Dong J, Naito M, Tatsuta T, Seimiya H, Johdo O, Tsuruo T
Institute of Molecular and Cellular Biosciences, University of Tokyo, Japan.
Oncol Res. 1995;7(5):245-52.
Aclacinomycin (ACR) is an anthracycline anticancer drug that shows marked effects in Adriamycin (ADM)-resistant tumors. ADM, however, is not effective against ACR-resistant tumor cells. When tumor cells acquire resistance to ACR, though the resistance is not easily acquired, they show strong cross-resistance to ADM. To study the mechanism underlying these phenomena, we studied the resistance mechanism of ACR- and ADM-resistant P388 leukemia cells. The P388/ACR cells showed 4.9- and 100-fold resistance to ACR and ADM, respectively, whereas the P388/ADM cells showed respectively 2.0- and 270-fold resistance. Both P388/ACR and P388/ADM cells expressed large amounts of P-glycoprotein, and the amount was 3-fold higher in the P388/ACR than in the P388/ADM cells. As a result, the accumulation of vincristine and ADM were greatly reduced in P388/ACR and P388/ADM cells, as compared with the parental P388 cells. The accumulation of ACR, however, was moderately reduced in both the resistant cell lines. ACR accumulation in P388/ACR and P388/ADM cells was reduced to respectively 37 and 64% of the level in P388 cells. The amount and the activity of topoisomerase II were comparable in P388 and P388/ACR cells, but they were reduced in P388/ADM cells. Consequently, the formation of protein (topoisomerase II)-DNA cross-links induced by a topoisomerase II inhibitor was more prominent in the P388 and P388/ACR nuclei than in the P388/ADM nuclei. Notably, ACR could reduce the protein-DNA cross-links equally in the nuclei of P388, P388/ACR, and P388/ADM cells.(ABSTRACT TRUNCATED AT 250 WORDS)
阿克拉霉素(ACR)是一种蒽环类抗癌药物,对阿霉素(ADM)耐药的肿瘤显示出显著疗效。然而,ADM对ACR耐药的肿瘤细胞无效。当肿瘤细胞获得对ACR的耐药性时,尽管这种耐药性不易获得,但它们对ADM表现出强烈的交叉耐药性。为了研究这些现象背后的机制,我们研究了ACR和ADM耐药的P388白血病细胞的耐药机制。P388/ACR细胞对ACR和ADM的耐药性分别为4.9倍和100倍,而P388/ADM细胞的耐药性分别为2.0倍和270倍。P388/ACR和P388/ADM细胞均大量表达P-糖蛋白,且P388/ACR细胞中的表达量比P388/ADM细胞高3倍。结果,与亲代P388细胞相比,长春新碱和ADM在P388/ACR和P388/ADM细胞中的蓄积量大大降低。然而,ACR在两种耐药细胞系中的蓄积量均有适度降低。P388/ACR和P388/ADM细胞中ACR的蓄积量分别降至P388细胞中水平的37%和64%。拓扑异构酶II的量和活性在P388和P388/ACR细胞中相当,但在P388/ADM细胞中降低。因此,拓扑异构酶II抑制剂诱导的蛋白质(拓扑异构酶II)-DNA交联在P388和P388/ACR细胞核中比在P388/ADM细胞核中更显著。值得注意的是,ACR可同等程度地减少P388、P388/ACR和P388/ADM细胞核中的蛋白质-DNA交联。(摘要截短于250字)
