Literature DB >> 26801615

Nutrient-regulated Phosphorylation of ATG13 Inhibits Starvation-induced Autophagy.

Cindy Puente1, Ronald C Hendrickson2, Xuejun Jiang3.   

Abstract

Autophagy is a conserved catabolic process that utilizes a defined series of membrane trafficking events to generate a de novo double-membrane vesicle termed the autophagosome, which matures by fusing to the lysosome. Subsequently, the lysosome facilitates the degradation and recycling of the cytoplasmic cargo. In yeast, the upstream signals that regulate the induction of starvation-induced autophagy are clearly defined. The nutrient-sensing kinase Tor inhibits the activation of autophagy by regulating the formation of the Atg1-Atg13-Atg17 complex, through hyperphosphorylation of Atg13. However, in mammals, the ortholog complex ULK1-ATG13-FIP200 is constitutively formed. As such, the molecular mechanism by which mTOR regulates mammalian autophagy is unknown. Here we report the identification and characterization of novel nutrient-regulated phosphorylation sites on ATG13: Ser-224 and Ser-258. mTOR directly phosphorylates ATG13 on Ser-258 while Ser-224 is modulated by the AMPK pathway. In ATG13 knock-out cells reconstituted with an unphosphorylatable mutant of ATG13, ULK1 kinase activity is more potent, and amino acid starvation induced more rapid ATG13 and ULK1 translocation. These events culminated in a more rapid starvation-induced autophagy response. Therefore, ATG13 phosphorylation plays a crucial role in autophagy regulation.
© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  AMP-activated kinase (AMPK); Macroautophagy; TOR complex (TORC); ULK1; autophagy; mammalian target of rapamycin (mTOR); phosphorylation

Mesh:

Substances:

Year:  2016        PMID: 26801615      PMCID: PMC4786734          DOI: 10.1074/jbc.M115.689646

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  33 in total

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Authors:  Heesun Cheong; Tomohiro Yorimitsu; Fulvio Reggiori; Julie E Legakis; Chao-Wen Wang; Daniel J Klionsky
Journal:  Mol Biol Cell       Date:  2005-05-18       Impact factor: 4.138

Review 2.  Autophagy: process and function.

Authors:  Noboru Mizushima
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3.  Examination of micro-tip reversed-phase liquid chromatographic extraction of peptide pools for mass spectrometric analysis.

Authors:  H Erdjument-Bromage; M Lui; L Lacomis; A Grewal; R S Annan; D E McNulty; S A Carr; P Tempst
Journal:  J Chromatogr A       Date:  1998-11-27       Impact factor: 4.759

4.  Tor directly controls the Atg1 kinase complex to regulate autophagy.

Authors:  Yoshiaki Kamada; Ken-ichi Yoshino; Chika Kondo; Tomoko Kawamata; Noriko Oshiro; Kazuyoshi Yonezawa; Yoshinori Ohsumi
Journal:  Mol Cell Biol       Date:  2009-12-07       Impact factor: 4.272

5.  Hierarchy of Atg proteins in pre-autophagosomal structure organization.

Authors:  Kuninori Suzuki; Yuka Kubota; Takayuki Sekito; Yoshinori Ohsumi
Journal:  Genes Cells       Date:  2007-02       Impact factor: 1.891

6.  Atg17 functions in cooperation with Atg1 and Atg13 in yeast autophagy.

Authors:  Yukiko Kabeya; Yoshiaki Kamada; Misuzu Baba; Hirosato Takikawa; Mitsuru Sasaki; Yoshinori Ohsumi
Journal:  Mol Biol Cell       Date:  2005-03-02       Impact factor: 4.138

7.  Isolation and characterization of autophagy-defective mutants of Saccharomyces cerevisiae.

Authors:  M Tsukada; Y Ohsumi
Journal:  FEBS Lett       Date:  1993-10-25       Impact factor: 4.124

8.  Isolation of autophagocytosis mutants of Saccharomyces cerevisiae.

Authors:  M Thumm; R Egner; B Koch; M Schlumpberger; M Straub; M Veenhuis; D H Wolf
Journal:  FEBS Lett       Date:  1994-08-01       Impact factor: 4.124

9.  Tor-mediated induction of autophagy via an Apg1 protein kinase complex.

Authors:  Y Kamada; T Funakoshi; T Shintani; K Nagano; M Ohsumi; Y Ohsumi
Journal:  J Cell Biol       Date:  2000-09-18       Impact factor: 10.539

10.  Autophagy in yeast demonstrated with proteinase-deficient mutants and conditions for its induction.

Authors:  K Takeshige; M Baba; S Tsuboi; T Noda; Y Ohsumi
Journal:  J Cell Biol       Date:  1992-10       Impact factor: 10.539
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  68 in total

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Authors:  Yang Su; Jingxiao Lu; Xianguo Chen; Chaozhao Liang; Pengcheng Luo; Cong Qin; Jie Zhang
Journal:  J Cancer Res Clin Oncol       Date:  2018-12-03       Impact factor: 4.553

2.  Autophagosome biogenesis: From membrane growth to closure.

Authors:  Thomas J Melia; Alf H Lystad; Anne Simonsen
Journal:  J Cell Biol       Date:  2020-06-01       Impact factor: 10.539

3.  mTORC1-chaperonin CCT signaling regulates m6A RNA methylation to suppress autophagy.

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Review 5.  Structure and function of the ULK1 complex in autophagy.

Authors:  Mary G Lin; James H Hurley
Journal:  Curr Opin Cell Biol       Date:  2016-02-27       Impact factor: 8.382

Review 6.  Recent advances in quantitative and chemical proteomics for autophagy studies.

Authors:  Yin-Kwan Wong; Jianbin Zhang; Zi-Chun Hua; Qingsong Lin; Han-Ming Shen; Jigang Wang
Journal:  Autophagy       Date:  2017-08-18       Impact factor: 16.016

7.  Poliovirus induces autophagic signaling independent of the ULK1 complex.

Authors:  Angel Corona Velazquez; Abigail K Corona; Kathryn A Klein; William T Jackson
Journal:  Autophagy       Date:  2018-07-20       Impact factor: 16.016

8.  Lysosomes in glioblastoma: pump up the volume.

Authors:  Kathryn A Jacobs; Clément Maghe; Julie Gavard
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9.  Lys05 - A Promising Autophagy Inhibitor in the Radiosensitization Battle: Phosphoproteomic Perspective.

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Journal:  Cancer Genomics Proteomics       Date:  2020 Jul-Aug       Impact factor: 4.069

10.  mGluR5 Contribution to Neuropathology in Alzheimer Mice Is Disease Stage-Dependent.

Authors:  Khaled S Abd-Elrahman; Alison Hamilton; Awatif Albaker; Stephen S G Ferguson
Journal:  ACS Pharmacol Transl Sci       Date:  2020-03-12
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