Low oxygen tension differentially regulates the expression of placental solute carriers and ABC transporters.

IF 3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
FEBS Letters Pub Date : 2021-03-01 Epub Date: 2020-10-07 DOI:10.1002/1873-3468.13937
Ludwik Gorczyca, Jianyao Du, Kristin M Bircsak, Xia Wen, Anna M Vetrano, Lauren M Aleksunes
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引用次数: 8

Abstract

Low oxygen concentration, or hypoxia, is an important physiological regulator of placental function including chemical disposition. Here, we compared the ability of low oxygen tension to alter the expression of solute carriers (SLC) and ABC transporters in two human placental models, namely BeWo cells and term placental explants. We found that exposure to low oxygen concentration differentially regulates transporter expression in BeWo cells, including downregulation of ENT1, OATP4A1, OCTN2, BCRP, and MRP2/3/5, and upregulation of CNT1, OAT4, OATP2B1, SERT, SOAT, and MRP1. Similar upregulation of MRP1 and downregulation of MRP5 and BCRP were observed in explants, whereas uptake transporters were decreased or unchanged. Furthermore, a screening of transcriptional regulators of transporters revealed that hypoxia leads to a decrease in the mRNA levels of aryl hydrocarbon receptor, nuclear factor erythroid 2‐related factor 2, and retinoid x receptor alpha in both human placental models. These data suggest that transporter expression is differentially regulated by oxygen concentration across experimental human placental models.
低氧张力对胎盘溶质载体和ABC转运蛋白表达的调控存在差异。
低氧浓度,或缺氧,是一个重要的生理调节胎盘功能,包括化学处置。在这里,我们比较了低氧张力对两种人类胎盘模型(BeWo细胞和足月胎盘外植体)中溶质载体(SLC)和ABC转运蛋白表达的影响。我们发现低氧浓度暴露对BeWo细胞中的转运蛋白表达有差异调节,包括下调ENT1、OATP4A1、OCTN2、BCRP和MRP2/3/5,上调CNT1、OAT4、OATP2B1、SERT、SOAT和MRP1。在外植体中也观察到MRP1的上调和MRP5和BCRP的下调,而摄取转运蛋白则减少或不变。此外,对转运蛋白转录调节因子的筛选显示,缺氧导致两种人类胎盘模型中芳烃受体、核因子红系2相关因子2和类视黄酮x受体α的mRNA水平降低。这些数据表明,在实验人类胎盘模型中,转运蛋白的表达受到氧浓度的不同调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
FEBS Letters
FEBS Letters 生物-生化与分子生物学
CiteScore
6.60
自引率
2.90%
发文量
303
审稿时长
1 months
期刊介绍: FEBS Letters is one of the world''s leading journals in molecular biology and is renowned both for its quality of content and speed of production. Bringing together the most important developments in the molecular biosciences, FEBS Letters provides an international forum for Minireviews, Research Letters and Hypotheses that merit urgent publication.
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