Publication date: Available online 22 November 2017
Source:The Journal of Steroid Biochemistry and Molecular Biology
Author(s): Erkka Järvinen, Feng Deng, Heidi Kidron, Moshe Finel
Estrone, estradiol and estriol are endogenous human estrogens that are rapidly conjugated with glucuronic acid in both intestinal and hepatic epithelial cells. The resulting glucuronides, estrone-3-glucuronide (E1-G), estradiol-3- and 17-glucuronides (E2-3G and E2-17G), as well as estriol-3- and 16-glucuronides (E3-3G and E3-16G) are found in human plasma and urine. Unlike E2-17G, the efflux transport of other estrogen glucuronides by human transporters has not yet been investigated comprehensively. We have studied the transport of E1-G, E2-3G, E3-3G, E3-16G and estrone-3-sulfate (E1-S), another important estrogen conjugate, using the vesicular transport assay with recombinant human MRP2, MRP3, MRP4, MDR1 and BCRP that were expressed in insect cells. The transport screening assays revealed that whereas E1-S was a good and specific substrate for BCRP, the less transporter-specific conjugates, E1-G and E2-3G, were still transported by BCRP at 10-fold higher rates than E1-S. BCRP also transported E3-16G at higher rates than the studied MRPs, while it transported E3-3G at lower rates than MRP3. MRP2 exhibited lower or equal transport rates of E1-G, E2-3G, E3-3G and E3-16G in comparison to MRP3 and BCRP in the screening assays, mainly due to its high Km values, between 180 and 790μM. MRP3 transported all the tested glucuronides at rather similar rates, at Km values below 20μM, but lower Vmax values than other transporters. In the case of E3-3G, MRP3 was the most active transporter in the screening assay. MRP4 transported only E3-16G at considerable rates, while none of the tested estrogen conjugates was transported by MDR1 at higher rates than control vesicles. These new results, in combination with previously reported in vivo human data, stimulate our understanding on the substrate specificity and role of efflux transporters in disposition of estrogen glucuronides in humans.
Graphical abstract
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