Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation

Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation

Neurotoxicity is mediated by a variety of modes-of-actions leading to disturbance of neuronal function. In order to screen larger numbers of compounds for their neurotoxic potential, in vitro functional neuronal networks (NN) might be helpful tools. We established and characterized human NN (hNN) fr...

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Main Authors: Laura Nimtz, Julia Hartmann, Julia Tigges, Stefan Masjosthusmann, Martin Schmuck, Eike Keßel, Stephan Theiss, Karl Köhrer, Patrick Petzsch, James Adjaye, Claudia Wigmann, Dagmar Wieczorek, Barbara Hildebrandt, Farina Bendt, Ulrike Hübenthal, Gabriele Brockerhoff, Ellen Fritsche
Format: Article
Language:English
Published: Elsevier 2020-05-01
Series:Stem Cell Research
Subjects:
Neurotoxicology
Stem cell
hiPSC-NPC
MEA
Neuronal network
Electrical activity
Online Access:http://www.sciencedirect.com/science/article/pii/S1873506120300659
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spelling doaj-6ce21a344da041f7ac23989029624edd2020-11-25T03:22:06ZengElsevierStem Cell Research1873-50612020-05-0145Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluationLaura Nimtz0Julia Hartmann1Julia Tigges2Stefan Masjosthusmann3Martin Schmuck4Eike Keßel5Stephan Theiss6Karl Köhrer7Patrick Petzsch8James Adjaye9Claudia Wigmann10Dagmar Wieczorek11Barbara Hildebrandt12Farina Bendt13Ulrike Hübenthal14Gabriele Brockerhoff15Ellen Fritsche16IUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, Germany; Department of Biophysics, Ruhr-University Bochum, Bochum, GermanyMedical Faculty, Institute of Clinical Neuroscience and Medical Psychology, Heinrich-Heine-University, Duesseldorf, GermanyBiological and Medical Research Centre (BMFZ), Medical Faculty, Heinrich-Heine-University, Universitätsstraße 1, 40225 Duesseldorf, GermanyBiological and Medical Research Centre (BMFZ), Medical Faculty, Heinrich-Heine-University, Universitätsstraße 1, 40225 Duesseldorf, GermanyMedical Faculty, Institute for Stem Cell Research & Regenerative Medicine, Heinrich-Heine-University, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyMedical Faculty, Institute of Human Genetics, Heinrich-Heine-University, Duesseldorf, GermanyMedical Faculty, Institute of Human Genetics, Heinrich-Heine-University, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, GermanyIUF - Leibniz Research Institute for Environmental Medicine, Duesseldorf, Germany; Medical Faculty, Heinrich-Heine-University, Düsseldorf, Germany; Corresponding author at: IUF - Leibniz Institute for Environmental Medicine, Auf'm Hennekamp 50, 40225 Duesseldorf, Germany.Neurotoxicity is mediated by a variety of modes-of-actions leading to disturbance of neuronal function. In order to screen larger numbers of compounds for their neurotoxic potential, in vitro functional neuronal networks (NN) might be helpful tools. We established and characterized human NN (hNN) from hiPSC-derived neural progenitor cells by comparing hNN formation with two different differentiation media: in presence (CINDA) and absence (neural differentiation medium (NDM)) of maturation-supporting factors. As a NN control we included differentiating rat NN (rNN) in the study. Gene/protein expression and electrical activity from in vitro developing NN were assessed at multiple time points. Transcriptomes of 5, 14 and 28 days in vitro CINDA-grown hNN were compared to gene expression profiles of in vivo human developing brains. Molecular expression analyses as well as measures of electrical activity indicate that NN mature into neurons of different subtypes and astrocytes over time. In contrast to rNN, hNN are less electrically active within the same period of differentiation time, yet hNN grown in CINDA medium develop higher firing rates than hNN without supplements. Challenge of NN with neuronal receptor stimulators and inhibitors demonstrate presence of inhibitory, GABAergic neurons, whereas glutamatergic responses are limited. hiPSC-derived GABAergic hNN grown in CINDA medium might be a useful tool as part of an in vitro battery for assessing neurotoxicity.http://www.sciencedirect.com/science/article/pii/S1873506120300659NeurotoxicologyStem cellhiPSC-NPCMEANeuronal networkElectrical activity
collection DOAJ
language English
format Article
sources DOAJ
author Laura Nimtz
Julia Hartmann
Julia Tigges
Stefan Masjosthusmann
Martin Schmuck
Eike Keßel
Stephan Theiss
Karl Köhrer
Patrick Petzsch
James Adjaye
Claudia Wigmann
Dagmar Wieczorek
Barbara Hildebrandt
Farina Bendt
Ulrike Hübenthal
Gabriele Brockerhoff
Ellen Fritsche
spellingShingle Laura Nimtz
Julia Hartmann
Julia Tigges
Stefan Masjosthusmann
Martin Schmuck
Eike Keßel
Stephan Theiss
Karl Köhrer
Patrick Petzsch
James Adjaye
Claudia Wigmann
Dagmar Wieczorek
Barbara Hildebrandt
Farina Bendt
Ulrike Hübenthal
Gabriele Brockerhoff
Ellen Fritsche
Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
Stem Cell Research
Neurotoxicology
Stem cell
hiPSC-NPC
MEA
Neuronal network
Electrical activity
author_facet Laura Nimtz
Julia Hartmann
Julia Tigges
Stefan Masjosthusmann
Martin Schmuck
Eike Keßel
Stephan Theiss
Karl Köhrer
Patrick Petzsch
James Adjaye
Claudia Wigmann
Dagmar Wieczorek
Barbara Hildebrandt
Farina Bendt
Ulrike Hübenthal
Gabriele Brockerhoff
Ellen Fritsche
author_sort Laura Nimtz
title Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
title_short Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
title_full Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
title_fullStr Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
title_full_unstemmed Characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
title_sort characterization and application of electrically active neuronal networks established from human induced pluripotent stem cell-derived neural progenitor cells for neurotoxicity evaluation
publisher Elsevier
series Stem Cell Research
issn 1873-5061
publishDate 2020-05-01
description Neurotoxicity is mediated by a variety of modes-of-actions leading to disturbance of neuronal function. In order to screen larger numbers of compounds for their neurotoxic potential, in vitro functional neuronal networks (NN) might be helpful tools. We established and characterized human NN (hNN) from hiPSC-derived neural progenitor cells by comparing hNN formation with two different differentiation media: in presence (CINDA) and absence (neural differentiation medium (NDM)) of maturation-supporting factors. As a NN control we included differentiating rat NN (rNN) in the study. Gene/protein expression and electrical activity from in vitro developing NN were assessed at multiple time points. Transcriptomes of 5, 14 and 28 days in vitro CINDA-grown hNN were compared to gene expression profiles of in vivo human developing brains. Molecular expression analyses as well as measures of electrical activity indicate that NN mature into neurons of different subtypes and astrocytes over time. In contrast to rNN, hNN are less electrically active within the same period of differentiation time, yet hNN grown in CINDA medium develop higher firing rates than hNN without supplements. Challenge of NN with neuronal receptor stimulators and inhibitors demonstrate presence of inhibitory, GABAergic neurons, whereas glutamatergic responses are limited. hiPSC-derived GABAergic hNN grown in CINDA medium might be a useful tool as part of an in vitro battery for assessing neurotoxicity.
topic Neurotoxicology
Stem cell
hiPSC-NPC
MEA
Neuronal network
Electrical activity
url http://www.sciencedirect.com/science/article/pii/S1873506120300659
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