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Nuclear ULK1 promotes cell death in response to oxidative stress through PARP1

by Peng, J , Wright, C , Iyengar, R , Joo, J H , Temirov, J , Marino, R , Shelat, A , Li-Harms, X J , Joshi, A , Winborn, B J , Phillips, A , Kundu, M , Kriwacki, R , Sciarretta, S

in 13/109 / 14/28 / 14/63 / 631/80/39/2346 / 82/29 / Active Transport, Cell Nucleus / Animals / Apoptosis / Autophagy / Autophagy-Related Protein-1 Homolog / Biochemistry / Biomedical and Life Sciences / Cell Biology / Cell Cycle Analysis / Cell death / Cell Nucleus - metabolism / Enzyme Activation / HEK293 Cells / Humans / Hydrogen Peroxide - pharmacology / Life Sciences / Mice / Original Paper / Oxidative Stress / Poly (ADP-Ribose) Polymerase-1 / Poly(ADP-ribose) Polymerases - metabolism / Protein-Serine-Threonine Kinases - physiology / Stem Cells

2016

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Nuclear ULK1 promotes cell death in response to oxidative stress through PARP1

by Peng, J , Wright, C , Iyengar, R , Joo, J H , Temirov, J , Marino, R , Shelat, A , Li-Harms, X J , Joshi, A , Winborn, B J , Phillips, A , Kundu, M , Kriwacki, R , Sciarretta, S

2016

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Nuclear ULK1 promotes cell death in response to oxidative stress through PARP1

by Peng, J , Wright, C , Iyengar, R , Joo, J H , Temirov, J , Marino, R , Shelat, A , Li-Harms, X J , Joshi, A , Winborn, B J , Phillips, A , Kundu, M , Kriwacki, R , Sciarretta, S

2016

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Journal Article

Nuclear ULK1 promotes cell death in response to oxidative stress through PARP1

Peng, J,

Wright, C,

Iyengar, R,

Joo, J H,

Temirov, J,

Marino, R,

Shelat, A,

Li-Harms, X J,

Joshi, A,

Winborn, B J,

Phillips, A,

Kundu, M,

Kriwacki, R,

Sciarretta, S

2016

Overview

Reactive oxygen species (ROS) may cause cellular damage and oxidative stress-induced cell death. Autophagy, an evolutionarily conserved intracellular catabolic process, is executed by autophagy (ATG) proteins, including the autophagy initiation kinase Unc-51-like kinase (ULK1)/ATG1. Although autophagy has been implicated to have both cytoprotective and cytotoxic roles in the response to ROS, the role of individual ATG proteins, including ULK1, remains poorly characterized. In this study, we demonstrate that ULK1 sensitizes cells to necrotic cell death induced by hydrogen peroxide (H 2 O 2 ). Moreover, we demonstrate that ULK1 localizes to the nucleus and regulates the activity of the DNA damage repair protein poly (ADP-ribose) polymerase 1 (PARP1) in a kinase-dependent manner. By enhancing PARP1 activity, ULK1 contributes to ATP depletion and death of H 2 O 2 -treated cells. Our study provides the first evidence of an autophagy-independent prodeath role for nuclear ULK1 in response to ROS-induced damage. On the basis of our data, we propose that the subcellular distribution of ULK1 has an important role in deciding whether a cell lives or dies on exposure to adverse environmental or intracellular conditions.

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

13/109

/ 14/28

/ 14/63

/ 631/80/39/2346

/ 82/29

/ Active Transport, Cell Nucleus

/ Animals