Vries Robert G J, Bezrookove Vladimir, Zuijderduijn Lobke M P, Kia Sima Kheradmand, Houweling Ada, Oruetxebarria Igor, Raap Anton K, Verrijzer C Peter
Department of Molecular and Cell Biology, Leiden University Medical Centre, 2300 RA Leiden, The Netherlands.
Genes Dev. 2005 Mar 15;19(6):665-70. doi: 10.1101/gad.335805.
The hSNF5 subunit of human SWI/SNF ATP-dependent chromatin remodeling complexes is a tumor suppressor that is inactivated in malignant rhabdoid tumors (MRTs). Here, we report that loss of hSNF5 function in MRT-derived cells leads to polyploidization and chromosomal instability. Re-expression of hSNF5 restored the coupling between cell cycle progression and ploidy checkpoints. In contrast, cancer-associated hSNF5 mutants harboring specific single amino acid substitutions exacerbated poly- and aneuploidization, due to abrogated chromosome segregation. We found that hSNF5 activates the mitotic checkpoint through the p16INK4a-cyclinD/CDK4-pRb-E2F pathway. These results establish that poly- and aneuploidy of tumor cells can result from mutations in a chromatin remodeler.
人类SWI/SNF ATP依赖的染色质重塑复合体的hSNF5亚基是一种肿瘤抑制因子,在恶性横纹肌样瘤(MRT)中失活。在此,我们报告MRT来源的细胞中hSNF5功能丧失会导致多倍体化和染色体不稳定。hSNF5的重新表达恢复了细胞周期进程与倍性检查点之间的耦合。相反,携带特定单氨基酸取代的癌症相关hSNF5突变体由于染色体分离被破坏而加剧了多倍体和非整倍体化。我们发现hSNF5通过p16INK4a - cyclinD/CDK4 - pRb - E2F途径激活有丝分裂检查点。这些结果表明肿瘤细胞的多倍体和非整倍体可能源于染色质重塑因子的突变。