AUTHOR=Wells Timothy , Rough Kirsty , Carter David A.

TITLE=Transcription Mapping of Embryonic Rat Brain Reveals EGR-1 Induction in SOX2+ Neural Progenitor Cells

JOURNAL=Frontiers in Molecular Neuroscience

VOLUME=4

YEAR=2011

URL=https://www.frontiersin.org/journals/molecular-neuroscience/articles/10.3389/fnmol.2011.00006

DOI=10.3389/fnmol.2011.00006

ISSN=1662-5099

ABSTRACT=<p>Neuronal expression of the early growth response-1 (EGR-1; NGFI-A/Zif268) transcription factor has been extensively studied in the adult mammalian brain and linked to aspects of mature physiological/behavioral function. In contrast, this factor has not been studied in detail in the embryonic brain. Here, we used a fluorescent protein-encoding <italic>Egr-1</italic> transgene to map the cellular distribution of <italic>Egr-1</italic> transcription in embryonic rat brain. We identified a novel, widely distributed population of GFP<sup>+</sup> cells, characterized as a precursor/stem cell phenotype by co-localization with SOX2/nestin/vimentin/S-100β and exclusion from other known cellular markers including DCX/BLBP/TBR2/NURR1. At both E18 and E20, these cells were located across the developing brain but concentrated in the subplate and intermediate zones. The transgene was also highly expressed in developing (NeuN<sup>+</sup>) striatal neurons. The authentic expression pattern that we observed for the <italic>rEgr-1</italic> transgene sequence indicates that restriction to neuronal/precursor cells is largely driven by proximal 5<sup>′</sup> sequence. Deletion of conserved <italic>Egr-1</italic> silencer (neuron restrictive silencer factor) elements did not markedly alter transcriptional activity in transfected cells; this is consistent with a dominant role for positive factors in the control of cell-specific <italic>Egr-1</italic> expression. Induction of Egr-1 in a population of SOX2<sup>+</sup> cells indicates a co-incidence of extrinsic (EGR-1) and cell-intrinsic (SOX2) cellular signals that may form a novel level of progenitor cell regulation. The wide distribution of EGR-1 signaling in SOX2<sup>+</sup> cells suggests an organizational role during late embryonic brain development.</p>