ATM engages the TSC2/mTORC1 signaling node to regulate autophagy

Angela Alexander; Jinhee Kim; Cheryl L. Walker

doi:10.4161/auto.6.5.12509

ATM engages the TSC2/mTORC1 signaling node to regulate autophagy

Angela Alexander, Jinhee Kim, Cheryl L. Walker

Experimental Radiation Oncology

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

91 Scopus citations

Abstract

The link between reactive oxygen species (ROS) and induction of autophagy has been well documented, but the molecular mechanisms regulating this phenomenon are only beginning to be elucidated. Autophagy is now being appreciated as an integral part of the cellular response to many diverse types of cellular stresses including nutrient deprivation, hypoxia, oxidative stress, and DNA damage, and likely the mechanism(s) for each type of stress vary considerably. The cellular outcome of inducing autophagy in response to stress is also quite complex, and depends on many factors including cellular context, type and magnitude of stress.

Original language	English (US)
Pages (from-to)	672-673
Number of pages	2
Journal	Autophagy
Volume	6
Issue number	5
DOIs	https://doi.org/10.4161/auto.6.5.12509
State	Published - Jul 1 2010

Keywords

ATM
Cytoplasm
DNA damages
MTOR
ROS

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.4161/auto.6.5.12509

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title = "ATM engages the TSC2/mTORC1 signaling node to regulate autophagy",

abstract = "The link between reactive oxygen species (ROS) and induction of autophagy has been well documented, but the molecular mechanisms regulating this phenomenon are only beginning to be elucidated. Autophagy is now being appreciated as an integral part of the cellular response to many diverse types of cellular stresses including nutrient deprivation, hypoxia, oxidative stress, and DNA damage, and likely the mechanism(s) for each type of stress vary considerably. The cellular outcome of inducing autophagy in response to stress is also quite complex, and depends on many factors including cellular context, type and magnitude of stress.",

keywords = "ATM, Cytoplasm, DNA damages, MTOR, ROS",

author = "Angela Alexander and Jinhee Kim and Walker, {Cheryl L.}",

note = "Funding Information: This work is supported in part by grants from NIH to C.L.W. (R01 CA63613), MDACC (ES007784 and CA 16672), and the Sowell-Huggins Fellowship to A.A.",

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T1 - ATM engages the TSC2/mTORC1 signaling node to regulate autophagy

AU - Alexander, Angela

AU - Kim, Jinhee

AU - Walker, Cheryl L.

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PY - 2010/7/1

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N2 - The link between reactive oxygen species (ROS) and induction of autophagy has been well documented, but the molecular mechanisms regulating this phenomenon are only beginning to be elucidated. Autophagy is now being appreciated as an integral part of the cellular response to many diverse types of cellular stresses including nutrient deprivation, hypoxia, oxidative stress, and DNA damage, and likely the mechanism(s) for each type of stress vary considerably. The cellular outcome of inducing autophagy in response to stress is also quite complex, and depends on many factors including cellular context, type and magnitude of stress.

AB - The link between reactive oxygen species (ROS) and induction of autophagy has been well documented, but the molecular mechanisms regulating this phenomenon are only beginning to be elucidated. Autophagy is now being appreciated as an integral part of the cellular response to many diverse types of cellular stresses including nutrient deprivation, hypoxia, oxidative stress, and DNA damage, and likely the mechanism(s) for each type of stress vary considerably. The cellular outcome of inducing autophagy in response to stress is also quite complex, and depends on many factors including cellular context, type and magnitude of stress.

KW - ATM

KW - Cytoplasm

KW - DNA damages

KW - MTOR

KW - ROS

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ATM engages the TSC2/mTORC1 signaling node to regulate autophagy

Abstract

Keywords

ASJC Scopus subject areas

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