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Literature DB >> 22334383

Autophagy in toxicology: self-consumption in times of stress and plenty.

Abstract

Autophagy is a critical cellular process orchestrating the lysosomal degradation of cellular components in order to maintain cellular homeostasis and respond to cellular stress. A growing research effort over the last decade has proven autophagy to be essential for constitutive protein and organelle turnover, for embryonic/neonatal survival and for cell survival during conditions of environmental stress. Emphasizing its biological importance, dysfunctional autophagy contributes to a diverse set of human diseases. Cellular stress induced by xenobiotic exposure typifies environmental stress, and can result in the induction of autophagy as a cytoprotective mechanism. An increasing number of xenobiotics are notable for their ability to modulate the induction or the rate of autophagy. The role of autophagy in normal cellular homeostasis, the intricate relationship between cellular stress and the induction of autophagy, and the identification of specific xenobiotics capable of modulating autophagy, point to the importance of the autophagic process in toxicology. This review will summarize the importance of autophagy and its role in cellular response to stress, including examples in which consideration of autophagy has contributed to a more complete understanding of toxicant-perturbed systems.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Xenobiotics

Year: 2012 PMID： 22334383 PMCID： PMC3572937 DOI： 10.1002/jat.1787

Source DB: PubMed Journal: J Appl Toxicol ISSN： 0260-437X Impact factor: 3.446

181 in total

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Journal: Cancer Res Date: 2001-01-15 Impact factor: 12.701

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Journal: Mol Cell Biol Date: 2010-04-26 Impact factor: 4.272

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Review 4. Intracellular protein catabolism and its control during nutrient deprivation and supply.

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Review 5. Regulation mechanisms and signaling pathways of autophagy.

Authors: Congcong He; Daniel J Klionsky
Journal: Annu Rev Genet Date: 2009 Impact factor: 16.830

6. Efficient cross-presentation depends on autophagy in tumor cells.

Authors: Yuhuan Li; Li-Xin Wang; Guojun Yang; Fang Hao; Walter J Urba; Hong-Ming Hu
Journal: Cancer Res Date: 2008-09-01 Impact factor: 12.701

Review 7. Guidelines for the use and interpretation of assays for monitoring autophagy in higher eukaryotes.

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Journal: Autophagy Date: 2007-11-21 Impact factor: 16.016

8. Arsenic trioxide induces a beclin-1-independent autophagic pathway via modulation of SnoN/SkiL expression in ovarian carcinoma cells.

Authors: D M Smith; S Patel; F Raffoul; E Haller; G B Mills; M Nanjundan
Journal: Cell Death Differ Date: 2010-05-28 Impact factor: 15.828

9. Impairment of starvation-induced and constitutive autophagy in Atg7-deficient mice.

Authors: Masaaki Komatsu; Satoshi Waguri; Takashi Ueno; Junichi Iwata; Shigeo Murata; Isei Tanida; Junji Ezaki; Noboru Mizushima; Yoshinori Ohsumi; Yasuo Uchiyama; Eiki Kominami; Keiji Tanaka; Tomoki Chiba
Journal: J Cell Biol Date: 2005-05-02 Impact factor: 10.539

10. Lithium induces autophagy by inhibiting inositol monophosphatase.

Authors: Sovan Sarkar; R Andres Floto; Zdenek Berger; Sara Imarisio; Axelle Cordenier; Matthieu Pasco; Lynnette J Cook; David C Rubinsztein
Journal: J Cell Biol Date: 2005-09-26 Impact factor: 10.539

5 in total

1. Toxicant-mediated redox control of proteostasis in neurodegeneration.

Authors: Stefanos Aivazidis; Colin C Anderson; James R Roede
Journal: Curr Opin Toxicol Date: 2018-12-28

2. Activation of autophagy triggers mitochondrial loss and changes acetylation profile relevant for mechanotransduction in bladder cancer cells.

Authors: Maximilian Jobst; Endre Kiss; Christopher Gerner; Doris Marko; Giorgia Del Favero
Journal: Arch Toxicol Date: 2022-10-10 Impact factor: 6.168