Sex and age differences in social and cognitive function in offspring exposed to late gestational hypoxia

Mabry, Steve; Wilson, E Nicole; Bradshaw, Jessica L.; Gardner, Jennifer J.; Fadeyibi, Oluwadarasimi; Vera, E; Osikoya, Oluwatobiloba; Cushen, Spencer C.; Karamichos, Dimitrios; Goulopoulou, Styliani; Cunningham, Rebecca L.

doi:10.21203/rs.3.rs-2507737/v1

Cited by 1 publication

(1 citation statement)

References 172 publications

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“…The expression levels of those genes have been implicated in perinatal health issues and childhood development. They were shown to play crucial roles in various cellular processes, including transcriptional regulation (EGR1, JUNB, and MYC), immune response (PRF1), protein degradation (UBA52), and both intracellular signaling (MAPKAP1) and vesicle trafficking (STX4) [39,[45][46][47][48]. Dysregulation of these genes has been associated with adverse perinatal outcomes such as low birth weight, intrauterine growth restriction, and neonatal complications, as well as with developmental disorders in children [26,47,49].…”

Section: Discussionmentioning

confidence: 99%

Effect of Obstructive Sleep Apnea during Pregnancy on Fetal Development: Gene Expression Profile of Cord Blood

Cànaves-Gómez,

Fleischer,

Muncunill-Farreny

et al. 2024

IJMS

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Obstructive sleep apnea (OSA) is quite prevalent during pregnancy and is associated with adverse perinatal outcomes, but its potential influence on fetal development remains unclear. This study investigated maternal OSA impact on the fetus by analyzing gene expression profiles in whole cord blood (WCB). Ten women in the third trimester of pregnancy were included, five OSA and five non-OSA cases. WCB RNA expression was analyzed by microarray technology to identify differentially expressed genes (DEGs) under OSA conditions. After data normalization, 3238 genes showed significant differential expression under OSA conditions, with 2690 upregulated genes and 548 downregulated genes. Functional enrichment was conducted using gene set enrichment analysis (GSEA) applied to Gene Ontology annotations. Key biological processes involved in OSA were identified, including response to oxidative stress and hypoxia, apoptosis, insulin response and secretion, and placental development. Moreover, DEGs were confirmed through qPCR analyses in additional WCB samples (7 with OSA and 13 without OSA). This highlighted differential expression of several genes in OSA (EGR1, PFN1 and PRKAR1A), with distinct gene expression profiles observed during rapid eye movement (REM)-OSA in pregnancy (PFN1, UBA52, EGR1, STX4, MYC, JUNB, and MAPKAP). These findings suggest that OSA, particularly during REM sleep, may negatively impact various biological processes during fetal development.

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