Publikation: Antidepressant Paroxetine Exerts Developmental Neurotoxicity in an iPSC-Derived 3D Human Brain Model
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Datum
2020
Autor:innen
Zhong, Xiali
Harris, Georgina
Smirnova, Lena
Zufferey, Valentin
de Cássia da Silveira e Sá, Rita
Baldino Russo, Fabiele
Baleeiro Beltrao Braga, Patricia Cristina
Chesnut, Megan
Pamies, David
et al.
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European Union (EU): 681002
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EUToxRisk21
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Open Access Gold
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Core Facility der Universität Konstanz
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Published
Erschienen in
Frontiers in Cellular Neuroscience. Frontiers Research Foundation. 2020, 14, 25. eISSN 1662-5102. Available under: doi: 10.3389/fncel.2020.00025
Zusammenfassung
Selective serotonin reuptake inhibitors (SSRIs) are frequently used to treat depression during pregnancy. Various concerns have been raised about the possible effects of these drugs on fetal development. Current developmental neurotoxicity (DNT) testing conducted in rodents is expensive, time-consuming, and does not necessarily represent human pathophysiology. A human, in vitro testing battery to cover key events of brain development, could potentially overcome these challenges. In this study, we assess the DNT of paroxetine—a widely used SSRI which has shown contradictory evidence regarding effects on human brain development using a versatile, organotypic human induced pluripotent stem cell (iPSC)-derived brain model (BrainSpheres). At therapeutic blood concentrations, which lie between 20 and 60 ng/ml, Paroxetine led to an 80% decrease in the expression of synaptic markers, a 60% decrease in neurite outgrowth and a 40–75% decrease in the overall oligodendrocyte cell population, compared to controls. These results were consistently shown in two different iPSC lines and indicate that relevant therapeutic concentrations of Paroxetine induce brain cell development abnormalities which could lead to adverse effects.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
570 Biowissenschaften, Biologie
Schlagwörter
paroxetine, SSRI, organoid, neurotoxicity, developmental neurotoxicity, 3D, iPSC
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ZHONG, Xiali, Georgina HARRIS, Lena SMIRNOVA, Valentin ZUFFEREY, Rita DE CÁSSIA DA SILVEIRA E SÁ, Fabiele BALDINO RUSSO, Patricia Cristina BALEEIRO BELTRAO BRAGA, Megan CHESNUT, Thomas HARTUNG, David PAMIES, 2020. Antidepressant Paroxetine Exerts Developmental Neurotoxicity in an iPSC-Derived 3D Human Brain Model. In: Frontiers in Cellular Neuroscience. Frontiers Research Foundation. 2020, 14, 25. eISSN 1662-5102. Available under: doi: 10.3389/fncel.2020.00025BibTex
@article{Zhong2020-02-21Antid-48821,
year={2020},
doi={10.3389/fncel.2020.00025},
title={Antidepressant Paroxetine Exerts Developmental Neurotoxicity in an iPSC-Derived 3D Human Brain Model},
volume={14},
journal={Frontiers in Cellular Neuroscience},
author={Zhong, Xiali and Harris, Georgina and Smirnova, Lena and Zufferey, Valentin and de Cássia da Silveira e Sá, Rita and Baldino Russo, Fabiele and Baleeiro Beltrao Braga, Patricia Cristina and Chesnut, Megan and Hartung, Thomas and Pamies, David},
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<dcterms:abstract xml:lang="eng">Selective serotonin reuptake inhibitors (SSRIs) are frequently used to treat depression during pregnancy. Various concerns have been raised about the possible effects of these drugs on fetal development. Current developmental neurotoxicity (DNT) testing conducted in rodents is expensive, time-consuming, and does not necessarily represent human pathophysiology. A human, in vitro testing battery to cover key events of brain development, could potentially overcome these challenges. In this study, we assess the DNT of paroxetine—a widely used SSRI which has shown contradictory evidence regarding effects on human brain development using a versatile, organotypic human induced pluripotent stem cell (iPSC)-derived brain model (BrainSpheres). At therapeutic blood concentrations, which lie between 20 and 60 ng/ml, Paroxetine led to an 80% decrease in the expression of synaptic markers, a 60% decrease in neurite outgrowth and a 40–75% decrease in the overall oligodendrocyte cell population, compared to controls. These results were consistently shown in two different iPSC lines and indicate that relevant therapeutic concentrations of Paroxetine induce brain cell development abnormalities which could lead to adverse effects.</dcterms:abstract>
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