Takada Tappei, Weiss H Markus, Kretz Olivier, Gross Gerhard, Sugiyama Yuichi
Novartis Pharma AG, ADME, WKL- 135.4.83, CH-4002 Basel, Switzerland.
Drug Metab Dispos. 2004 Nov;32(11):1272-8. doi: 10.1124/dmd.104.000497. Epub 2004 Jul 27.
PKI166, a specific inhibitor of the tyrosine kinase activity of two epidermal growth factor receptors, was under development for the treatment of cancer. In preclinical studies PKI166 was mainly cleared by metabolism, and its metabolites were eliminated by biliary excretion, emphasizing the role of liver transport processes for its disposition. Here the transport properties of [14C]PKI166 and its main metabolite [14C]ACU154, an O-glucuronide, were analyzed using 1) Madin-Darby canine kidney II (MDCKII) cells stably transfected with human multidrug resistance-associated protein 2 (MRP2) and/or human organic anion-transporting peptide 2 (OATP2) and 2) liver canalicular membrane vesicles (CMVs) prepared from Wistar and mrp2-deficient TR- rats. Analysis of transport through MDCKII cells revealed that [14C]ACU154 was a substrate of MRP2 and OATP2. Rat mrp2 was shown to transport [14C]ACU154 with a Km of approximately 1 microM. [14C]PKI166 efficiently crossed MDCKII cells, particularly toward the apical side, but expression of MRP2 and/or OATP2 did not increase the flux. The effect of PKI166 and ACU154 on transport of [3H]estradiol-17beta-d-glucuronide (EG; via mrp2/MRP2 and OATP2) or [3H]taurocholic acid (TCA; via bile salt export pump (bsep) was analyzed. PKI166 inhibited the transport of [3H]EG by OATP2. ACU154 did strongly inhibit [3H]TCA uptake into CMVs from Wistar but not from TR- rats, demonstrating a dependence of bsep inhibition on mrp2 activity. ATP-dependent uptake of [3H]EG into CMVs from Wistar rats was inhibited by ACU154 but up to 4-fold increased by PKI166. In conclusion, OATP2 and MRP2/mrp2 were identified as transporters involved in ACU154 transport into bile. Both PKI166 and its O-glucuronide ACU154 affected mrp2/MRP2-, OATP2-, and/or bsep-mediated transport processes.
PKI166是两种表皮生长因子受体酪氨酸激酶活性的特异性抑制剂,正处于癌症治疗的研发阶段。临床前研究表明,PKI166主要通过代谢清除,其代谢产物经胆汁排泄消除,这突出了肝脏转运过程在其处置中的作用。在此,使用1)稳定转染人多药耐药相关蛋白2(MRP2)和/或人有机阴离子转运多肽2(OATP2)的Madin-Darby犬肾II(MDCKII)细胞,以及2)从Wistar大鼠和mrp2缺陷型TR - 大鼠制备的肝小管膜囊泡(CMV),分析了[14C]PKI166及其主要代谢产物[14C]ACU154(一种O - 葡萄糖醛酸苷)的转运特性。通过MDCKII细胞的转运分析表明,[14C]ACU154是MRP2和OATP2的底物。大鼠mrp2显示能转运[14C]ACU154,其Km约为1 microM。[14C]PKI166能有效穿过MDCKII细胞,尤其是朝着顶端侧,但MRP2和/或OATP2的表达并未增加通量。分析了PKI166和ACU154对[3H]雌二醇 - 17β - d - 葡萄糖醛酸苷(EG;通过mrp2/MRP2和OATP2)或[3H]牛磺胆酸(TCA;通过胆盐输出泵(BSEP))转运的影响。PKI166抑制OATP2介导的[3H]EG转运。ACU154强烈抑制Wistar大鼠CMV对[3H]TCA的摄取,但对TR - 大鼠的CMV无此作用,表明BSEP抑制对mrp2活性的依赖性。ACU154抑制Wistar大鼠CMV对[3H]EG的ATP依赖性摄取,但PKI166可使其增加高达4倍。总之,OATP2和MRP2/mrp2被确定为参与ACU154转运至胆汁中的转运蛋白。PKI166及其O - 葡萄糖醛酸苷ACU154均影响mrp2/MRP2、OATP2和/或BSEP介导的转运过程。
