Functional Properties of Neurons Derived from In Vitro Reprogrammed Postnatal Astroglia

With the exception of astroglia-like cells in the neurogenic niches of the telencephalic subependymal or hippocampal subgranular zone, astroglia in all other regions of the adult mouse brain do not normally generate neurons. Previous studies have shown, however, that early postnatal cortical astrogl...

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Veröffentlicht in:	The Journal of neuroscience 2007-08, Vol.27 (32), p.8654-8664
Hauptverfasser:	Berninger, Benedikt, Costa, Marcos R, Koch, Ursula, Schroeder, Timm, Sutor, Bernd, Grothe, Benedikt, Gotz, Magdalena
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Sprache:	eng
Schlagworte:	Action Potentials - physiology Animals Animals, Newborn Astrocytes - cytology Astrocytes - physiology Cells, Cultured Mice Mice, Inbred C57BL Neurons - cytology Neurons - physiology
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creator	Berninger, Benedikt Costa, Marcos R Koch, Ursula Schroeder, Timm Sutor, Bernd Grothe, Benedikt Gotz, Magdalena
description	With the exception of astroglia-like cells in the neurogenic niches of the telencephalic subependymal or hippocampal subgranular zone, astroglia in all other regions of the adult mouse brain do not normally generate neurons. Previous studies have shown, however, that early postnatal cortical astroglia in culture can be reprogrammed to adopt a neuronal fate after forced expression of Pax6, a transcription factor (TF) required for proper neuronal specification during embryonic corticogenesis. Here we show that also the proneural genes neurogenin-2 and Mash1 (mammalian achaete schute homolog 1) possess the ability to reprogram astroglial cells from early postnatal cerebral cortex. By means of time-lapse imaging of green fluorescent astroglia, we provide direct evidence that it is indeed cells with astroglial characteristics that give rise to neurons. Using patch-clamp recordings in culture, we show that astroglia-derived neurons acquire active conductances and are capable of firing action potentials, thus displaying hallmarks of true neurons. However, independent of the TF used for reprogramming, astroglia-derived neurons appear to mature more slowly compared with embryonic-born neurons and fail to generate a functional presynaptic output within the culturing period. However, when cocultured with embryonic cortical neurons, astroglia-derived neurons receive synaptic input, demonstrating that they are competent of establishing a functional postsynaptic compartment. Our data demonstrate that single TFs are capable of inducing a remarkable functional reprogramming of astroglia toward a truly neuronal identity.
doi_str_mv	10.1523/JNEUROSCI.1615-07.2007
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However, independent of the TF used for reprogramming, astroglia-derived neurons appear to mature more slowly compared with embryonic-born neurons and fail to generate a functional presynaptic output within the culturing period. However, when cocultured with embryonic cortical neurons, astroglia-derived neurons receive synaptic input, demonstrating that they are competent of establishing a functional postsynaptic compartment. 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However, independent of the TF used for reprogramming, astroglia-derived neurons appear to mature more slowly compared with embryonic-born neurons and fail to generate a functional presynaptic output within the culturing period. However, when cocultured with embryonic cortical neurons, astroglia-derived neurons receive synaptic input, demonstrating that they are competent of establishing a functional postsynaptic compartment. 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subjects	Action Potentials - physiology Animals Animals, Newborn Astrocytes - cytology Astrocytes - physiology Cells, Cultured Mice Mice, Inbred C57BL Neurons - cytology Neurons - physiology
title	Functional Properties of Neurons Derived from In Vitro Reprogrammed Postnatal Astroglia
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