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Glia. 2007 Aug 1;55(10):1023-33.

TGF-beta1/SMAD signaling induces astrocyte fate commitment in vitro: implications for radial glia development.

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1
Departamento de Anatomia, Instituto de Ciências Biomédicas, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil.

Abstract

Radial glial (RG) cells are specialized type of cell, which functions as neuronal precursors and scaffolding guides to migrating neurons during cerebral cortex development. After neurogenesis and migration are completed, most of RG cells transform into astrocytes. Mechanism and molecules involved in this process are not completely elucidated. We previously demonstrated that neurons activate the promoter of the astrocyte maturation marker GFAP in astrocytes by secretion of transforming growth factor beta 1 (TGF-beta1) in vitro. Here, we studied the role of neurons and TGF-beta1 pathway in RG differentiation. To address this question, we employed cortical progenitor cultures enriched in GLAST/nestin double-labeled cells, markers of RG cells. TGF-beta1 and conditioned medium derived from neuron-astrocyte cocultures (CM) decreased the number of cells expressing the precursor marker nestin and increased that expressing GFAP in cortical progenitor cultures. These events were impaired by addition of neutralizing antibodies against TGF-beta1. Increase in the number of GFAP positive cells was associated with Smads 2/3 nuclear translocation, a hallmark of TGF-beta1 pathway activation. PCR-assays revealed a decrease in the levels of mRNA for the RG marker, BLBP (brain lipid binding protein), due to TGF-beta1 and CM treatment. We further identified TGF-beta1 receptor in cortical progenitor cultures suggesting that these cells might be target for TGF-beta1 during development. Our work provides strong evidence that TGF-beta1 might be a novel factor involved in RG-astrocyte transformation and highlights the role of neuron-glia interaction in this process.

PMID:
17549683
DOI:
10.1002/glia.20522
[Indexed for MEDLINE]
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