Dillan Pienaar scite author profile

Preeclampsia is a pregnancy-specific cardiovascular disorder, involving significant maternal endothelial dysfunction. Although inappropriate placentation due to aberrant angiogenesis, inflammation and shallow trophoblast invasion are the root causes of preeclampsia, pathogenic mechanisms are poorly understood, particularly in early pregnancy. Here, we first confirm the abnormal expression of important vascular and inflammatory proteins, FK506-binding protein-like (FKBPL) and galectin-3 (Gal-3), in human plasma and placental tissues from women with preeclampsia and normotensive controls. We then employ a three-dimensional microfluidic placental model incorporating human umbilical vein endothelial cells (HUVECs) and a first trimester trophoblast cell line (ACH-3P) to investigate FKBPL and Gal-3 signaling in inflammatory conditions. In human samples, both circulating (n = 17 controls; n = 30 preeclampsia) and placental (n ≥ 6) FKBPL and Gal-3 levels were increased in preeclampsia compared to controls (plasma: FKBPL, p < 0.0001; Gal-3, p < 0.01; placenta: FKBPL, p < 0.05; Gal-3, p < 0.01), indicative of vascular dysfunction in preeclampsia. In our placenta-on-a-chip model, we show that endothelial cells are critical for trophoblast-mediated migration and that trophoblasts effectively remodel endothelial vascular networks. Inflammatory cytokine tumour necrosis factor-α (10 ng/mL) modulates both FKBPL and Gal-3 signaling in conjunction with trophoblast migration and impairs vascular network formation (p < 0.005). Our placenta-on-a-chip recapitulates aspects of inappropriate placental development and vascular dysfunction in preeclampsia.

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A placenta-on-a-chip model to determine the regulation of FKBPL and galectin-3 in preeclampsia

Ghorbanpour

Richards

Pienaar

et al. 2022

Preprint

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Preeclampsia is a pregnancy-specific cardiovascular disorder and a leading cause of morbidity and mortality in pregnancy. Although inappropriate placental development and growth are recognized as root causes of preeclampsia, pathogenic mechanisms are poorly understood due to limited models of the disease, particularly in early pregnancy. Here, we first confirm the aberrant expression of important vascular and inflammatory proteins, FK506-binding protein like (FKBPL) and galectin-3 (Gal-3), in human plasma and placental tissue from women with/without preeclampsia. We then employ a 3D microfluidic placental model incorporating human umbilical vein endothelial cells (HUVECs) and a first trimester trophoblast cell line (ACH-3P) to investigate FKBPL and Gal-3 signalling in inflammatory conditions. In human samples, both circulating (n = 17 controls; n = 30 preeclampsia) and placental (n ≥ 6) FKBPL and Gal-3 levels were increased in preeclampsia compared to heathy controls (plasma: FKBPL, p < 0.0001; Gal-3, p < 0.01; placenta: FKBPL, p < 0.05; Gal-3, p < 0.01), indicative of vascular dysfunction in preeclampsia. In our placenta-on-a-chip model, we show that endothelial cells are critical for trophoblast-mediated migration and that trophoblasts effectively remodel the vasculature recapitulating placental development. Inflammatory cytokine tumour necrosis factor-α (10ng/ml) modulates both FKBPL and Gal-3 signalling in conjunction with trophoblast migration and impairs vasculature (p < 0.005). Our placenta-on-a-chip recapitulates aspects of aberrant placentation in preeclampsia and represents a promising platform for further placental research.

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Dillan Pienaar

Mechanisms of Key Innate Immune Cells in Early- and Late-Onset Preeclampsia

A placenta-on-a-chip model to determine the regulation of FKBPL and galectin-3 in preeclampsia

A placenta-on-a-chip model to determine the regulation of FKBPL and galectin-3 in preeclampsia

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