Hyafil F, Vergely C, Du Vignaud P, Grand-Perret T
Laboratoires GLAXO, Centre de Recherches, Les Ulis, France.
Cancer Res. 1993 Oct 1;53(19):4595-602.
N-(4-[2-(1,2,3,4-tetrahydro-6,7-dimethoxy-2-isoquinolinyl)ethyl]- phenyl)-9,10-dihydro-5-methoxy-9-oxo-4-acridine carboxamide (GF120918) has been selected from a chemical program aimed at identifying an optimized inhibitor of multidrug resistance (MDR). The potency of GF120918 is assessed by dose-dependent sensitization of CHRC5, OV1/DXR and MCF7/ADR cells to the cytotoxicity of doxorubicin and vincristine respectively: GF120918 fully reverses multidrug resistance at 0.05 to 0.1 microM and is half maximally active at 0.02 microM. The spectrum of drugs sensitized by GF120918 coincides with those having the classical MDR phenotype. In CHRC5 cells, 0.01-0.1 microM GF120918 enhances the uptake of [3H]daunorubicin and blocks the efflux from preloaded cells. It is also shown that GF120918 is still active several hours after being taken away from the culture medium showing that it is not, like verapamil, effluxed rapidly by P-glycoprotein. GF120918 effectively competes with [3H]azidopine for binding P-glycoprotein, pointing to this transport membrane protein as its likely site of action. After i.v. administration to mice, GF120918 penetrates thoroughly various organs that have a tissue level/blood level ratio above 10. It is eliminated from organs and blood with a half-time of approximately 2.7 h. It is well absorbed after p.o. administration. In mice implanted i.p. with the MDR P388/Dox tumor, a single i.v. or p.o. dose of GF120918 restores sensitivity of the tumor to a single i.p. dose (5 mg/kg) of doxorubicin administered 1 h later. A statistically significant effect is observed at 1 mg/kg GF120918 i.v. and maximal effect is reached at 5 mg/kg. Similarly, whereas neither drug alone is effective, GF120918 (10 mg/kg i.p.) associated with doxorubicin (5 mg/kg i.p.) inhibits the growth of the moderately MDR C26 tumor implanted s.c. as assessed by tumor size at day 19. GF120918 does not modify significantly the distribution or the elimination of doxorubicin in mice ruling out the possibility that the antitumor effects seen might be explained by pharmacokinetic interactions.
N-(4-[2-(1,2,3,4-四氢-6,7-二甲氧基-2-异喹啉基)乙基]苯基)-9,10-二氢-5-甲氧基-9-氧代-4-吖啶甲酰胺(GF120918)是从一个旨在鉴定多药耐药性(MDR)优化抑制剂的化学项目中筛选出来的。通过CHRC5、OV1/DXR和MCF7/ADR细胞分别对阿霉素和长春新碱细胞毒性的剂量依赖性致敏来评估GF120918的效力:GF120918在0.05至0.1微摩尔时可完全逆转多药耐药性,在0.02微摩尔时活性达到最大的一半。GF120918致敏的药物谱与具有经典MDR表型的药物谱一致。在CHRC5细胞中,0.01 - 0.1微摩尔的GF120918可增强[3H]柔红霉素的摄取并阻断预加载细胞中的流出。还表明,GF120918从培养基中取出数小时后仍有活性,这表明它不像维拉帕米那样会被P-糖蛋白迅速排出。GF120918能有效与[3H]叠氮平竞争结合P-糖蛋白,表明这种转运膜蛋白可能是其作用位点。给小鼠静脉注射后,GF120918能充分渗透到组织水平/血液水平比高于10的各种器官中。它从器官和血液中消除的半衰期约为2.7小时。口服给药后吸收良好。在腹腔注射植入MDR P388/Dox肿瘤的小鼠中,静脉注射或口服单剂量的GF120918可恢复肿瘤对1小时后腹腔注射单剂量(5毫克/千克)阿霉素的敏感性。静脉注射1毫克/千克的GF120918可观察到统计学上的显著效果,5毫克/千克时达到最大效果。同样,虽然单独使用两种药物均无效,但GF120918(腹腔注射10毫克/千克)与阿霉素(腹腔注射5毫克/千克)联合使用可抑制皮下植入的中度MDR C26肿瘤的生长,这在第19天通过肿瘤大小评估。GF120918不会显著改变小鼠体内阿霉素的分布或消除,排除了观察到的抗肿瘤作用可能由药代动力学相互作用解释的可能性。
