Kapoor R, Slade D L, Fujimori A, Pommier Y, Harker W G
Department of Medicine, VA Medical Center, Salt Lake City, UT 84148, USA.
Oncol Res. 1995;7(2):83-95.
Two camptothecin-resistant variants of the CEM human leukemia cell line were developed by stepwise selection in camptothecin (CPT) in vitro. The two lines, named CEM/C1 and CEM/C2, were found to be approximately 31- and 970-fold less sensitive to CPT, respectively, than the CEM parental line and variably cross-resistant to the CPT analogs 9-amino-CPT, 10,11-methylenedioxy-CPT, and topotecan. Levels of DNA-protein complex formation resulting from cell exposure to CPT were found to be progressively reduced in the CPT-resistant cells, despite equivalent CPT accumulation in the drug-sensitive and -resistant cells. Nuclear extracts (1.0 M NaCl) prepared from the CEM/C1 and CEM/C2 lines contained 1.5- to 2-fold less DNA topoisomerase I catalytic activity per microgram of protein than did extracts from the drug-sensitive CEM line, in association with altered sensitivity of the enzyme in the CEM/C1 and CEM/C2 extracts to the inhibitory activity of CPT. Only minor differences were noted in the CPT IC50s for the topoisomerase I activity in extracts from the two CPT-resistant cell lines, however, despite the marked differences in cellular sensitivity to CPT. There were notable differences in the level of CPT-induced cleavage of DNA oligonucleotides by topoisomerase I in nuclear extracts from CEM cells compared with the drug-resistant cell extracts, with very little oligonucleotide cleavage induced by enzyme in either drug-resistant cell type, despite the use of very high (100 microM) CPT concentrations. The alterations in topoisomerase I catalytic activity were associated with reduced cellular levels of both immunoreactive topoisomerase I protein (representing 59 +/- 19% [CEM/C1] and 49 +/- 12% [CEM/C2] of that in CEM, respectively) and mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
通过在体外喜树碱(CPT)中逐步筛选,培育出了人CEM白血病细胞系的两种耐喜树碱变体。这两个细胞系分别命名为CEM/C1和CEM/C2,发现它们对CPT的敏感性分别比CEM亲代细胞系低约31倍和970倍,并且对CPT类似物9-氨基-CPT、10,11-亚甲二氧基-CPT和拓扑替康存在可变交叉耐药性。尽管药物敏感细胞和耐药细胞中CPT的蓄积量相当,但在耐药细胞中,细胞暴露于CPT后形成的DNA-蛋白质复合物水平逐渐降低。从CEM/C1和CEM/C2细胞系制备的核提取物(1.0 M NaCl)中,每微克蛋白质的DNA拓扑异构酶I催化活性比药物敏感的CEM细胞系提取物低1.5至2倍,同时CEM/C1和CEM/C2提取物中该酶对CPT抑制活性的敏感性也发生了改变。然而,尽管两个耐CPT细胞系的细胞对CPT的敏感性存在显著差异,但它们提取物中拓扑异构酶I活性的CPT IC50值仅存在微小差异。与耐药细胞提取物相比,CEM细胞的核提取物中拓扑异构酶I对CPT诱导的DNA寡核苷酸切割水平存在显著差异,尽管使用了非常高(100 microM)的CPT浓度,但两种耐药细胞类型中该酶诱导的寡核苷酸切割都很少。拓扑异构酶I催化活性的改变与免疫反应性拓扑异构酶I蛋白(分别占CEM中该蛋白的59±19%[CEM/C1]和49±12%[CEM/C2])和mRNA的细胞水平降低有关。(摘要截短于250字)
