Bilirubin Reduces the Uptake of Estrogen Precursors and the Followed Synthesis of Estradiol in Human Placental Syncytiotrophoblasts via Inhibition and Downregulation of Organic Anion Transporter 4

Abstract

Estrogen biosynthesis in human placental trophoblasts requires the human organic anion transporter 4 (hOAT4)-mediated uptake of fetal derived precursors such as dehydroepiandrosterone-3-sulfate (DHEAS) and 16α-hydroxy-DHEA-S (16α-OH-DHEAS). Scant information is available concerning the contribution of fetal metabolites on the impact of placental estrogen precursor transport and the followed estrogen synthesis. This study substantiated the roles of bilirubin as well as bile acids (taurochenodeoxycholic acid, taurocholic acid, glycochenodeoxycholic acid, chenodeoxycholic acid) on the inhibition of hOAT4-mediated uptake of probe substrate 6-carboxylfluorescein and DHEAS in stably transfected hOAT4-Chinese hamster ovary cells, with the IC₅₀ of 1.53 and 0.98 μM on 6-carboxylfluorescein and DHEAS, respectively, for bilirubin, and 90.2, 129, 16.4, and 12.3 μM on 6-CF for taurochenodeoxycholic acid, glycochenodeoxycholic acid, taurocholic acid, and chenodeoxycholic acid. Bilirubin (2.5-10 μM) concentration-dependently inhibited the accumulation of estradiol precursor DHEAS in human choriocarcinoma JEG-3 cells (reduced by 60% at 10 μM) and primary human trophoblast cells (reduced by 80% at 10 μM). Further study confirmed that bilirubin (0.625-2.5 μM) concentration-dependently reduced the synthesis and secretion of estradiol in primary human trophoblast cells, among which 2.5 μM of bilirubin reduced the synthesis of estradiol by 30% and secretion by 35%. In addition, immunostaining and Western blot results revealed a distinct downregulation of hOAT4 protein expression in primary human trophoblast cells pretreated with 2.5 μM of bilirubin. In conclusion, this study demonstrated that bilirubin reduced the uptake of estrogen precursors and the followed synthesis of estradiol in human placenta via inhibition and downregulation of organic anion transporter 4. SIGNIFICANCE STATEMENT: Fetal metabolites, especially bilirubin, were first identified with significant inhibitory effects on the hOAT4-mediated uptake of estrogen precursor DHEAS in hOAT4-CHO, JEG-3 and PHTCs. Bilirubin concentration-dependently suppressed the estradiol synthesis and secretion in PHTCs treated with DHEAS, which was synchronized with the decline of hOAT4 protein expression. Additionally, those identified bile acids exhibited a weaker inhibitory effect on the secretion of estradiol.