Mitochondrial dysfunction and oxidative stress in selective fetal growth restriction

IF 3 2区 医学 Q2 DEVELOPMENTAL BIOLOGY Placenta Pub Date : 2024-09-10 DOI:10.1016/j.placenta.2024.09.005
Yucheng Hu , Yuhong Lin , Jiawen Yang , Shan Wang , Li Gao , Yan Bi , Yanlin Wang
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Abstract

Introduction

Placental dysfunction is the primary cause of selective fetal growth restriction (sFGR), and the specific role of mitochondria remains unclear. This study aims to elucidate mitochondrial functional defects in sFGR placentas and explore the roles of mitochondrial genomic and epigenetic alterations in its pathogenesis.

Methods

The placental villi of MCDA twins with sFGR were collected and the morphology and number of mitochondria were observed by transmission electron microscopy. Meanwhile, the levels of reactive oxygen species (ROS), ATP and oxidative damage markers were assessed. Mitochondrial DNA (mtDNA) copy number detection, targeted sequencing and methylation sequencing were performed. The expression of placental cytochrome c oxidase subunit I (COX I) and mitochondrial long non-coding RNAs (lncRNAs) were evaluated by Western blotting and qPCR.

Results

Compared with placentae from normal fetuses, pronounced mitochondrial damage within cytotrophoblast was revealed in sFGR placentae, alongside augmented mitochondrial number in syncytiotrophoblast. Enhanced oxidative stress in these placentae was evidenced by elevated markers of oxidative damage, accompanied by increased ROS production and diminished ATP generation. In sFGR placentae, a notable rise in mitochondrial copy number and one heterozygous mutation in the MT-RNR2 gene were observed, along with decreased COX Ⅰ levels, increased lncND5, lncND6, lncCyt b, and MDL1 synthesis, and decreased RMRP synthesis.

Discussion

Findings collectively confirmed an exacerbation of oxidative stress within sFGR placentae, coinciding with mitochondrial dysfunction, compromised energy production, and ultimately the failure of compensatory mechanisms to restore energy balance, which may result from mutations in the mitochondrial genome and abnormal expression of epigenetic regulatory genes.

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选择性胎儿生长受限中的线粒体功能障碍和氧化应激
引言 胎盘功能障碍是选择性胎儿生长受限(sFGR)的主要原因,而线粒体的具体作用仍不清楚。本研究旨在阐明选择性胎儿生长受限胎盘中线粒体的功能缺陷,并探讨线粒体基因组和表观遗传学改变在其发病机制中的作用。方法收集患有选择性胎儿生长受限的 MCDA 双胎的胎盘绒毛,用透射电子显微镜观察线粒体的形态和数量。同时,评估了活性氧(ROS)、ATP和氧化损伤标志物的水平。进行了线粒体 DNA(mtDNA)拷贝数检测、靶向测序和甲基化测序。结果与正常胎儿的胎盘相比,sFGR 胎盘细胞滋养细胞内的线粒体明显受损,同时合胞滋养细胞内的线粒体数量增加。这些胎盘中氧化应激的增强表现为氧化损伤标志物的升高,同时伴有 ROS 生成的增加和 ATP 生成的减少。在sFGR胎盘中,观察到线粒体拷贝数明显增加,MT-RNR2基因发生了杂合突变,COXⅠ水平下降,lncND5、lncND6、lncCyt b和MDL1合成增加,RMRP合成减少。讨论研究结果共同证实了sFGR胎盘内氧化应激的加剧,同时伴有线粒体功能障碍、能量生产受损,最终导致恢复能量平衡的代偿机制失效,这可能是线粒体基因组突变和表观遗传调控基因异常表达的结果。
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来源期刊
Placenta
Placenta 医学-发育生物学
CiteScore
6.30
自引率
10.50%
发文量
391
审稿时长
78 days
期刊介绍: Placenta publishes high-quality original articles and invited topical reviews on all aspects of human and animal placentation, and the interactions between the mother, the placenta and fetal development. Topics covered include evolution, development, genetics and epigenetics, stem cells, metabolism, transport, immunology, pathology, pharmacology, cell and molecular biology, and developmental programming. The Editors welcome studies on implantation and the endometrium, comparative placentation, the uterine and umbilical circulations, the relationship between fetal and placental development, clinical aspects of altered placental development or function, the placental membranes, the influence of paternal factors on placental development or function, and the assessment of biomarkers of placental disorders.
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