Reversal of gene dysregulation in cultured cytotrophoblasts reveals possible causes of preeclampsia
Yan Zhou, … , Michael T. McMaster, Susan J. Fisher
Yan Zhou, … , Michael T. McMaster, Susan J. Fisher
Published June 24, 2013
Citation Information: J Clin Invest. 2013;123(7):2862-2872. https://doi.org/10.1172/JCI66966.
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Reversal of gene dysregulation in cultured cytotrophoblasts reveals possible causes of preeclampsia

Abstract

During human pregnancy, a subset of placental cytotrophoblasts (CTBs) differentiates into cells that aggressively invade the uterus and its vasculature, anchoring the progeny and rerouting maternal blood to the placenta. In preeclampsia (PE), CTB invasion is limited, reducing placental perfusion and/or creating intermittent flow. This syndrome, affecting 4%–8% of pregnancies, entails maternal vascular alterations (e.g., high blood pressure, proteinuria, and edema) and, in some patients, fetal growth restriction. The only cure is removal of the faulty placenta, i.e., delivery. Previously, we showed that defective CTB differentiation contributes to the placental component of PE, but the causes were unknown. Here, we cultured CTBs isolated from PE and control placentas for 48 hours, enabling differentiation and invasion. In various severe forms of PE, transcriptomics revealed common aberrations in CTB gene expression immediately after isolation, including upregulation of SEMA3B, which resolved in culture. The addition of SEMA3B to normal CTBs inhibited invasion and recreated aspects of the PE phenotype. Additionally, SEMA3B downregulated VEGF signaling through the PI3K/AKT and GSK3 pathways, effects that were observed in PE CTBs. We propose that, in severe PE, the in vivo environment dysregulates CTB gene expression; the autocrine actions of the upregulated molecules (including SEMA3B) impair CTB differentiation, invasion and signaling; and patient-specific factors determine the signs.

Authors

Yan Zhou, Matthew J. Gormley, Nathan M. Hunkapiller, Mirhan Kapidzic, Yana Stolyarov, Victoria Feng, Masakazu Nishida, Penelope M. Drake, Katherine Bianco, Fei Wang, Michael T. McMaster, Susan J. Fisher

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Figure 3

NRP-1 and NRP-2 (protein) expression at the maternal-fetal interface in normal pregnancy and in sPE.

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NRP-1 and NRP-2 (protein) expression at the maternal-fetal interface in ...
Tissue sections were double stained with anti–cytokeratin-8/18 (CK), which reacts with all trophoblast subpopulations, and anti–NRP-1 or NRP-2. (A and B) NRP-1 expression was detected in association with villous trophoblasts. Within the uterine wall, immunoreactivity associated with invasive CTBs was upregulated as the cells moved from the surface to the deeper regions. (C and D) Endovascular CTBs that lined a maternal blood vessel (BV) were also stained. (EH) Anti–NRP-2 reacted with trophoblast and nontrophoblast cells in anchoring villi (AV) as well as interstitial and endovascular CTBs. Essentially the same staining patterns, but with weaker intensity, were observed in sPE (data not shown). CTBs were isolated from the placentas of control nPTL cases and from the placentas of women who experienced sPE. (I) Over 48 hours in culture, NRP-1 expression was upregulated in both instances but to a lesser degree in sPE. (J) Control nPTL CTBs also upregulated NRP-2. Expression of this receptor was reduced in sPE and the soluble form was more abundant. (AJ) The data shown are representative of the analysis of a minimum of 3 samples from different placentas. Scale bars: 100 μm. AV, anchoring villi.