Background: A supply of maternal thyroid hormone (thyroxine, T4) is essential for normal human fetal development. Human placental trophoblasts synthesize, secrete and take up the T4 binding protein transthyretin, providing a route for maternal T4 to enter the placenta. Transthyretin is also involved in T4 transport in other tissues such as the brain choroid plexus. Nicotine alters transthyretin synthesis and function in rat choroid plexus. If nicotine influences trophoblast turnover of transthyretin, then it may directly affect placental transfer of T4 to the developing fetus and contribute to the negative impacts of smoking on fetal growth, development and placental function.
Methods: The effect of nicotine on trophoblast uptake of Alexa-labelled transthyretin was measured using live cell imaging. The effect of nicotine on protein expression was measured by western blotting. Interactions between transthyretin, T4 and nicotine were investigated using chemical cross-linking techniques and molecular dynamic simulations.
Results: Nicotine blocks uptake of transthyretin-T4 by human placental trophoblast cells. Nicotine reduces the expression of the trophoblast scavenger receptor class B type 1 (SR-B1) that plays a role in transthyretin-T4 uptake. Molecular dynamic modelling suggests that when T4 is bound to transthyretin, nicotine binding increases tetramer stability, reducing the ability of the transthyretin-T4 complex to enter trophoblast cells.
Conclusion: Our data suggest that nicotine exposure during pregnancy reduces transplacental transport of transthyretin and T4 to the placenta and developing fetus. This may contribute to the negative effects of smoking on fetal growth, development and pregnancy viability.
Keywords: Nicotine; Thyroxine; Transthyretin; Trophoblast.
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