The Role of Phosphorylation in IR-induced p53 Stabilization and Activation
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概要
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It is well established that tumor suppressor p53 protein is stabilized and activated as a sequence-specific transcriptional factor in response to genotoxic stresses, including ionizing radiation (IR). Previous studies demonstrated that p53 is phosphorylated at N-terminal serines and a threonine after IR. Here, we examined the role of the phosphorylation, especially at Ser15, Thr18, and Ser20, in IR-induced p53 stabilization and activation, using alanine-substituted p53 at phosphorylation site (s). In the present study, we examined p53 stabilization and activation in two different cell lines : stabilization in HT1080-derived clone in which endogenous wild-type p53 was confirmed to be normally stabilized after IR; activation in p53-null H1299-derived clone in which ectopically-expressed p53 levels did not change before and after IR, because the increase in p53 levels affects transactivation by p53. In Western blot analysis and immunofluorescence staining, alanine-substituted p53 at Ser15, Thr18, and/or Ser20 was stabilized in the nucleus comparably with wild-type p53 2 h after 4 Gy of X-rays. However, Ser15-alanine-substituted p53 did not induce the expression of p21 protein, one of the p53-targeted gene products, after IR. These results indicate that phosphorylation at Ser15, Thr18, and Ser20 is not required for IR-induced p53 stabilization, however, Ser15-phosphorylation plays a role in IR-induced p21 induction by p53.
- 長崎大学の論文
著者
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Kodama Seiji
Radiation Biology Laboratory Radiation Research Center Frontier Science Innovation Center Organizati
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Kodama Seiji
Division Of Radiation Biology And Health Science Research Center For Radiation And Radioisotopes Res
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SUZUKI Keiji
Radiation life science pharm. Nagasaki-univ.
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WATANABE Masami
Division of Radiation Biology, Department of Radiology and Radiation Biology, Course of Life Science
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Yamauchi Motohiro
Division Of Radiation Biology Department Of Radiology And Radiation Biology Course Of Life Sciences
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Watanabe Masami
Division Of Radiation Life Sciences Research Reactor Institute Kyoto University
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Watanabe Masami
Division Of Radiation Biology School Of Medicine Yokohama City University
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