4.6 Article

Angiogenic Function of Human Placental Endothelial Cells in Severe Fetal Growth Restriction Is Not Rescued by Individual Extracellular Matrix Proteins

Journal

CELLS
Volume 12, Issue 19, Pages -

Publisher

MDPI
DOI: 10.3390/cells12192339

Keywords

fetal growth restriction; umbilical artery Dopplers; human placental endothelial cells; extracellular matrix; angiogenesis

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Severe fetal growth restriction (FGR) is characterized by impaired angiogenesis, due to abnormal placental stromal composition. This study aimed to investigate the impact of individual extracellular matrix (ECM) proteins on placental angiogenic properties in severe FGR. The findings suggest that the overall placental stroma, rather than singular ECM proteins, is responsible for the angiogenic defects seen in severe FGR. Further investigations into stromal composition, architecture, stiffness, growth factor sequestration, and remodeling capacity are crucial for understanding the role of ECM in impaired angiogenesis in severe FGR.
Severe fetal growth restriction (FGR) is characterized by increased placental vascular resistance resulting from aberrant angiogenesis. Interactions between endothelial cells (ECs) and the extracellular matrix (ECM) are critical to the complex process of angiogenesis. We have previously found that placental stromal abnormalities contribute to impaired angiogenesis in severe FGR. The objective of this research is to better characterize the effect of individual ECM proteins on placental angiogenic properties in the setting of severe FGR. ECs were isolated from human placentae, either control or affected by severe FGR, and subjected to a series of experiments to interrogate the role of ECM proteins on adhesion, proliferation, migration, and apoptosis. We found impaired proliferation and migration of growth-restricted ECs. Although individual substrates did not substantially impact migratory capacity, collagens I, III, and IV partially mitigated proliferative defects seen in FGR ECs. Differences in adhesion and apoptosis between control and FGR ECs were not evident. Our findings demonstrate that placental angiogenic defects that characterize severe FGR cannot be explained by a singular ECM protein, but rather, the placental stroma as a whole. Further investigation of the effects of stromal composition, architecture, stiffness, growth factor sequestration, and capacity for remodeling is essential to better understand the role of ECM in impaired angiogenesis in severe FGR.

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