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Squalene Inhibits ATM-Dependent Signaling in [gamma]IR-Induced DNA Damage Response through Induction of Wip1 Phosphatase

Ataxia telangiectasia mutated (ATM) kinase plays a crucial role as a master controller in the cellular DNA damage response. Inhibition of ATM leads to inhibition of the checkpoint signaling pathway. Hence, addition of checkpoint inhibitors to anticancer therapies may be an effective targeting strate...

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Published in:	PloS one 2016-01, Vol.11 (1)
Main Authors:	Tatewaki, Naoto, Konishi, Tetsuya, Nakajima, Yuki, Nishida, Miyako, Saito, Masafumi, Eitsuka, Takahiro, Sakamaki, Toshiyuki, Ikekawa, Nobuo, Nishida, Hiroshi
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Language:	English
Subjects:	Cellular signal transduction DNA damage Genetic aspects Phosphatases Physiological aspects Risk factors
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creator	Tatewaki, Naoto Konishi, Tetsuya Nakajima, Yuki Nishida, Miyako Saito, Masafumi Eitsuka, Takahiro Sakamaki, Toshiyuki Ikekawa, Nobuo Nishida, Hiroshi
description	Ataxia telangiectasia mutated (ATM) kinase plays a crucial role as a master controller in the cellular DNA damage response. Inhibition of ATM leads to inhibition of the checkpoint signaling pathway. Hence, addition of checkpoint inhibitors to anticancer therapies may be an effective targeting strategy. A recent study reported that Wip1, a protein phosphatase, de-phosphorylates serine 1981 of ATM during the DNA damage response. Squalene has been proposed to complement anticancer therapies such as chemotherapy and radiotherapy; however, there is little mechanistic information supporting this idea. Here, we report the inhibitory effect of squalene on ATM-dependent DNA damage signals. Squalene itself did not affect cell viability and the cell cycle of A549 cells, but it enhanced the cytotoxicity of gamma-irradiation ([gamma]IR). The in vitro kinase activity of ATM was not altered by squalene. However, squalene increased Wip1 expression in cells and suppressed ATM activation in [gamma]IR-treated cells. Consistent with the potential inhibition of ATM by squalene, IR-induced phosphorylation of ATM effectors such as p53 (Ser15) and Chk1 (Ser317) was inhibited by cell treatment with squalene. Thus, squalene inhibits the ATM-dependent signaling pathway following DNA damage through intracellular induction of Wip1 expression.
doi_str_mv	10.1371/journal.pone.0147570
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source	Publicly Available Content Database; PubMed Central
subjects	Cellular signal transduction DNA damage Genetic aspects Phosphatases Physiological aspects Risk factors
title	Squalene Inhibits ATM-Dependent Signaling in [gamma]IR-Induced DNA Damage Response through Induction of Wip1 Phosphatase
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