Graduate Institute of Life Sciences, National Defense Medical Center, Taipei, Taiwan, Republic of China.
AAPS J. 2014 Mar;16(2):258-68. doi: 10.1208/s12248-013-9549-4. Epub 2014 Jan 16.
This study aims to improve the drug oral bioavailability by co-administration with flavonoid inhibitors of the CYP2C isozyme and to establish qualitative and quantitative (QSAR) structure-activity relationships (SAR) between flavonoids and CYP2C. A total of 40 naturally occurring flavonoids were screened in vitro for CYP2C inhibition. Enzyme activity was determined by measuring conversion of tolbutamide to 4-hydroxytolbutamide by rat liver microsomes. The percent inhibition and IC50 of each flavonoid were calculated and used to develop SAR and QSAR. The most effective flavonoid was orally co-administered in vivo with a cholesterol-reducing drug, fluvastatin, which is normally metabolized by CYP2C. The most potent CYP2C inhibitor identified in vitro was tamarixetin (IC50 = 1.4 μM). This flavonoid enhanced the oral bioavailability of fluvastatin in vivo, producing a >2-fold increase in the area under the concentration-time curve and in the peak plasma concentration. SAR analysis indicated that the presence of a 2,3-double bond in the C ring, hydroxylation at positions 5, 6, and 7, and glycosylation had important effects on flavonoid-CYP2C interactions. These findings should prove useful for predicting the inhibition of CYP2C activity by other untested flavonoid-like compounds. In the present study, tamarixetin significantly inhibited CYP2C activity in vitro and in vivo. Thus, the use of tamarixetin could improve the therapeutic efficacy of drugs with low bioavailability.
本研究旨在通过与黄酮类 CYP2C 同工酶抑制剂联合给药来提高药物的口服生物利用度,并建立黄酮类化合物与 CYP2C 之间的定性和定量(QSAR)构效关系(SAR)。共筛选了 40 种天然存在的黄酮类化合物对 CYP2C 的抑制作用。通过大鼠肝微粒体测量甲苯磺丁脲转化为 4-羟基甲苯磺丁脲来测定酶活性。计算每种黄酮类化合物的抑制百分率和 IC50,并用于开发 SAR 和 QSAR。体外最有效的黄酮类化合物与降胆固醇药物 fluvastatin 联合口服给药,后者通常由 CYP2C 代谢。体外鉴定出的最有效的 CYP2C 抑制剂是柽柳素(IC50=1.4μM)。这种黄酮类化合物增强了 fluvastatin 在体内的口服生物利用度,使浓度-时间曲线下面积和血浆峰浓度增加了 2 倍以上。SAR 分析表明,C 环中存在 2,3-双键、5、6 和 7 位的羟化以及糖基化对黄酮类化合物-CYP2C 相互作用有重要影响。这些发现对于预测其他未经测试的类黄酮化合物对 CYP2C 活性的抑制作用应该是有用的。在本研究中,柽柳素在体外和体内均显著抑制 CYP2C 活性。因此,柽柳素的使用可以提高生物利用度低的药物的治疗效果。