Nanomaterials (Jul 2020)

Uptake of Cerium Dioxide Nanoparticles and Impact on Viability, Differentiation and Functions of Primary Trophoblast Cells from Human Placenta

  • Margaux Nedder,
  • Sonja Boland,
  • Stéphanie Devineau,
  • Amal Zerrad-Saadi,
  • Jasmina Rogozarski,
  • René Lai-Kuen,
  • Ibtissem Baya,
  • Jean Guibourdenche,
  • Francoise Vibert,
  • Audrey Chissey,
  • Sophie Gil,
  • Xavier Coumoul,
  • Thierry Fournier,
  • Ioana Ferecatu

DOI
https://doi.org/10.3390/nano10071309
Journal volume & issue
Vol. 10, no. 7
p. 1309

Abstract

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The human placenta is at the interface between maternal and fetal circulations, and is crucial for fetal development. The nanoparticles of cerium dioxide (CeO2 NPs) from air pollution are an unevaluated risk during pregnancy. Assessing the consequences of placenta exposure to CeO2 NPs could contribute to a better understanding of NPs’ effect on the development and functions of the placenta and pregnancy outcome. We used primary villous cytotrophoblasts purified from term human placenta, with a wide range of CeO2 NPs concentrations (0.1–101 μg/cm2) and exposure time (24–72 h), to assess trophoblast uptake, toxicity and impact on trophoblast differentiation and endocrine function. We have shown the capacity of both cytotrophoblasts and syncytiotrophoblasts to internalize CeO2 NPs. CeO2 NPs affected trophoblast metabolic activity in a dose and time dependency, induced caspase activation and a LDH release in the absence of oxidative stress. CeO2 NPs decreased the fusion capacity of cytotrophoblasts to form a syncytiotrophoblast and disturbed secretion of the pregnancy hormones hCG, hPL, PlGF, P4 and E2, in accordance with NPs concentration. This is the first study on the impact of CeO2 NPs using human primary trophoblasts that decrypts their toxicity and impact on placental formation and functions.

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