Petersilie et al. 2024 - Figure 4
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Date
2024
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Publisher
iScience
Abstract
Brain organoids derived from human pluripotent stem cells are a promising tool for studying human
neurodevelopment and related disorders. Here, we generated long-term cultures of cortical brain
organoid slices (cBOS) grown at the air-liquid interphase from regionalized cortical organoids. We show that cBOS host mature neurons and astrocytes organized in complex architecture. Whole-cell patch clamp demonstrated subthreshold synaptic inputs and action potential firing of neurons. Spontaneous intracellular calcium signals turned into synchronous large-scale oscillations upon combined disinhibition of NMDA receptors and blocking of GABAA receptors. Brief metabolic inhibition to mimic transient energy restriction in the ischemic brain induced reversible intracellular calcium loading of cBOS. Moreover, metabolic inhibition induced a reversible decline in neuronal ATP as revealed by ATeam1.03YEMK. Overall, cBOS provide a powerful platform to assess morphological and functional aspects of human neural cells in intact minimal networks and to address the pathways that drive cellular damage during brain ischemia.
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Keywords
Brain organoids, neurons, astrocytes, synaptic protein expression, electrophysiology, calcium signaling, glutamate, GABA, ATP, ischemia