HAND1 knockdown disrupts trophoblast global gene expression

Author:

Fresch Robert1,Courtney Jennifer2,Brockway Heather34,Wilson Rebecca L.45ORCID,Jones Helen45ORCID

Affiliation:

1. Division of Maternal‐Fetal Medicine, Department of Obstetrics and Gynecology University of Cincinnati College of Medicine Cincinnati Ohio USA

2. Center for Fetal and Placental Research Cincinnati Children's Hospital Medical Center Cincinnati Ohio USA

3. Center for Scientific Review National Institutes of Health Bethesda Maryland USA

4. Department of Physiology and Aging University of Florida College of Medicine Gainesville Florida USA

5. Center for Research in Perinatal Outcomes University of Florida College of Medicine Gainesville Florida USA

Abstract

AbstractCongenital heart disease (CHD) affects nearly 1% of births annually, and CHD pregnancies carry increased risk of developing pathologies of abnormal placentation. We previously reported significant developmental impacts of disrupting Hand1, a gene associated with CHD, expression in placenta trophoblast and endothelial cells in multiple mouse models. In this study, we aimed to build upon this knowledge and characterize the mechanistic impacts of disrupting HAND1 on human placenta trophoblast and vascular endothelial cell gene expression. HAND1 gene expression was silenced in BeWo cells, a choriocarcinoma model of human cytotrophoblasts, (n = 3–9 passages) and isolated human placental microvascular endothelial cells (HPMVEC; n = 3 passages), with HAND1 siRNA for 96 h. Cells were harvested, mRNA isolated and RNA sequencing performed using the Illumina NextSeq 550 platform. Normalization and differential gene expression analyses were conducted using general linear modeling in edgeR packages. Statistical significance was determined using a log2 fold change of >1.0 or < −1.0 and unadjusted p‐value ≤0.05. Panther DB was used for overrepresentation analysis, and String DB for protein association network analysis. There was downregulation of 664 genes, and upregulation of 59 genes in BeWo cells with direct HAND1 knockdown. Overrepresentation analysis identified disruption to pathways including cell differentiation, localization, and cell projection organization. In contrast, only seven genes were changed with direct HAND1 knockdown in HPMVECs. Disruption to HAND1 expression significantly alters gene expression profile in trophoblast but not endothelial cells. This data provides further evidence that future studies on genetic perturbations in CHDs should consider the extra‐embryonic tissue in addition to the fetal heart.

Funder

Eunice Kennedy Shriver National Institute of Child Health and Human Development

Publisher

Wiley

Subject

Physiology (medical),Physiology

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