Bond J A, Wyllie F S, Wynford-Thomas D
Department of Pathology, University of Wales College of Medicine, Health Park, Cardiff, UK.
Oncogene. 1994 Jul;9(7):1885-9.
Cellular senescence is thought to be a key restraint on the progression of human tumours, escape from which involves loss of function of tumour suppressor genes. The number and nature of the genes involved however is uncertain, in particular the role of p53 mutation, which is commonly correlated with tumour progression. To address this question, we used the novel approach of directly assessing the effect of mutant p53 on 'pre-aged' human diploid fibroblasts (HDF), thereby avoiding the uncertainty of additional cooperating events, inherent in transgenic models. HDF were passaged till near-senescent and then infected with an amphotropic retroviral vector encoding an ala143 human mutant p53. The results show conclusively that p53 mutation alone is sufficient to extend the proliferative lifespan of normal fibroblasts by approximately 17 population doublings, but has no phenotypic effect on 'young' fibroblasts. We conclude that a key tumour-limiting function of wild-type p53 is to mediate growth arrest after a given number of cell divisions, in agreement with data implicating a p53-regulated gene, WAF-1/sdi-1, in cellular senescence. This may be reconciled with its 'guardian of the genome' role, if telomere erosion, a key change in senescence, is perceived by the cell as a form of DNA 'damage'.
细胞衰老被认为是人类肿瘤进展的关键限制因素,肿瘤逃脱这种限制涉及肿瘤抑制基因功能的丧失。然而,所涉及基因的数量和性质尚不确定,尤其是p53突变的作用,它通常与肿瘤进展相关。为了解决这个问题,我们采用了一种新方法,直接评估突变型p53对“早衰”人类二倍体成纤维细胞(HDF)的影响,从而避免了转基因模型中固有的其他协同事件的不确定性。将HDF传代至接近衰老状态,然后用编码ala143人类突变型p53的嗜双性逆转录病毒载体进行感染。结果确凿地表明,单独的p53突变足以使正常成纤维细胞的增殖寿命延长约17个群体倍增,但对“年轻”成纤维细胞没有表型影响。我们得出结论,野生型p53的一个关键肿瘤限制功能是在给定数量的细胞分裂后介导生长停滞,这与涉及p53调控基因WAF-1/sdi-1参与细胞衰老的数据一致。如果端粒侵蚀(衰老中的一个关键变化)被细胞视为一种DNA“损伤”形式,那么这可能与其“基因组守护者”的作用相协调。
