Abstract
Cortical interneurons are GABAergic inhibitory cells that connect locally in the neocortex and play a pivotal role in shaping cortical network activities. Dysfunction of these cells is believed to lead to runaway excitation underlying seizure-based diseases, such as epilepsy, autism and schizophrenia. There is a growing interest in using cortical interneurons derived from human pluripotent stem cells for understanding their complex development and for modeling neuropsychiatric diseases. Here, we report the identification of a novel role of transforming growth factor β (TGFβ) signaling in modulating interneuron progenitor maintenance and neuronal differentiation. TGFβ signaling inhibition suppresses terminal differentiation of interneuron progenitors, while exogenous TGFβ3 accelerates the transition of progenitors into postmitotic neurons. We provide evidence that TGFb signaling exerts this function via regulating cell cycle length of the NKX2.1+ neural progenitors. Together, the present study represents a useful platform for studying human interneuron development and interneuron-associated neurological diseases with human pluripotent stem cells.
Highlights
Cortical interneurons are cells that connect only with nearby neurons in the neocortex and express the inhibitory neurotransmitter gamma-amino butyric acid (GABA)
Cortical interneuron differentiation of hESCs To generate medial ganglionic eminence (MGE)-derived cortical interneurons, hESCs are induced towards forebrain neural progenitors by dual-Smad inhibition, followed by ventral patterning of these progenitors by Sonic Hedgehog (SHH) and PM [20,21,22]
This study identifies a new role for TGF signaling in cortical interneuron neurogenesis
Summary
Cortical interneurons are cells that connect only with nearby neurons in the neocortex and express the inhibitory neurotransmitter gamma-amino butyric acid (GABA). Despite these common features, interneurons display huge diversity in morphology, physiology and marker expression [1]. NKX2.1 has a critical function to induce LHX6, a gene required for specification and migration of MGE-derived GABAergic interneurons [12, 13]. After migrating to the cortex, these LHX6+ neurons mature in situ into PV and SST cortical interneurons [11, 12, 14]
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