Kavli Affiliate: Kristina Nielsen Loyal Goff
| Authors: Soraia Barao, Yijun Xu, Rachel Vistein, Loyal Goff, Kristina Nielsen, Byoung-Il Bae, Richard S. Smith, Christopher A Walsh, Genevieve Stein O Brien and Ulrich Muller
| Summary:
The mammalian neocortex differs vastly in size and complexity between mammalian species, yet the mechanisms that lead to an increase in brain size during evolution are not known. We show here that two transcription factors coordinate gene expression programs in progenitor cells of the neocortex to regulate their proliferative capacity and neuronal output in order to determine brain size. Comparative studies in mice, ferrets and macaques demonstrate an evolutionary conserved function for these transcription factors to regulate progenitor behaviors across the mammalian clade. Strikingly, the two transcriptional regulators control the expression of large numbers of genes linked to microcephaly suggesting that transcriptional deregulation as an important determinant of the molecular pathogenesis of microcephaly, which is consistent with the finding that genetic manipulation of the two transcription factors leads to severe microcephaly.