Publikation: Human neural organoid microphysiological systems show the building blocks necessary for basic learning and memory
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2025
Autor:innen
Alam El Din, Dowlette-Mary
Moenkemoeller, Leah
Loeffler, Alon
Habibollahi, Forough
Schenkman, Jack
Mitra, Amitav
van der Molen, Tjitse
Ding, Lixuan
Laird, Jason
Schenke, Maren
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Deutsche Forschungsgemeinschaft (DFG): 507269789
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Core Facility der Universität Konstanz
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Communications Biology. Springer. 2025, 8(1), 1237. eISSN 2399-3642. Verfügbar unter: doi: 10.1038/s42003-025-08632-5
Zusammenfassung
Brain Microphysiological Systems, including neural organoids derived from human induced pluripotent stem cells, offer a unique lens to study the intricate workings of the human brain. This paper investigates the foundational elements of learning and memory in neural organoids by quantifying immediate early gene expression in response to chemical modulation, input-specific short- and long-term synaptic plasticity, neuronal network dynamics, connectivity, and criticality to demonstrate the utility of these organoids in basic science research. Neural organoids showed synapse formation, glutamatergic and GABAergic receptor expression, immediate early gene expression basally and evoked, functional connectivity, criticality, and synaptic plasticity in response to theta-burst stimulation. In addition, pharmacological interventions on GABAergic and glutamatergic receptors and input-specific theta-burst stimulation further shed light on the capacity of neural organoids to mirror synaptic modulation, specifically short- and long-term potentiation and depression, demonstrating their potential as tools for studying neurophysiological and neurological processes and informing therapeutic strategies for diseases.
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570 Biowissenschaften, Biologie
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ALAM EL DIN, Dowlette-Mary, Leah MOENKEMOELLER, Alon LOEFFLER, Forough HABIBOLLAHI, Jack SCHENKMAN, Amitav MITRA, Tjitse VAN DER MOLEN, Lixuan DING, Jason LAIRD, Maren SCHENKE, Erik C. JOHNSON, Brett J. KAGAN, Thomas HARTUNG, Lena SMIRNOVA, 2025. Human neural organoid microphysiological systems show the building blocks necessary for basic learning and memory. In: Communications Biology. Springer. 2025, 8(1), 1237. eISSN 2399-3642. Verfügbar unter: doi: 10.1038/s42003-025-08632-5BibTex
@article{AlamElDin2025-08-16Human-76429,
title={Human neural organoid microphysiological systems show the building blocks necessary for basic learning and memory},
year={2025},
doi={10.1038/s42003-025-08632-5},
number={1},
volume={8},
journal={Communications Biology},
author={Alam El Din, Dowlette-Mary and Moenkemoeller, Leah and Loeffler, Alon and Habibollahi, Forough and Schenkman, Jack and Mitra, Amitav and van der Molen, Tjitse and Ding, Lixuan and Laird, Jason and Schenke, Maren and Johnson, Erik C. and Kagan, Brett J. and Hartung, Thomas and Smirnova, Lena},
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