Mikami K, Naito M, Tomida A, Yamada M, Sirakusa T, Tsuruo T
Institute of Molecular and Cellular Biosciences, University of Tokyo, Yayoi, Bunkyo-ku, Tokyo.
Cancer Res. 1996 Jun 15;56(12):2823-6.
Mitomycin C (MMC), a known cytotoxic agent, requires cellular enzyme-mediated activation for effective antitumor activity. To study the bioreductive enzymes responsible for MMC activation in tumor cells, we examined the enzyme activities of DT-diaphorase (DTD) and NADPH:cytochrome P-450 reductase in 13 colon and gastric carcinoma cell lines and then compared these activities to the respective cellular MMC sensitivity. We found that cell lines with nonexistent or marginal DTD activity, such as St-4 and MKN7, showed resistance to MMC, in comparison to cell lines with DTD activity ranging from 210 to 1420 nmol/min/mg protein. No correlation was found between NADPH:cytochrome P-450 reductase activity and MMC sensitivity in these cell lines. To confirm the role of DTD in cellular MMC sensitivity, we constructed an expression vector containing NQO1, a gene that codes for DTD, and transfected the vector into St-4 cells expressing no DTD activity. Several transfectant clones with DTD activity from 144 to 2085 nmol/min/mg protein were obtained. All of the transfectants showed 5-10-fold higher sensitivity to MMC compared to the parental St-4 cells. Consistent with the MMC sensitivity, we also found that MMC-DNA adduct was formed more extensively in the NQO1 transfectants than in the St-4 cells. These results indicate that DTD activity is required for effective cytotoxicity of MMC in colon and gastric carcinoma cells.
丝裂霉素C(MMC)是一种已知的细胞毒性药物,需要细胞酶介导的激活才能发挥有效的抗肿瘤活性。为了研究负责肿瘤细胞中MMC激活的生物还原酶,我们检测了13种结肠和胃癌细胞系中DT-黄递酶(DTD)和NADPH:细胞色素P-450还原酶的酶活性,然后将这些活性与相应细胞对MMC的敏感性进行比较。我们发现,与DTD活性在210至1420 nmol/分钟/毫克蛋白之间的细胞系相比,DTD活性不存在或微弱的细胞系,如St-4和MKN7,对MMC具有抗性。在这些细胞系中,未发现NADPH:细胞色素P-450还原酶活性与MMC敏感性之间存在相关性。为了证实DTD在细胞对MMC敏感性中的作用,我们构建了一个包含NQO1(编码DTD的基因)的表达载体,并将该载体转染到不表达DTD活性的St-4细胞中。获得了几个DTD活性在144至2085 nmol/分钟/毫克蛋白之间的转染克隆。所有转染细胞对MMC的敏感性均比亲代St-4细胞高5至10倍。与对MMC的敏感性一致,我们还发现,与St-4细胞相比,NQO1转染细胞中MMC-DNA加合物的形成更为广泛。这些结果表明,DTD活性是MMC在结肠和胃癌细胞中发挥有效细胞毒性所必需的。
