Carstens Marissa J, Krempler Andrea, Triplett Aleata A, Van Lohuizen Maarten, Wagner Kay-Uwe
Eppley Institute for Research in Cancer and Allied Diseases, University of Nebraska Medical Center, Nebraska Medical Center, Omaha, Nebraska 68198-6805, USA.
J Biol Chem. 2004 Aug 20;279(34):35984-94. doi: 10.1074/jbc.M400408200. Epub 2004 Jun 21.
Our previous studies have shown that cells conditionally deficient in Tsg101 arrested at the G(1)/S cell cycle checkpoint and died. We created a series of Tsg101 conditional knock-out cell lines that lack p53, p21(Cip1), or p19(Arf) to determine the involvement of the Mdm2-p53 circuit as a regulator for G(1)/S progression and cell death. In this new report we show that the cell cycle arrest in Tsg101-deficient cells is p53-dependent, but a null mutation of the p53 gene is unable to maintain cell survival. The deletion of the Cdkn1a gene in Tsg101 conditional knock-out cells resulted in G(1)/S progression, suggesting that the p53-dependent G(1) arrest in the Tsg101 knock-out is mediated by p21(Cip1). The Cre-mediated excision of Tsg101 in immortalized fibroblasts that lack p19(Arf) seemed not to alter the ability of Mdm2 to sequester p53, and the p21-mediated G(1) arrest was not restored. Based on these findings, we propose that the p21-dependent cell cycle arrest in Tsg101-deficient cells is an indirect consequence of cellular stress and not caused by a direct effect of Tsg101 on Mdm2 function as previously suggested. Finally, the deletion of Tsg101 from primary tumor cells that express mutant p53 and that lack p21(Cip1) expression results in cell death, suggesting that additional transforming mutations during tumorigenesis do not affect the important role of Tsg101 for cell survival.
我们之前的研究表明,条件性缺乏Tsg101的细胞在G(1)/S细胞周期检查点停滞并死亡。我们创建了一系列缺乏p53、p21(Cip1)或p19(Arf)的Tsg101条件性敲除细胞系,以确定Mdm2-p53通路作为G(1)/S进程和细胞死亡调节因子的作用。在本新报告中,我们表明Tsg101缺陷细胞中的细胞周期停滞是p53依赖性的,但p53基因的无效突变无法维持细胞存活。Tsg101条件性敲除细胞中Cdkn1a基因的缺失导致G(1)/S进程,这表明Tsg101敲除中p53依赖性的G(1)停滞是由p21(Cip1)介导的。在缺乏p19(Arf)的永生化成纤维细胞中,Cre介导的Tsg101切除似乎并未改变Mdm2隔离p53的能力,且p21介导的G(1)停滞未恢复。基于这些发现,我们提出,Tsg101缺陷细胞中p21依赖性的细胞周期停滞是细胞应激的间接后果,而非如先前所述由Tsg101对Mdm2功能的直接作用所致。最后,从表达突变p53且缺乏p21(Cip1)表达的原发性肿瘤细胞中删除Tsg101会导致细胞死亡,这表明肿瘤发生过程中的其他转化突变并不影响Tsg101对细胞存活的重要作用。