Sark M W, Timmer-Bosscha H, Meijer C, Uges D R, Sluiter W J, Peters W H, Mulder N H, de Vries E G
Department of Internal Medicine, University Hospital Groningen, The Netherlands.
Br J Cancer. 1995 Apr;71(4):684-90. doi: 10.1038/bjc.1995.135.
Cisplatin (CDDP) resistance mechanisms were studied in a model of three germ cell tumour and three colon carcinoma cell lines representing intrinsically CDDP-sensitive and -resistant tumours respectively. The CDDP sensitivity of the cell lines mimicked the clinical situation. The glutathione levels of the cell lines correlated with CDDP concentrations inhibiting cell survival by 50% (IC50); total cellular sulphydryl content (TSH) was unexpectedly inversely correlated with IC50. IC50 correlated neither with glutathione S-transferase (GST) nor with GST pi expression, topoisomerase I or II activity. Immediately after 4 h incubation with CDDP, platinum (Pt) accumulation and Pt bound to DNA were not correlated, but after another 24 h drug-free culture, Pt binding to DNA in germ cell tumour but not in colon carcinoma cell lines correlated with IC50. With the exception of in vitro sensitivity and TSH, none of the parameters studied discriminated between the two groups of cell lines. Correction of CDDP sensitivity parameters for phenotypical differences did not influence statistical correlations. Analysis of variance revealed a correlation between IC50 and the combination of glutathione, GST activity and Pt bound to DNA. But at other CDDP cytotoxicity levels sensitivity was also correlated with Pt accumulation, topoisomerase II activity and TSH in various combinations. This model of intrinsic CDDP resistance showed that multiple parameters ought to be studied to explain CDDP resistance, but did not elucidate the cause of the unique sensitivity of germ cell carcinoma, although the unexpected values of TSH deserve further attention.
在一个分别代表本质上对顺铂敏感和耐药肿瘤的三种生殖细胞肿瘤和三种结肠癌细胞系模型中,研究了顺铂(CDDP)的耐药机制。细胞系对CDDP的敏感性模拟了临床情况。细胞系中的谷胱甘肽水平与抑制细胞存活50%的CDDP浓度(IC50)相关;细胞总巯基含量(TSH)出人意料地与IC50呈负相关。IC50与谷胱甘肽S-转移酶(GST)、GSTπ表达、拓扑异构酶I或II活性均无相关性。与CDDP孵育4小时后,铂(Pt)积累与结合到DNA上的Pt不相关,但在另外24小时无药培养后,生殖细胞肿瘤细胞系中结合到DNA上的Pt与IC50相关,而结肠癌细胞系中则不然。除了体外敏感性和TSH外,所研究的参数均无法区分这两组细胞系。针对表型差异对CDDP敏感性参数进行校正并不影响统计相关性。方差分析显示IC50与谷胱甘肽、GST活性和结合到DNA上的Pt的组合之间存在相关性。但在其他CDDP细胞毒性水平下,敏感性也与Pt积累、拓扑异构酶II活性和TSH的各种组合相关。这种内在CDDP耐药模型表明,需要研究多个参数来解释CDDP耐药性,但尽管TSH的意外值值得进一步关注,但该模型并未阐明生殖细胞癌独特敏感性的原因。