Martínez Sandra, Pérez Laura, Galmarini Carlos M, Aracil Miguel, Tercero Juan C, Gago Federico, Albella Beatriz, Bueren Juan A
Hematopoietic Innovative Therapies Division, Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas (CIEMAT), Centro de Investigación Biomédica en Red de Enfermedades Raras (CIBERER), E-28040, Madrid, Spain; Pharmamar S.A., Avda. de los Reyes, 1 - Pol. Ind. La Mina, E-28770, Colmenar Viejo, Madrid, Spain.
Br J Pharmacol. 2013 Oct;170(4):871-82. doi: 10.1111/bph.12331.
We have previously shown that cells with a defective Fanconi anaemia (FA) pathway are hypersensitive to trabectedin, a DNA-binding anti-cancer tetrahydroisoquinoline (DBAT) whose adducts functionally mimic a DNA inter-strand cross link (ICL). Here we expand these observations to new DBATs and investigate whether our findings in primary untransformed cells can be reproduced in human cancer cells.
Initially, the sensitivity of transformed and untransformed cells, deficient or not in one component of the FA pathway, to mitomycin C (MMC) and three DBATs, trabectedin, Zalypsis and PM01183, was assessed. Then, the functional interaction of these drugs with the FA pathway was comparatively investigated.
While untransformed FA-deficient haematopoietic cells were hypersensitive to both MMC and DBATs, the response of FA-deficient squamous cell carcinoma (SCC) cells to DBATs was similar to that of their respective FA-competent counterparts, even though these FA-deficient SCC cells were hypersensitive to MMC. Furthermore, while MMC always activated the FA pathway, the DBATs inhibited the FA pathway in the cancer cell lines tested and this enhanced their response to MMC.
Our data show that although DBATs functionally interact with DNA as do agents that generate classical ICL, these drugs should be considered as FA pathway inhibitors rather than activators. Moreover, this effect was most significant in a variety of cancer cells. These inhibitory effects of DBATs on the FA pathway could be exploited clinically with the aim of 'fanconizing' cancer cells in order to make them more sensitive to other anti-tumour drugs.
我们之前已经表明,范可尼贫血(FA)通路存在缺陷的细胞对曲贝替定高度敏感,曲贝替定是一种DNA结合抗癌四氢异喹啉(DBAT),其加合物在功能上模拟DNA链间交联(ICL)。在此,我们将这些观察结果扩展到新的DBAT,并研究我们在原代未转化细胞中的发现是否能在人类癌细胞中重现。
最初,评估了转化和未转化细胞(FA通路的一个组分有或无缺陷)对丝裂霉素C(MMC)和三种DBAT(曲贝替定、Zalypsis和PM01183)的敏感性。然后,比较研究了这些药物与FA通路的功能相互作用。
虽然未转化的FA缺陷造血细胞对MMC和DBAT均高度敏感,但FA缺陷的鳞状细胞癌(SCC)细胞对DBAT的反应与其各自FA功能正常的对应细胞相似,尽管这些FA缺陷的SCC细胞对MMC高度敏感。此外,虽然MMC总是激活FA通路,但DBAT在测试的癌细胞系中抑制FA通路,这增强了它们对MMC的反应。
我们的数据表明,尽管DBAT在功能上与产生经典ICL的药物一样与DNA相互作用,但这些药物应被视为FA通路抑制剂而非激活剂。此外,这种效应在多种癌细胞中最为显著。DBAT对FA通路的这些抑制作用可在临床上加以利用,目的是使癌细胞“范可尼化”,从而使其对其他抗肿瘤药物更敏感。