Lukas J, Sørensen C S, Lukas C, Santoni-Rugiu E, Bartek J
Institute of Cancer Biology, Danish Cancer Society, Copenhagen.
Oncogene. 1999 Jul 8;18(27):3930-5. doi: 10.1038/sj.onc.1202777.
p16ink4 and pRb, two components of a key G1/S regulatory pathway, and tumor suppressors commonly targeted in oncogenesis, are among the candidates for gene therapy of cancer. Wild-type p16 and a constitutively active pRb(delta cdk) mutant both blocked G1 in short-term experiments, but only p16 imposed a sustained G1 arrest. Unexpectedly, cells conditionally exposed to pRb(delta cdk) entered S phase after 2 days, followed by endoreduplication between days 4-6. The distinct phenotypes evoked by p16 vs pRb(delta cdk) appear mediated by cyclin E/CDK2 which, while active in the pRb(delta cdk)-expressing cells, became rapidly inhibited through restructuring diverse cyclin/CDK/p21 complexes by p16. These results provide novel insights into the roles of p16, pRb and cyclin E in G1/S control and multistep oncogenesis, with implications for gene therapy strategies.
p16ink4和pRb是关键的G1/S调节通路的两个组成部分,也是肿瘤发生过程中常见的肿瘤抑制因子靶点,它们是癌症基因治疗的候选对象。在短期实验中,野生型p16和组成型活性pRb(δcdk)突变体均阻断了G1期,但只有p16能使G1期持续停滞。出乎意料的是,条件性暴露于pRb(δcdk)的细胞在2天后进入S期,随后在第4至6天进行核内复制。p16与pRb(δcdk)所引发的不同表型似乎是由细胞周期蛋白E/CDK2介导的,细胞周期蛋白E/CDK2在表达pRb(δcdk)的细胞中具有活性,但通过p16重组多种细胞周期蛋白/CDK/p21复合物而迅速受到抑制。这些结果为p16、pRb和细胞周期蛋白E在G1/S控制和多步骤肿瘤发生中的作用提供了新的见解,对基因治疗策略具有启示意义。
