Drug treatment alters performance in a neural microphysiological system of information processing

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Dades bibliogràfiques
Publicat a:	bioRxiv (Jan 29, 2025)
Autor principal:	Watmuff, Bradley
Altres autors:	Forough Habibollahi, Desouza, Candice, Khajehnejad, Moein, Loeffler, Alon, Koby Baranes, Poulin, Noah, Kotter, Mark, Kagan, Brett
Publicat:	Cold Spring Harbor Laboratory Press
Matèries:	Neurogenins Information processing Carbamazepine Glutamatergic transmission Dimethyl sulfoxide Seizures Phenytoin Hyperactivity Neurological diseases Information systems
Accés en línia:	Citation/Abstract Full text outside of ProQuest
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Descripció
Resum:	Assessment of pharmacological intervention on in vitro neural systems often emphasizes molecular and structural changes. However, neural systems fundamentally process and act on information. For preclinical assays to predict drug efficacy, they must model these physiological functions. DishBrain, an in vitro assay embodying a neural system in a simulated game-world, enables quantification of information-processing capacity and dose-response profiling. Hyperactive glutamatergic dysregulation is linked to many neurological disorders. Inducible overexpression of neurogenin 2 (NGN2) in hiPSCs generated glutamatergic cultures with dysregulated hyperactivity. Anti-seizure medications (ASMs) were trialed on this model within a game-world using closed-loop electrophysiological stimulation and recordings. MEA data from day 21 of differentiation revealed significant electrophysiological development. Treatments included dimethyl sulfoxide (DMSO), phenytoin, perampanel, or carbamazepine. Carbamazepine 200 μM significantly reduced firing rates and improved gameplay metrics, such as hit/miss ratio and rally length. This marks the first demonstration of altered synthetic biological intelligence (SBI) in a neural model after drug treatment. Notably, only inhibitory compounds enhanced goal-directed activity, linking glutamatergic attenuation to performance. Neurocomputational analysis revealed nuanced pharmacological responses during closed-loop stimulation, highlighting insights beyond spontaneous activity metrics.Competing Interest StatementBW, FH, CD, AL, and BJK are employed by Cortical Labs Pte Ltd, a for-profit company with an interest in the commercial viability of synthetic biological intelligence and related patents. BW, FH, AL and BJK hold an interest in Cortical Labs Pte Ltd.Footnotes* https://osf.io/xwf7v/?view\_only=c731e5dbceeb4bf98032b9c5e0449e76
ISSN:	2692-8205
DOI:	10.1101/2025.01.27.635163
Font:	Biological Science Database