Saranath D, Chang S E, Bhoite L T, Panchal R G, Kerr I B, Mehta A R, Johnson N W, Deo M G
Cell and Developmental Pathology Division, Cancer Research Institute, Bombay, India.
Br J Cancer. 1991 Apr;63(4):573-8. doi: 10.1038/bjc.1991.133.
57 primary tumour samples from Indian oral cancer patients with a 5-15 year tobacco chewing habit, were examined for mutational activation in codons 12, 13 and 61 of the H-ras, K-ras and N-ras oncogenes. The highly sensitive assay based on specific oligonucleotide hybridisation following in vitro amplification of unique sequences by polymerase chain reaction was employed. Mutations were detected in twenty (35%) of the samples and were restricted to H-ras, codons 12, 13 and 61. Two cases had concurrent mutations in codons 12 and 61. The majority of the mutations were at H-ras 61.2 (Glutamine to Arginine) and H-ras 12.2 (Glycine to Valine). Three of the less frequent mutations are apparently novel. Interestingly, eight of the samples with H-ras mutations also showed loss of wild-type H-ras, as judged by absence of signals for wild-type codons 12 or 61 on dot blots. The specific H-ras mutations in these oral malignancies associated with tobacco chewing, may represent an important example of an environmental carcinogen-induced step, in a pathway leading to malignant transformation.
对57例有5至15年咀嚼烟草习惯的印度口腔癌患者的原发性肿瘤样本,检测H-ras、K-ras和N-ras癌基因第12、13和61密码子的突变激活情况。采用了基于聚合酶链反应体外扩增独特序列后进行特异性寡核苷酸杂交的高灵敏度检测方法。在20个(35%)样本中检测到突变,且仅限于H-ras基因的第12、13和61密码子。有两例样本在第12和61密码子同时发生突变。大多数突变发生在H-ras基因的61.2位点(谷氨酰胺突变为精氨酸)和12.2位点(甘氨酸突变为缬氨酸)。其中三个较少见的突变显然是新发现的。有趣的是,通过斑点印迹法检测野生型第12或61密码子无信号判断,8个有H-ras突变的样本也显示野生型H-ras缺失。这些与咀嚼烟草相关的口腔恶性肿瘤中的特异性H-ras突变,可能代表了环境致癌物诱导的一个重要步骤,是导致恶性转化途径中的一步。
