP200 complex required for autophagy",

abstract = "Autophagy is an intracellular degradation system, by which cytoplasmic contents are degraded in lysosomes. Autophagy is dynamically induced by nutrient depletion to provide necessary amino acids within cells, thus helping them adapt to starvation. Although it has been suggested that mTOR is a major negative regulator of autophagy, how it controls autophagy has not yet been determined. Here, we report a novel mammalian autophagy factor, Atg13, which forms a stable ∼3-MDa protein complex with ULK1 and FIP200. Atg13 localizes on the autophagic isolation membrane and is essential for autophagosome formation. In contrast to yeast counterparts, formation of the ULK1-Atg13-FIP200 complex is not altered by nutrient conditions. Importantly, mTORC1 is incorporated into the ULK1-Atg13-FIP200 complex through ULK1 in a nutrient-dependent manner and mTOR phosphorylates ULK1 and Atg13. ULK1 is dephosphorylated by rapamycin treatment or starvation. These data suggest that mTORC1 suppresses autophagy through direct regulation of the ∼3-MDa ULK1-Atg13-FIP200 complex.",

author = "Nao Hosokawa and Taichi Hara and Takeshi Kaizuka and Chieko Kishi and Akito Takamura and Yutaka Miura and Iemura, {Shun Ichiro} and Tohru Natsume and Kenji Takehana and Naoyuki Yamada and Guan, {Jun Lin} and Noriko Oshiro and Noboru Mizushima",

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T1 - Nutrient-dependent mTORCl association with the ULK1-Atg13-FIP200 complex required for autophagy

AU - Hosokawa, Nao

AU - Hara, Taichi

AU - Kaizuka, Takeshi

AU - Kishi, Chieko

AU - Takamura, Akito

AU - Miura, Yutaka

AU - Iemura, Shun Ichiro

AU - Natsume, Tohru

AU - Takehana, Kenji

AU - Yamada, Naoyuki

AU - Guan, Jun Lin

AU - Oshiro, Noriko

AU - Mizushima, Noboru

PY - 2009/4/1

Y1 - 2009/4/1

N2 - Autophagy is an intracellular degradation system, by which cytoplasmic contents are degraded in lysosomes. Autophagy is dynamically induced by nutrient depletion to provide necessary amino acids within cells, thus helping them adapt to starvation. Although it has been suggested that mTOR is a major negative regulator of autophagy, how it controls autophagy has not yet been determined. Here, we report a novel mammalian autophagy factor, Atg13, which forms a stable ∼3-MDa protein complex with ULK1 and FIP200. Atg13 localizes on the autophagic isolation membrane and is essential for autophagosome formation. In contrast to yeast counterparts, formation of the ULK1-Atg13-FIP200 complex is not altered by nutrient conditions. Importantly, mTORC1 is incorporated into the ULK1-Atg13-FIP200 complex through ULK1 in a nutrient-dependent manner and mTOR phosphorylates ULK1 and Atg13. ULK1 is dephosphorylated by rapamycin treatment or starvation. These data suggest that mTORC1 suppresses autophagy through direct regulation of the ∼3-MDa ULK1-Atg13-FIP200 complex.

AB - Autophagy is an intracellular degradation system, by which cytoplasmic contents are degraded in lysosomes. Autophagy is dynamically induced by nutrient depletion to provide necessary amino acids within cells, thus helping them adapt to starvation. Although it has been suggested that mTOR is a major negative regulator of autophagy, how it controls autophagy has not yet been determined. Here, we report a novel mammalian autophagy factor, Atg13, which forms a stable ∼3-MDa protein complex with ULK1 and FIP200. Atg13 localizes on the autophagic isolation membrane and is essential for autophagosome formation. In contrast to yeast counterparts, formation of the ULK1-Atg13-FIP200 complex is not altered by nutrient conditions. Importantly, mTORC1 is incorporated into the ULK1-Atg13-FIP200 complex through ULK1 in a nutrient-dependent manner and mTOR phosphorylates ULK1 and Atg13. ULK1 is dephosphorylated by rapamycin treatment or starvation. These data suggest that mTORC1 suppresses autophagy through direct regulation of the ∼3-MDa ULK1-Atg13-FIP200 complex.

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Nutrient-dependent mTORCl association with the ULK1-Atg13-FIP200 complex required for autophagy

Abstract

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