Abstract
The study of neurological disorders requires experimentation on human neurons throughout their development. Primary neurons can be difficult to obtain, and animal models may not fully recapitulate phenotypes observed in human neurons. Human neuronal culturing schemes which contain a balanced mixture of excitatory and inhibitory neurons that resemble physiological ratios seen in vivo will be useful to probe the neurological basis of excitation-inhibition (E-I) balance. Here, we describe a method for directly inducing a homogenous population of cortical excitatory neurons and cortical interneurons from human pluripotent stem cells, as well as the generation of mixed cultures using these induced neurons. The obtained cells display robust neuronal synchronous network activity as well as complex morphologies that are amenable to studies probing the molecular and cellular basis of disease mutations or other aspects of neuronal and synaptic development.
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