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辐射诱导的Chk1在S345位点的磷酸化与p53依赖的细胞周期停滞途径相关。

Radiation-induced phosphorylation of Chk1 at S345 is associated with p53-dependent cell cycle arrest pathways.

作者信息

Tian Hui, Faje Alexander T, Lee Siu Lan, Jorgensen Timothy J

机构信息

Department of Radiation Medicine, Lombardi Cancer Center, Georgetown University Medical Center, 3970 Reservoir Road, N.W., Washington, DC 20007-2197, USA.

出版信息

Neoplasia. 2002 Mar-Apr;4(2):171-80. doi: 10.1038/sj.neo.7900219.

DOI:10.1038/sj.neo.7900219

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1550321/

Abstract

Because DNA damage-inducible cell cycle checkpoints are thought to protect cells from the lethal effects of ionizing radiation, a better understanding of the mechanistic functions of cell cycle regulatory proteins may reveal new molecular targets for cancer therapy. The two major regulatory proteins of G2 arrest are Chk1 and p53. Yet, it is unclear how these two proteins interact and coordinate their functional roles during radiation-induced G2 arrest. To determine Chk1's role in p53-dependent G2 arrest, we used p53 proficient cells and examined expression of G2 arrest proteins under conditions in which G2 arrest was inhibited by the staurosporine analog, UCN-01. We found that UCN-01 inhibited both G1 and G2 arrest in irradiated p53 proficient cells. The arrest inhibition was associated with suppression of radiation-induced expression of both p21 and 14-3-3 sigma -- two known p53-dependent G2 arrest proteins. The suppression occurred despite normal induction of p53 and normal phosphorylation of p53 at S20 and Cdc25C at S216 -- the two known substrates of Chk1 kinase activity. In contrast, we showed that radiation-induced phosphorylation of Chk1 at S345 was associated with binding of Chk1 to p53, p21, and 14-3-3 sigma, and that UCN-01 inhibited S345 phosphorylation. We suggest that DNA damage-induced phosphorylation of Chk1 at S345, and subsequent p53 binding, links Chk1 with p53 downstream responses and may provide a coordinated interaction between DNA damage responses and cell cycle arrest functions.

摘要

由于DNA损伤诱导的细胞周期检查点被认为可保护细胞免受电离辐射的致死效应，因此更好地理解细胞周期调节蛋白的机制功能可能会揭示癌症治疗的新分子靶点。G2期阻滞的两种主要调节蛋白是Chk1和p53。然而，尚不清楚这两种蛋白在辐射诱导的G2期阻滞过程中如何相互作用并协调其功能作用。为了确定Chk1在p53依赖的G2期阻滞中的作用，我们使用了p53功能正常的细胞，并在星形孢菌素类似物UCN-01抑制G2期阻滞的条件下，检测了G2期阻滞蛋白的表达。我们发现UCN-01抑制了受辐射的p53功能正常细胞中的G1期和G2期阻滞。阻滞抑制与辐射诱导的p21和14-3-3 sigma（两种已知的p53依赖的G2期阻滞蛋白）表达的抑制有关。尽管p53正常诱导且p53在S20位点和Cdc25C在S216位点正常磷酸化（Chk1激酶活性的两种已知底物），但仍发生了这种抑制。相反，我们表明辐射诱导的Chk1在S345位点的磷酸化与Chk1与p53、p21和14-3-3 sigma的结合有关，并且UCN-01抑制了S345位点的磷酸化。我们认为，DNA损伤诱导的Chk1在S345位点的磷酸化以及随后的p53结合，将Chk1与p53下游反应联系起来，并可能在DNA损伤反应和细胞周期阻滞功能之间提供协调的相互作用。