妊娠期砷暴露对小鼠胎盘和胎儿发育的影响: 的作用。
Effects of Gestational Arsenic Exposures on Placental and Fetal Development in Mice: The Role of .
机构信息
Department of Toxicology, Anhui Medical University, Hefei, Anhui, China.
Second Affiliated Hospital, Anhui Medical University, Hefei, Anhui, China.
出版信息
Environ Health Perspect. 2023 Sep;131(9):97004. doi: 10.1289/EHP12207. Epub 2023 Sep 8.
BACKGROUND
Several epidemiological investigations demonstrated that maternal arsenic (As) exposure elevated risk of fetal growth restriction (FGR), but the mechanism remains unclear.
OBJECTIVES
This study aimed to investigate the effects of gestational As exposure on placental and fetal development and its underlying mechanism.
METHODS
Dams were exposed to 0.15, 1.5, and throughout pregnancy via drinking water. Sizes of fetuses and placentas, placental histopathology, and glycogen content were measured. Placental RNA sequencing was conducted. Human trophoblasts were exposed to () to establish an model of As exposure. The mRNA stability and protein level of genes identified through RNA sequencing were measured. () modification was detected by methylated RNA immunoprecipitation-quantitative real-time polymerase chain reason (qPCR). The binding ability of insulin-like growth factor 2 binding protein 2 to the gene of interest was detected by RNA-binding protein immunoprecipitation-qPCR. Intracellular S-adenosylmethionine (SAM) and methyltransferase activity were determined by liquid chromatography-tandem mass spectrometry (LC-MS/MS) and colorimetry, respectively. methyltransferase (As3MT) knockdown or SAM supplementation and folic acid (FA) supplementation were used to evaluate the protective effect. A case-control study verified the findings.
RESULTS
Sizes of fetuses (exposed to 1.5 and ) and placentas (exposed to ) were lower in As-exposed mice. More trophoblasts accumulated and the expression of markers of interstitial invasion was lower in the mouse group in comparison with control. Placental RNA sequencing identified cysteine-rich angiogenic inducer 61 () as a candidate gene of interest. Mechanistically, mice and cells exposed to As had lower protein expression of CYR61, and this was attributed to a lower incidence of . Furthermore, cells exposed to As had lower methyltransferase activity, suggesting that this could be the mechanism by which was affected. Depletion of intracellular SAM, a cofactor for methyltransferase catalytic domain, partially contributed to As-induced methyltransferase activity reduction. Either As3MT knockdown or SAM supplementation attenuated As-induced down-regulation. In mice, FA supplementation rescued As-induced defective trophoblastic invasion and FGR. In humans, a negative correlation between maternal urinary As and plasma CYR61 was observed in infants who were small for gestational age.
DISCUSSION
Using and models, we found that intracellular SAM depletion-mediated down-regulation partially contributed to As-induced defective trophoblastic invasion and FGR. https://doi.org/10.1289/EHP12207.
背景
几项流行病学研究表明,母体砷(As)暴露会增加胎儿生长受限(FGR)的风险,但具体机制尚不清楚。
目的
本研究旨在探讨妊娠期 As 暴露对胎盘和胎儿发育的影响及其潜在机制。
方法
通过饮水使孕鼠在整个孕期暴露于 0.15、1.5 和 。测量胎儿和胎盘的大小、胎盘组织病理学和糖原含量。进行胎盘 RNA 测序。将人滋养层细胞暴露于 以建立 As 暴露的 模型。通过 RNA 测序鉴定的基因的 mRNA 稳定性和蛋白水平进行测量。通过甲基化 RNA 免疫沉淀-定量实时聚合酶链反应(qPCR)检测 修饰。通过 RNA 结合蛋白免疫沉淀-qPCR 检测胰岛素样生长因子 2 结合蛋白 2 与目的基因的结合能力。通过液相色谱-串联质谱(LC-MS/MS)和比色法分别测定细胞内 S-腺苷甲硫氨酸(SAM)和甲基转移酶活性。使用 As3MT 敲低或 SAM 补充和叶酸(FA)补充来评估保护作用。病例对照研究验证了这些发现。
结果
暴露于 1.5 和 的胎儿(暴露于 1.5 和 )和胎盘(暴露于 )的大小均较低。与对照组相比, 组中更多的滋养层细胞堆积,间质浸润标志物的表达水平降低。胎盘 RNA 测序鉴定出富含半胱氨酸的血管生成诱导因子 61( )为候选目的基因。从机制上讲,暴露于 As 的小鼠和细胞的 CYR61 蛋白表达较低,这归因于 发生率较低。此外,暴露于 As 的细胞的甲基转移酶活性较低,这表明这可能是 受到影响的机制。细胞内 SAM( 甲基转移酶催化结构域的辅助因子)的耗竭部分导致 As 诱导的甲基转移酶活性降低。As3MT 敲低或 SAM 补充均可减轻 As 诱导的 下调。在小鼠中,FA 补充可挽救 As 诱导的滋养层侵袭缺陷和 FGR。在人类中,在宫内生长受限的婴儿中观察到母体尿砷与血浆 CYR61 呈负相关。
讨论
使用 和 模型,我们发现细胞内 SAM 耗竭介导的 下调部分导致 As 诱导的滋养层侵袭缺陷和 FGR。https://doi.org/10.1289/EHP12207。
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