Takeiri Akira, Mishima Masayuki, Tanaka Kenji, Shioda Akifumi, Harada Asako, Watanabe Kazuto, Masumura Ken-Ichi, Nohmi Takehiko
Fuji Gotemba Research Laboratories, Chugai Pharmaceutical Co. Ltd., 1-135 Komakado, Gotemba, Shizuoka 412-8513, Japan.
Mutat Res. 2006 Oct 10;609(1):102-15. doi: 10.1016/j.mrgentox.2006.06.026. Epub 2006 Aug 17.
In order to create a novel in vitro test system for detection of large deletions and point mutations, we developed an immortalized cell line. A SV40 large T antigen expression unit was introduced into fibroblasts derived from gpt delta mouse lung tissue and a selected clone was established as the gpt delta L1 (GDL1) cell line. The novel GDL1 cells were examined for mutant frequencies (MFs) and for molecular characterization of mutations induced by mitomycin C (MMC). The GDL1 cells were treated with MMC at doses of 0.025, 0.05, and 0.1 microg/mL for 24h and mutations were detected by Spi- and 6-thioguanine (6-TG) selections. The MFs of the MMC-treated cells increased up to 3.4-fold with Spi- selection and 3.5-fold with 6-TG selection compared to MFs of untreated cells. In the Spi- mutants, the number of large (up to 76 kilo base pair (kbp)) deletion mutations increased. A majority of the large deletion mutations had 1-4 base pairs (bp) of microhomology in the deletion junctions. A number of the rearranged deletion mutations were accompanied with deletions and insertions of up to 1.1 kbp. In the gpt mutants obtained from 6-TG selection, single base substitutions of G:C to T:A, tandem base substitutions occurring at the 5'-GG-3' or 5'-CG-3' sequence, and deletion mutations larger than 2 bp were increased. We compared the spectrum of MMC-induced mutations observed in vitro to that of in vivo using gpt delta mice, which we reported previously. Although a slight difference was observed in MMC-induced mutation spectra between in vitro and in vivo, the mutations detected in vitro included all of the types of mutations observed in vivo. The present study demonstrates that the newly established GDL1 cell line is a useful tool to detect and analyze various mutations including large deletions in mammalian cells.
为了创建一种用于检测大片段缺失和点突变的新型体外测试系统,我们开发了一种永生化细胞系。将SV40大T抗原表达单元导入源自gptδ小鼠肺组织的成纤维细胞,并建立了一个选定的克隆作为gptδL1(GDL1)细胞系。对新型GDL1细胞进行了突变频率(MFs)检测以及丝裂霉素C(MMC)诱导突变的分子特征分析。用0.025、0.05和0.1μg/mL剂量的MMC处理GDL1细胞24小时,并通过Spi-和6-硫鸟嘌呤(6-TG)筛选检测突变。与未处理细胞的MFs相比,经MMC处理的细胞的MFs在Spi-筛选中增加了3.4倍,在6-TG筛选中增加了3.5倍。在Spi-突变体中,大片段(高达76千碱基对(kbp))缺失突变的数量增加。大多数大片段缺失突变在缺失连接处具有1-4个碱基对(bp)的微同源性。许多重排的缺失突变伴有高达1.1 kbp的缺失和插入。在通过6-TG筛选获得的gpt突变体中,G:C到T:A的单碱基替换、在5'-GG-3'或5'-CG-3'序列处发生的串联碱基替换以及大于2 bp的缺失突变增加。我们将体外观察到的MMC诱导突变谱与使用我们之前报道的gptδ小鼠的体内突变谱进行了比较。尽管在体外和体内的MMC诱导突变谱之间观察到了细微差异,但体外检测到的突变包括了体内观察到的所有突变类型。本研究表明,新建立的GDL1细胞系是检测和分析包括哺乳动物细胞大片段缺失在内的各种突变的有用工具。
