The transcription factor Foxg1 regulates telencephalic progenitor proliferation cell autonomously, in part by controlling Pax6 expression levels

• Main Authors: Quinn Jane C, Molinek Mike D, Martynoga Ben, Manuel Martine N, Kroemmer Corinne, Mason John O, Price David J
• Format: Article
• Language: English
• Published: BMC 2011-03-01
• Series: Neural Development
• Online Access: http://www.neuraldevelopment.com/content/6/1/9

<p>Abstract</p> <p>Background</p> <p>The transcription factor Foxg1 is an important regulator of telencephalic cell cycles. Its inactivation causes premature lengthening of telencephalic progenitor cell cycles and increased neurogenic divisions, leading to severe hypoplasia of the telencephalon. These proliferation defects could be a secondary consequence of the loss of Foxg1 caused by the abnormal expression of several morphogens (Fibroblast growth factor 8, bone morphogenetic proteins) in the telencephalon of <it>Foxg1 </it>null mutants. Here we investigated whether Foxg1 has a cell autonomous role in the regulation of telencephalic progenitor proliferation. We analysed <it>Foxg1^+/+</it>↔<it>Foxg1^-/-</it>chimeras, in which mutant telencephalic cells have the potential to interact with, and to have any cell non-autonomous defects rescued by, normal wild-type cells.</p> <p>Results</p> <p>Our analysis showed that the <it>Foxg1^-/-</it>cells are under-represented in the chimeric telencephalon and the proportion of them in S-phase is significantly smaller than that of their wild-type neighbours, indicating that their under-representation is caused by a cell autonomous reduction in their proliferation. We then analysed the expression of the cell-cycle regulator Pax6 and found that it is cell-autonomously downregulated in <it>Foxg1^-/-</it>dorsal telencephalic cells. We went on to show that the introduction into <it>Foxg1^-/-</it>embryos of a transgene designed to reverse Pax6 expression defects resulted in a partial rescue of the telencephalic progenitor proliferation defects.</p> <p>Conclusions</p> <p>We conclude that Foxg1 exerts control over telencephalic progenitor proliferation by cell autonomous mechanisms that include the regulation of Pax6, which itself is known to regulate proliferation cell autonomously in a regional manner.</p>