Ahmed-Belkacem Abdelhakim, Pozza Alexandre, Muñoz-Martínez Francisco, Bates Susan E, Castanys Santiago, Gamarro Francisco, Di Pietro Attilio, Pérez-Victoria José M
Institut de Biologie et Chimie des Protéines, Centre National de la Recherche Scientifique-Université Claude Bernard de Lyon, BioSciences Lyon-Gerland, Lyon, France.
Cancer Res. 2005 Jun 1;65(11):4852-60. doi: 10.1158/0008-5472.CAN-04-1817.
Overexpression of breast cancer resistance protein ABCG2 confers multidrug resistance in cancer cells. The GF120918-sensitive drug efflux activity of human wild-type (R482) ABCG2-transfected cells was used for rational screening of inhibitory flavonoids and establishment of structure-activity relationships. Flavones were found more efficient than flavonols, isoflavones, and flavanones. Differentially substituted flavone derivatives indicated positive OH effects at position 5, in contrast to positions 3 and 7. A methoxy at position 7 was slightly positive in tectochrysin, whereas a strong positive effect was produced by prenylation at position 6. The potency of 6-prenylchrysin was comparable with that of GF120918 (IC50 = 0.3 micromol/L). Both 6-prenylchrysin and tectochrysin seemed specific for ABCG2 because no interaction was detected with either P-glycoprotein or MRP1. The ABCG2 resistance profile in vitro is altered by mutation at amino acid 482. The R482T mutation limited the effect of prenylation on ABCG2 inhibition. Whereas GF120918 strongly inhibited the ATPase activity of wild-type ABCG2, neither 6-prenylchrysin nor tectochrysin altered the activity. In contrast, all three inhibitors stimulated the ATPase activity of mutant ABCG2. 6-Prenylchrysin at 0.5 micromol/L efficiently sensitized the growth of wild-type ABCG2-transfected cells to mitoxantrone, whereas higher concentrations were required for the mutant ones. In contrast, 1 micromol/L tectochrysin was sufficient to fully sensitize mutant ABCG2-transfected cells, whereas higher concentrations were required for the wild-type ones. Both flavones exhibited a lower intrinsic cytotoxicity than GF120918 and were apparently not transported by ABCG2. 6-Prenylchrysin and tectochrysin therefore constitute new and promising inhibitors for the reversal of ABCG2-mediated drug transport.
乳腺癌耐药蛋白ABCG2的过表达赋予癌细胞多药耐药性。利用转染人野生型(R482)ABCG2的细胞对GF120918敏感的药物外排活性,合理筛选抑制性黄酮类化合物并建立构效关系。发现黄酮比黄酮醇、异黄酮和黄烷酮更有效。不同取代的黄酮衍生物表明5位的羟基有正向作用,而3位和7位则相反。7位的甲氧基在tectochrysin中略有正向作用,而6位的异戊烯基化则产生强烈的正向作用。6-异戊烯基白杨素的效力与GF120918相当(IC50 = 0.3微摩尔/升)。6-异戊烯基白杨素和tectochrysin似乎对ABCG2具有特异性,因为未检测到与P-糖蛋白或MRP1有相互作用。体外ABCG2耐药谱因氨基酸482处的突变而改变。R482T突变限制了异戊烯基化对ABCGI2抑制的作用。虽然GF120918强烈抑制野生型ABCG2的ATP酶活性,但6-异戊烯基白杨素和tectochrysin均未改变该活性。相反,所有三种抑制剂均刺激突变型ABCG2的ATP酶活性。0.5微摩尔/升的6-异戊烯基白杨素有效地使转染野生型ABCG2的细胞对米托蒽醌的生长敏感,而突变型细胞则需要更高的浓度。相比之下,1微摩尔/升的tectochrysin足以使转染突变型ABCG2的细胞完全敏感,而野生型细胞则需要更高的浓度。两种黄酮的内在细胞毒性均低于GF120918,且显然不被ABCG2转运。因此,6-异戊烯基白杨素和tectochrysin是逆转ABCG2介导的药物转运的新型且有前景的抑制剂。
