Tritarelli A, Oricchio E, Ciciarello M, Mangiacasale R, Palena A, Lavia P, Soddu S, Cundari E
Istituto di Biologia e Patologia Molecolari Consiglio Nazionale delle Ricerche, 00185 Rome, Italy.
Mol Biol Cell. 2004 Aug;15(8):3751-7. doi: 10.1091/mbc.e03-12-0900. Epub 2004 Jun 4.
We recently demonstrated that the p53 oncosuppressor associates to centrosomes in mitosis and this association is disrupted by treatments with microtubule-depolymerizing agents. Here, we show that ATM, an upstream activator of p53 after DNA damage, is essential for p53 centrosomal localization and is required for the activation of the postmitotic checkpoint after spindle disruption. In mitosis, p53 failed to associate with centrosomes in two ATM-deficient, ataxiatelangiectasia-derived cell lines. Wild-type ATM gene transfer reestablished the centrosomal localization of p53 in these cells. Furthermore, wild-type p53 protein, but not the p53-S15A mutant, not phosphorylatable by ATM, localized at centrosomes when expressed in p53-null K562 cells. Finally, Ser15 phosphorylation of endogenous p53 was detected at centrosomes upon treatment with phosphatase inhibitors, suggesting that a p53 dephosphorylation step at centrosome contributes to sustain the cell cycle program in cells with normal mitotic spindles. When dissociated from centrosomes by treatments with spindle inhibitors, p53 remained phosphorylated at Ser15. AT cells, which are unable to phosphorylate p53, did not undergo postmitotic proliferation arrest after nocodazole block and release. These data demonstrate that ATM is required for p53 localization at centrosome and support the existence of a surveillance mechanism for inhibiting DNA reduplication downstream of the spindle assembly checkpoint
我们最近证明,p53肿瘤抑制因子在有丝分裂过程中与中心体相关联,并且这种关联会被微管解聚剂处理所破坏。在此,我们表明,ATM作为DNA损伤后p53的上游激活因子,对于p53在中心体的定位至关重要,并且是纺锤体破坏后有丝分裂后检查点激活所必需的。在有丝分裂过程中,p53在两种源自共济失调毛细血管扩张症的ATM缺陷细胞系中未能与中心体相关联。野生型ATM基因转移重新建立了这些细胞中p53的中心体定位。此外,野生型p53蛋白,而非不能被ATM磷酸化的p53 - S15A突变体,在p53缺失的K562细胞中表达时定位于中心体。最后,在用磷酸酶抑制剂处理后,在中心体检测到内源性p53的Ser15磷酸化,这表明中心体处的p53去磷酸化步骤有助于维持具有正常有丝分裂纺锤体的细胞中的细胞周期进程。当通过纺锤体抑制剂处理使其与中心体解离时,p53在Ser15处仍保持磷酸化。无法磷酸化p53的AT细胞在诺考达唑阻断和释放后未经历有丝分裂后增殖停滞。这些数据表明ATM是p53定位于中心体所必需的,并支持存在一种在纺锤体组装检查点下游抑制DNA复制的监测机制。