Deaven L L, Oka M S, Tobey R A
J Natl Cancer Inst. 1978 May;60(5):1155-61.
The induction of chromosome damage in Chinese hamster (line CHO) cells by 4'-[(9-acridinyl)-amino]methanesulphon-m-anisidide-HCl (MAC) (NSC-141549) was studied in cell populations growing exponentially and at various stages of the cell cycle following release from isoleucine-deficient G1-arrest. Autoradiographic analysis demonstrated that cells in S-phase at time of drug addition (2 microgram MAC/ml for 2 hr) were delayed 8 hours before entering mitosis. Cells in G1 at the time of MAC treatment were not as severely delayed, which resulted in a rather sharp increase and decrease in a percent labeled mitosis curve. Chromosome damage occurred differentially during the cell cycle. Cells in late G2 during MAC treatment contained incompletely condensed chromosomes with occasional chromosome interchanges at the next mitosis. Early G2 cells were severely damaged (greater than 20 breaks/cell). Damage to cells in S or G1 at the time of MAC addition was less severe, whereas cells in G1-S traverse had intermediate levels of chromosome breaks. Thus MAC appeared to be particularly effective at times when chromatin was undergoing structural modifications (G1-S and S-G2 boundaries). Low concentrations of MAC (0.05 microgram/ml) increased the rate of sister chromatid exchange to almost eight times the background rate. The cellular effects of MAC were compared with previously reported studies of other antitumor agents.
研究了4'-[(9-吖啶基)-氨基]甲磺基间茴香胺盐酸盐(MAC)(NSC-141549)对中国仓鼠(CHO细胞系)细胞染色体损伤的诱导作用,这些细胞群体在从异亮氨酸缺乏导致的G1期阻滞释放后呈指数生长,并处于细胞周期的不同阶段。放射自显影分析表明,在添加药物时处于S期的细胞(2微克MAC/毫升,处理2小时)在进入有丝分裂前延迟了8小时。在MAC处理时处于G1期的细胞延迟程度没有那么严重,这导致标记有丝分裂百分率曲线出现相当明显的上升和下降。染色体损伤在细胞周期中存在差异。在MAC处理期间处于G2晚期的细胞含有不完全浓缩的染色体,在下一次有丝分裂时偶尔会出现染色体互换。G2早期的细胞受到严重损伤(大于20条断裂/细胞)。在添加MAC时处于S期或G1期的细胞损伤较轻,而处于G1-S过渡期的细胞染色体断裂水平处于中等。因此,MAC在染色质正在进行结构修饰时(G1-S和S-G2边界)似乎特别有效。低浓度的MAC(0.05微克/毫升)使姐妹染色单体交换率增加到几乎是背景率的八倍。将MAC的细胞效应与先前报道的其他抗肿瘤药物的研究进行了比较。
