Abstract

Fetal growth restriction (FGR) is a common pregnancy complication and a risk factor for infant death. Most patients with FGR have preeclampsia, gestational diabetes mellitus, or other etiologies, making it difficult to determine the specific molecular mechanisms underlying FGR. In this study, an integrated analysis was performed using gene expression profiles obtained from Gene Expression Omnibus. Differentially expressed genes (DEGs) between healthy and FGR groups were screened and evaluated by functional enrichment and network analyses. In total, 80 common DEGs (FDR < 0.05) and 17 significant DEGs (FDR < 0.005) were screened. These genes were enriched for functions in immune system dysregulation in the placenta based on Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway analyses. Among hub genes identified as candidates for FGR and fetal reprogramming, LEP, GBP5, HLA–DQA1, and CTGF were checked by quantitative polymerase chain reaction, immunohistochemistry, and western blot assays in placental tissues. Immune imbalance could cause hypoxia environment in placenta tissues, thus regulating the fetal-reprogramming. A significant association between CTGF and HIF-1α levels was confirmed in placenta tissues and HTR8 cells under hypoxia. Our results suggest that an immune imbalance in the placenta causes FGR without other complications. We provide the first evidence for roles of CTGF in FGR and show that CTGF may function via HIF-1α-related pathways. Our findings elucidate the pathogenesis of FGR and provide new therapeutic targets.

Highlights

  • Fetal growth restriction (FGR) is a common pregnancy complication characterized by the failure of the fetus to reach its optimal growth potential

  • We identified 17 significant Differentially expressed genes (DEGs) (Table 1) and 8 specific hub genes (Table 3) associated with FGR based on an integrated analysis of a GSM cohort

  • According to Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses (Supplementary Tables 3 and 4), the DEGs in FGR placentas were mainly enriched for functions and pathways related to an immunologic imbalance

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Summary

Introduction

Fetal growth restriction (FGR) is a common pregnancy complication characterized by the failure of the fetus to reach its optimal growth potential. Fetuses with FGR could catch up in early life, they still have a higher risk for chronic metabolic problems as adults, including type II diabetes, insulin resistance, metabolic syndrome, and cardiovascular diseases (Gatford et al, 2010; Morrison et al, 2016; Darendeliler, 2019). Previous studies have included patients with multiples clinical diseases, including preeclampsia, gestational diabetes mellitus, and twin births (Deyssenroth et al, 2017; Awamleh et al, 2019; Gibbs et al, 2019; Majewska et al, 2019), and studies focusing exclusively on patients with FGR are urgently needed to provide insight into the basic pathogenesis

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