Koopmann J, Maintz D, Schild S, Schramm J, Louis D N, Wiestler O D, von Deimling A
Institut für Neuropathologie, Universitätskliniken Bonn, Germany.
Br J Cancer. 1995 Nov;72(5):1230-3. doi: 10.1038/bjc.1995.491.
The cyclin kinase inhibitor WAF1/CIP1, also termed CDKN1, mediates p53-induced cell cycle arrest in response to DNA damage. This property makes it an attractive tumour-suppressor candidate for a p53-associated tumour-suppressor gene. In order to investigate the role of WAF1/CIP1 in the pathogenesis of primary human brain tumours we performed single-stranded conformation polymorphism (SSCP) analysis and direct sequencing of exon 2 of the gene in a representative series of 158 brain tumours and corresponding blood samples. In addition, all tumours were examined for mutations in exons 5-8 of the p53 gene. Analysis of WAF1/CIP1 revealed multiple polymorphisms, the most abundant being AGC-->AGA (Ser-->Arg) at codon 31 with an allele frequency of 8.5%. Less common polymorphisms included GTG-->GGG (Val-->Gly) at codon 25, GCC-->ACC (Ala-->Thr) at codon 64, CGC-->CTC (Arg-->Leu) at codon 32, GGC-->AGC (Gly-->Ser) at codon 14 and GCG-->GTG (Ala-->Val) at codon 39 each with an allele frequency of 0.3%. These polymorphisms were all located in a conserved region of exon 2. Two of the polymorphisms were also seen in a group of 157 healthy controls indicating that WAF1/CIP1 polymorphisms do not predispose to cancer. None of the tumours included in our series showed a somatic mutation in WAF1/CIP1. All samples were also analysed for loss of heterozygosity on the short arm of chromosome 6 in the region of the WAF1/CIP1 locus. Allelic loss was observed in only one patient with a glioblastoma. Mutations in the p53 gene were found in 22 of 158 tumours. No association was found between any polymorphism of the WAF1/CIP1 gene, p53 mutations and histopathological tumour type. Our data indicate that WAF1/CIP1 mutations are probably not involved in the formation of primary human brain tumours.
细胞周期蛋白激酶抑制剂WAF1/CIP1,也称为CDKN1,介导p53诱导的细胞周期阻滞以响应DNA损伤。这一特性使其成为与p53相关的肿瘤抑制基因的一个有吸引力的肿瘤抑制候选基因。为了研究WAF1/CIP1在原发性人脑肿瘤发病机制中的作用,我们对158例脑肿瘤及相应血液样本的代表性系列进行了单链构象多态性(SSCP)分析和该基因第2外显子的直接测序。此外,对所有肿瘤进行了p53基因第5至8外显子的突变检测。对WAF1/CIP1的分析揭示了多个多态性,其中最常见的是密码子31处的AGC→AGA(丝氨酸→精氨酸),等位基因频率为8.5%。较不常见的多态性包括密码子25处的GTG→GGG(缬氨酸→甘氨酸)、密码子6处的GCC→ACC(丙氨酸→苏氨酸)、密码子32处的CGC→CTC(精氨酸→亮氨酸)、密码子14处的GGC→AGC(甘氨酸→丝氨酸)和密码子39处的GCG→GTG(丙氨酸→缬氨酸),每个等位基因频率均为0.3%。这些多态性均位于第2外显子的保守区域。其中两个多态性在一组157名健康对照中也可见,表明WAF1/CIP1多态性不会使人易患癌症。我们系列中的肿瘤均未显示WAF1/CIP1的体细胞突变。还对所有样本进行了WAF1/CIP1基因座区域6号染色体短臂杂合性缺失的检测。仅在1例胶质母细胞瘤患者中观察到等位基因缺失。在158例肿瘤中有22例发现p53基因突变。未发现WAF1/CIP1基因的任何多态性、p53突变与组织病理学肿瘤类型之间存在关联。我们的数据表明,WAF1/CIP1突变可能不参与原发性人脑肿瘤的形成。
