NADPH 氧化酶产生的活性氧参与了雌二醇 17ß-d-Glucuronide 诱导的胆汁淤积过程

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-10 DOI:10.1016/j.biochi.2024.04.002
Gimena Salas, Alen A. Litta, Anabela C. Medeot, Virginia S. Schuck, Romina B. Andermatten, Gisel S. Miszczuk, Nadia Ciriaci, Ma Valeria Razori, Ismael R. Barosso, Enrique J. Sánchez Pozzi, Marcelo G. Roma, Cecilia L. Basiglio, Fernando A. Crocenzi
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引用次数: 0

摘要

雌二醇的内源性代谢产物--雌二醇17β-D-葡萄糖醛酸内酯(E17G)被认为是导致妊娠肝内胆汁淤积症的主要原因。E17G 通过信号通路依赖性细胞内化改变了管状转运体的活性,这一现象被认为是不同胆汁淤积情况下的氧化应激所致。然而,目前还没有涉及 E17G 诱导的胆汁淤积症中氧化应激的报道,这正是我们工作的目的。通过使用极化肝细胞培养物,我们发现抗氧化化合物能阻止 E17G 诱导的 Mrp2 活性改变,而 NADPH 氧化酶(NOX)抑制剂阿朴青宁同样能阻止这种改变。在离体大鼠肝脏和灌流大鼠肝脏中,模型抗氧化剂 N-乙酰-半胱氨酸可防止 E17G 诱导的胆汁流和 Mrp2 活性损伤,从而证实活性氧(ROS)参与了胆汁淤积。在原代培养的肝细胞中,ERK1/2 和 p38MAPK 的特异性抑制剂会阻碍 E17G 诱导的 ROS 生成;相反,NOX 抑制剂不会影响 ERK1/2 和 p38MAPK 的磷酸化。在夹心培养的大鼠肝细胞中通过 siRNA 敲除 p47phox 和预孵育 apocynin 都能显著阻止 E17G 诱导的 Mrp2 内化,这表明 NOX 在这一现象中起着至关重要的作用。总之,E17G诱导的胆汁淤积部分是由NOX通过Mrp2等管状转运体的内化产生的ROS介导的,而ERK1/2和p38MAPK是NOX激活的必要条件。
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NADPH oxidase-generated reactive oxygen species are involved in estradiol 17ß-d-glucuronide-induced cholestasis

The endogenous metabolite of estradiol, estradiol 17β-D-glucuronide (E17G), is considered the main responsible of the intrahepatic cholestasis of pregnancy. E17G alters the activity of canalicular transporters through a signaling pathway-dependent cellular internalization, phenomenon that was attributed to oxidative stress in different cholestatic conditions. However, there are no reports involving oxidative stress in E17G-induced cholestasis, representing this the aim of our work. Using polarized hepatocyte cultures, we showed that antioxidant compounds prevented E17G-induced Mrp2 activity alteration, being this alteration equally prevented by the NADPH oxidase (NOX) inhibitor apocynin. The model antioxidant N-acetyl-cysteine prevented, in isolated and perfused rat livers, E17G-induced impairment of bile flow and Mrp2 activity, thus confirming the participation of reactive oxygen species (ROS) in this cholestasis. In primary cultured hepatocytes, pretreatment with specific inhibitors of ERK1/2 and p38MAPK impeded E17G-induced ROS production; contrarily, NOX inhibition did not affect ERK1/2 and p38MAPK phosphorylation. Both, knockdown of p47phox by siRNA and preincubation with apocynin in sandwich-cultured rat hepatocytes significantly prevented E17G-induced internalization of Mrp2, suggesting a crucial role for NOX in this phenomenon. Concluding, E17G-induced cholestasis is partially mediated by NOX-generated ROS through internalization of canalicular transporters like Mrp2, being ERK1/2 and p38MAPK necessary for NOX activation.

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