Zeng Weiwei, Hu Miao, Lee Hon Kit, Wat Elaine, Lau Clara Bik San, Ho Chung Shun, Wong Chun Kwok, Tomlinson Brian
The Second People's Hospital of Longgang District, Shenzhen, China.
Shenzhen Baoan Women's and Children's Hospital, Jinan University, Shenzhen, China.
Front Nutr. 2022 May 19;9:868126. doi: 10.3389/fnut.2022.868126. eCollection 2022.
Green tea and soy products are extensively consumed by many people and they may influence the activity of drug metabolizing enzymes and drug transporters to result in drug interactions. This study was performed to evaluate the effect of green tea and soy isoflavone extracts on the pharmacokinetics of simvastatin in healthy subjects and to clarify the role of polymorphisms in the SLCO1B1 drug transporter in this effect.
This was an open-label, three-phase randomized crossover pharmacokinetic study. A single dose of simvastatin 20 mg was taken on three occasions (without herbs, with green tea, and with soy isoflavones) by healthy male Chinese subjects. The green tea and soy isoflavone extracts were given at a dose containing EGCG 800 mg once daily or soy isoflavones about 80 mg once daily for 14 days before simvastatin dosing with at least 4-weeks washout period between phases.
All the 18 subjects completed the study. Intake of soy isoflavones was associated with reduced systemic exposure to simvastatin acid [geometric mean (% coefficient of variation) AUC from 16.1 (44.2) h⋅μg/L to 12.1 (54.6) h⋅μg/L, < 0.05) but not the lactone. Further analysis showed that the interaction between simvastatin and the soy isoflavones only resulted in a significant reduction of AUC in subjects with the SLCO1B1 521TT genotype and not in those with the 521C variant allele. There was no overall effect of the green tea extract on simvastatin pharmacokinetics but the group with the SLCO1B1 521TT genotype showed reduced AUC values for simvastatin acid.
This study showed repeated administration of soy isoflavones reduced the systemic bioavailability of simvastatin in healthy volunteers that was dependent on the SLCO1B1 genotype which suggested that soy isoflavones-simvastatin interaction is impacted by genotype-related function of this liver uptake transporter.
许多人广泛饮用绿茶和食用大豆制品,它们可能会影响药物代谢酶和药物转运体的活性,从而导致药物相互作用。本研究旨在评估绿茶和大豆异黄酮提取物对健康受试者中辛伐他汀药代动力学的影响,并阐明溶质载体有机阴离子转运多肽1B1(SLCO1B1)药物转运体基因多态性在此效应中的作用。
这是一项开放标签、三阶段随机交叉药代动力学研究。健康中国男性受试者分三次(不服用草药、服用绿茶、服用大豆异黄酮)单次服用20 mg辛伐他汀。在辛伐他汀给药前14天,每天给予一次含有800 mg表没食子儿茶素没食子酸酯(EGCG)的绿茶提取物剂量或约80 mg大豆异黄酮剂量,各阶段之间至少有4周的洗脱期。
18名受试者均完成了研究。摄入大豆异黄酮与辛伐他汀酸的全身暴露减少有关[几何均值(变异系数%)曲线下面积从16.1(44.2)h·μg/L降至12.1(54.6)h·μg/L,P<0.05],但与内酯无关。进一步分析表明,辛伐他汀与大豆异黄酮之间的相互作用仅导致携带SLCO1B1 521TT基因型的受试者曲线下面积显著降低,而携带521C变异等位基因的受试者则未出现这种情况。绿茶提取物对辛伐他汀药代动力学没有总体影响,但携带SLCO1B1 521TT基因型的组中辛伐他汀酸的曲线下面积值降低。
本研究表明,在健康志愿者中重复给予大豆异黄酮会降低辛伐他汀的全身生物利用度,这取决于SLCO1B1基因型,提示大豆异黄酮 - 辛伐他汀相互作用受该肝脏摄取转运体基因型相关功能的影响。
