Gemma A, Seike M, Seike Y, Uematsu K, Hibino S, Kurimoto F, Yoshimura A, Shibuya M, Harris C C, Kudoh S
Fourth Department of Internal Medicine, Nippon Medical School, Bunkyo-ku, Tokyo, Japan. Gemma_Akihiko/
Genes Chromosomes Cancer. 2000 Nov;29(3):213-8. doi: 10.1002/1098-2264(2000)9999:9999<::aid-gcc1027>3.0.co;2-g.
Mutations in mitotic checkpoint genes have been detected in several human cancers, and these cancers exhibit chromosomal instability. Aneuploid stem cells seem to result from chromosomal instability and have been reported in many lung cancers. To determine whether alteration of mitotic checkpoint regulators is involved in carcinogenesis and tumor progression in primary lung cancer, we screened the genomic DNA sequence of 30 human lung cancer cell lines and 30 primary lung cancer tumors for a mutation in the hBUB1 mitotic checkpoint gene. First, we designed 26 sets of intron-based primers to amplify each of the 25 exons of the hBUB1 gene to examine the entire coding region of the hBUB1 gene. Using these primers, we performed polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis as well as direct sequencing in the mutation analysis of the hBUB1 gene. Three different nucleotide substitutions were detected in the coding region of the hBUB1 gene in some of the cancer cell lines and primary tumors as follows. The hBUB1 gene of one adenocarcinoma tumor contained a somatic missense mutation, a cytosine-to-guanine substitution in codon 51 of exon 5 that resulted in a histidine-to-aspartic acid amino acid substitution. The hBUB1 gene of three lung cancer cell lines contained a thymine-to-cytosine substitution in codon 430 of exon 12, which did not result in an amino-acid substitution. We were unable to determine whether the nucleotide substitution in exon 12 was a polymorphism or a silent mutation because matched normal tissue was not available. A polymorphism in codon 93 of exon 4, a guanine-to-thymine substitution, in hBUB1 was found in one lung cancer cell line and one primary lung tumor. This is the first report of a somatic missense mutation of a gene involved in a mitotic checkpoint in primary lung cancer. The presence of a point mutation in the hBUB1 gene is consistent with the hypothesis that alteration of mitotic checkpoint genes is involved in the development of primary lung cancers. Because the frequency of hBUB1 gene mutations was low, future studies should focus on other mechanisms of inactivation of the hBUB1 gene as well as mutation analysis of other mitotic checkpoint genes in lung cancers.
在多种人类癌症中已检测到有丝分裂检查点基因的突变,并且这些癌症表现出染色体不稳定性。非整倍体干细胞似乎源于染色体不稳定性,在许多肺癌中都有报道。为了确定有丝分裂检查点调节因子的改变是否参与原发性肺癌的致癌作用和肿瘤进展,我们筛查了30个人类肺癌细胞系和30个原发性肺癌肿瘤的基因组DNA序列,以检测hBUB1有丝分裂检查点基因的突变。首先,我们设计了26组基于内含子的引物,以扩增hBUB1基因的25个外显子中的每一个,从而检测hBUB1基因的整个编码区。使用这些引物,我们在hBUB1基因的突变分析中进行了聚合酶链反应-单链构象多态性(PCR-SSCP)分析以及直接测序。在一些癌细胞系和原发性肿瘤的hBUB1基因编码区检测到三种不同的核苷酸替换,具体如下。一个腺癌肿瘤的hBUB1基因包含一个体细胞错义突变,即外显子5第51密码子处的胞嘧啶到鸟嘌呤替换,导致组氨酸到天冬氨酸的氨基酸替换。三个肺癌细胞系的hBUB1基因在第12外显子第430密码子处有胸腺嘧啶到胞嘧啶的替换,这并未导致氨基酸替换。由于没有匹配的正常组织,我们无法确定第12外显子中的核苷酸替换是多态性还是沉默突变。在一个肺癌细胞系和一个原发性肺癌肿瘤中发现hBUB1基因第4外显子第93密码子处有一个多态性,即鸟嘌呤到胸腺嘧啶的替换。这是原发性肺癌中有丝分裂检查点相关基因体细胞错义突变的首次报道。hBUB1基因中存在点突变与有丝分裂检查点基因的改变参与原发性肺癌发生的假说一致。由于hBUB1基因突变的频率较低,未来的研究应关注hBUB1基因失活的其他机制以及肺癌中其他有丝分裂检查点基因的突变分析。
