Stem Cell Reports
Volume 2, Issue 3, 11 March 2014, Pages 323-336
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Article
Intrinsically Active and Pacemaker Neurons in Pluripotent Stem Cell-Derived Neuronal Populations

https://doi.org/10.1016/j.stemcr.2014.01.006Get rights and content
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Highlights

  • PSC-neuronal assemblies harbor intrinsically active neurons (IANs)

  • IANs remain active after inhibition of fast glutamatergic synaptic transmission

  • Autonomous activities of PSC IANs depend on persistent active sodium currents

  • PSC IANs contribute to concerted network activity and have pacemaker properties

Summary

Neurons generated from pluripotent stem cells (PSCs) self-organize into functional neuronal assemblies in vitro, generating synchronous network activities. Intriguingly, PSC-derived neuronal assemblies develop spontaneous activities that are independent of external stimulation, suggesting the presence of thus far undetected intrinsically active neurons (IANs). Here, by using mouse embryonic stem cells, we provide evidence for the existence of IANs in PSC-neuronal networks based on extracellular multielectrode array and intracellular patch-clamp recordings. IANs remain active after pharmacological inhibition of fast synaptic communication and possess intrinsic mechanisms required for autonomous neuronal activity. PSC-derived IANs are functionally integrated in PSC-neuronal populations, contribute to synchronous network bursting, and exhibit pacemaker properties. The intrinsic activity and pacemaker properties of the neuronal subpopulation identified herein may be particularly relevant for interventions involving transplantation of neural tissues. IANs may be a key element in the regulation of the functional activity of grafted as well as preexisting host neuronal networks.

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