Division of Pharmaceutics, College of Pharmacy, Jinan University, 601 Huangpu Avenue West, Guangzhou 510632, China.
Division of Pharmaceutics, College of Pharmacy, Jinan University, 601 Huangpu Avenue West, Guangzhou 510632, China.
Biochem Pharmacol. 2015 Nov 1;98(1):203-14. doi: 10.1016/j.bcp.2015.08.090. Epub 2015 Aug 17.
Efflux transport is a critical determinant to the pharmacokinetics of sulfate conjugates. Here we aimed to establish SULT1A3 stably transfected HEK293 cells, and to determine the contributions of BCRP and MRP transporters to excretion of chrysin and apigenin sulfates. The cDNA of SULT1A3 was stably introduced into HEK293 cells using a lentiviral vector, generating a sulfonation active cell line (i.e., SULT293 cells). Identification of sulfate transporters was achieved through chemical inhibition (using chemical inhibitors) and biological inhibition (using short-hairpin RNAs (shRNAs)) methods. Sulfated metabolites were rapidly generated and excreted upon incubation of SULT293 cells with chrysin and apigenin. Ko143 (a selective BCRP inhibitor) did not show inhibitory effects on sulfate disposition, whereas the pan-MRP inhibitor MK-571 caused significant reductions (38.5-64.3%, p<0.001) in sulfate excretion and marked elevations (160-243%, p<0.05) in sulfate accumulation. Further, two efflux transporters (BCRP and MRP4) expressed in the cells were knocked-down by shRNA-mediated silencing. Neither sulfate excretion nor sulfate accumulation was altered in BCRP knocked-down cells as compared to scramble cells. By contrast, MRP4 knock-down led to moderate decreases (17.1-20.6%, p<0.05) in sulfate excretion and increases (125-135%, p<0.05) in sulfate accumulation. In conclusion, MRP4 was identified as an exporter for chrysin and apigenin sulfates. The SULT1A3 modified HEK293 cells were an appropriate tool to study SULT1A3-mediated sulfonation and to characterize BCRP/MRP4-mediated sulfate transport.
外排转运是硫酸盐缀合物药代动力学的关键决定因素。本研究旨在建立 SULT1A3 稳定转染的 HEK293 细胞,并确定 BCRP 和 MRP 转运体对染料木黄酮和芹菜素硫酸盐排泄的贡献。使用慢病毒载体将 SULT1A3 cDNA 稳定引入 HEK293 细胞,产生磺化活性细胞系(即 SULT293 细胞)。通过化学抑制(使用化学抑制剂)和生物抑制(使用短发夹 RNA(shRNA))方法鉴定硫酸盐转运体。当 SULT293 细胞与染料木黄酮和芹菜素孵育时,迅速生成并排泄硫酸盐代谢物。Ko143(一种选择性 BCRP 抑制剂)对硫酸盐处置没有抑制作用,而泛-MRP 抑制剂 MK-571 导致硫酸盐排泄显著减少(38.5-64.3%,p<0.001),硫酸盐积累显著增加(160-243%,p<0.05)。此外,两种在细胞中表达的外排转运体(BCRP 和 MRP4)通过 shRNA 介导的沉默被敲低。与对照细胞相比,BCRP 敲低细胞的硫酸盐排泄或硫酸盐积累没有改变。相比之下,MRP4 敲低导致硫酸盐排泄适度减少(17.1-20.6%,p<0.05)和硫酸盐积累增加(125-135%,p<0.05)。总之,MRP4 被鉴定为染料木黄酮和芹菜素硫酸盐的外排体。修饰后的 SULT1A3 HEK293 细胞是研究 SULT1A3 介导的磺化作用和表征 BCRP/MRP4 介导的硫酸盐转运的合适工具。
