Mechanisms underlying the role of endoplasmic reticulum stress in the placental injury and fetal growth restriction in an ovine gestation model.

IF 7 1区 农林科学 Q1 Agricultural and Biological Sciences Journal of Animal Science and Biotechnology Pub Date : 2023-09-11 DOI:10.1186/s40104-023-00919-z
Hao Zhang, Xia Zha, Yi Zheng, Xiaoyun Liu, Mabrouk Elsabagh, Hongrong Wang, Honghua Jiang, Mengzhi Wang
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Abstract

Background: Exposure to bisphenol A (BPA), an environmental pollutant known for its endocrine-disrupting properties, during gestation has been reported to increase the risk of fetal growth restriction (FGR) in an ovine model of pregnancy. We hypothesized that the FGR results from the BPA-induced insufficiency and barrier dysfunction of the placenta, oxidative stress, inflammatory responses, autophagy and endoplasmic reticulum stress (ERS). However, precise mechanisms underlying the BPA-induced placental dysfunction, and subsequently, FGR, as well as the potential involvement of placental ERS in these complications, remain to be investigated.

Methods: In vivo experiment, 16 twin-pregnant (from d 40 to 130 of gestation) Hu ewes were randomly distributed into two groups (8 ewes each). One group served as a control and received corn oil once a day, whereas the other group received BPA (5 mg/kg/d as a subcutaneous injection). In vitro study, ovine trophoblast cells (OTCs) were exposed to 4 treatments, 6 replicates each. The OTCs were treated with 400 μmol/L BPA, 400 μmol/L BPA + 0.5 μg/mL tunicamycin (Tm; ERS activator), 400 μmol/L BPA + 1 μmol/L 4-phenyl butyric acid (4-PBA; ERS antagonist) and DMEM/F12 complete medium (control), for 24 h.

Results: In vivo experiments, pregnant Hu ewes receiving the BPA from 40 to 130 days of pregnancy experienced a decrease in placental efficiency, progesterone (P4) level and fetal weight, and an increase in placental estrogen (E2) level, together with barrier dysfunctions, OS, inflammatory responses, autophagy and ERS in type A cotyledons. In vitro experiment, the OTCs exposed to BPA for 24 h showed an increase in the E2 level and related protein and gene expressions of autophagy, ERS, pro-apoptosis and inflammatory response, and a decrease in the P4 level and the related protein and gene expressions of antioxidant, anti-apoptosis and barrier function. Moreover, treating the OTCs with Tm aggravated BPA-induced dysfunction of barrier and endocrine (the increased E2 level and decreased P4 level), OS, inflammatory responses, autophagy, and ERS. However, treating the OTCs with 4-PBA reversed the counteracted effects of Tm mentioned above.

Conclusions: In general, the results reveal that BPA exposure can cause ERS in the ovine placenta and OTCs, and ERS induction might aggravate BPA-induced dysfunction of the placental barrier and endocrine, OS, inflammatory responses, and autophagy. These data offer novel mechanistic insights into whether ERS is involved in BPA-mediated placental dysfunction and fetal development.

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在绵羊妊娠模型中,内质网应激在胎盘损伤和胎儿生长限制中的作用机制。
背景:据报道,在妊娠期暴露于双酚A (BPA),一种以其内分泌干扰特性而闻名的环境污染物,会增加妊娠期绵羊胎儿生长受限(FGR)的风险。我们假设FGR是由bpa诱导的胎盘功能不全和屏障功能障碍、氧化应激、炎症反应、自噬和内质网应激(ERS)引起的。然而,bpa诱导的胎盘功能障碍的确切机制,以及随后的FGR,以及胎盘ERS在这些并发症中的潜在参与,仍有待研究。方法:选取16只双孕(妊娠40 ~ 130 d)胡羊,随机分为2组(每组8只)。一组作为对照组,每天注射一次玉米油,另一组皮下注射BPA (5 mg/kg/d)。体外实验采用4个处理,每个处理6个重复的方法培养绵羊滋养细胞。以400 μmol/L BPA、400 μmol/L BPA + 0.5 μg/mL tunicamycin (Tm;ERS活化剂),400 μmol/L BPA + 1 μmol/L 4-苯基丁酸(4-PBA;结果:在体内实验中,妊娠40 ~ 130 d的虎母羊胎盘效率、孕酮(P4)水平和胎儿体重下降,胎盘雌激素(E2)水平升高,a型子叶出现屏障功能障碍、OS、炎症反应、自噬和ERS。体外实验显示,暴露于BPA 24 h的OTCs细胞E2水平及自噬、ERS、促凋亡和炎症反应相关蛋白和基因表达升高,P4水平及抗氧化、抗凋亡和屏障功能相关蛋白和基因表达降低。此外,用Tm治疗OTCs加重了bpa诱导的屏障和内分泌功能障碍(E2水平升高,P4水平降低)、OS、炎症反应、自噬和ERS。然而,用4-PBA治疗otc逆转了上述Tm的抵消作用。结论:总的来说,BPA暴露可引起羊胎盘和外源性ERS, ERS的诱导可能加重BPA诱导的胎盘屏障和内分泌功能障碍、OS、炎症反应和自噬。这些数据为ERS是否参与bpa介导的胎盘功能障碍和胎儿发育提供了新的机制见解。
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来源期刊
Journal of Animal Science and Biotechnology
Journal of Animal Science and Biotechnology AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
9.90
自引率
2.90%
发文量
822
审稿时长
17 weeks
期刊介绍: Journal of Animal Science and Biotechnology is an open access, peer-reviewed journal that encompasses all aspects of animal science and biotechnology. That includes domestic animal production, animal genetics and breeding, animal reproduction and physiology, animal nutrition and biochemistry, feed processing technology and bioevaluation, animal biotechnology, and meat science.
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