Bell Helen S, Dufes Christine, O'Prey Jim, Crighton Diane, Bergamaschi Daniele, Lu Xin, Schätzlein Andreas G, Vousden Karen H, Ryan Kevin M
Tumour Cell Death Laboratory, Beatson Institute for Cancer Research, Glasgow, United Kingdom.
J Clin Invest. 2007 Apr;117(4):1008-18. doi: 10.1172/JCI28920. Epub 2007 Mar 8.
The tumor suppressor p53 is a potent inducer of tumor cell death, and strategies exist to exploit p53 for therapeutic gain. However, because about half of human cancers contain mutant p53, application of these strategies is restricted. p53 family members, in particular p73, are in many ways functional paralogs of p53, but are rarely mutated in cancer. Methods for specific activation of p73, however, remain to be elucidated. We describe here a minimal p53-derived apoptotic peptide that induced death in multiple cell types regardless of p53 status. While unable to activate gene expression directly, this peptide retained the capacity to bind iASPP - a common negative regulator of p53 family members. Concordantly, in p53-null cells, this peptide derepressed p73, causing p73-mediated gene activation and death. Moreover, systemic nanoparticle delivery of a transgene expressing this peptide caused tumor regression in vivo via p73. This study therefore heralds what we believe to be the first strategy to directly and selectively activate p73 therapeutically and may lead to the development of broadly applicable agents for the treatment of malignant disease.
肿瘤抑制因子p53是肿瘤细胞死亡的强效诱导剂,并且存在利用p53实现治疗获益的策略。然而,由于大约一半的人类癌症含有突变型p53,这些策略的应用受到限制。p53家族成员,特别是p73,在许多方面是p53的功能类似物,但在癌症中很少发生突变。然而,特异性激活p73的方法仍有待阐明。我们在此描述了一种源自p53的最小凋亡肽,它能在多种细胞类型中诱导细胞死亡,而与p53状态无关。虽然该肽不能直接激活基因表达,但它保留了与iASPP(p53家族成员常见的负调节因子)结合的能力。相应地,在p53缺失的细胞中,该肽解除了对p73的抑制,导致p73介导的基因激活和细胞死亡。此外,通过纳米颗粒系统递送表达该肽的转基因在体内通过p73导致肿瘤消退。因此,这项研究预示着我们认为的第一种直接且选择性地在治疗上激活p73的策略,并且可能会促成用于治疗恶性疾病的广泛适用药物的开发。