However, we posit that the overall expansion of the entire volume of the cortex, including its width, as well as potentially other brain regions, suggests that this particular gene is actually unlikely to be involved in the specific and selective
expansion of cortical surface area occurring in primate and human brain evolution. The cellular mechanism for the enormous cortical expansion in the surface area without a comparable increase in thickness has been first explained by the radial unit hypothesis (RUH) (Rakic, 1988). According to the RUH, tangential (horizontal) coordinates of cortical neurons are determined by the relative position of their precursor cells in the proliferative zone lining the cerebral ventricles, while their radial (vertical) position is determined by the time of their origin. Thus, the number of the radial ontogenetic columns determines the size of the cortical surface, whereas the number
www.selleckchem.com/products/BKM-120.html PS-341 solubility dmso of cells within the columns determines the thickness. This model frames the issue of the evolution of cerebral cortical size and its thickness in the context of understanding the mechanisms governing genetic regulation of cell number and their allocation to different regions (Casanova and Tillquist, 2008, Elsen et al., 2013, Hevner and Haydar, 2012 and Molnár, 2011). Furthermore, according to the RUH, the initial increase in the number of neural stem cells occurs by symmetrical divisions in the ventricular zone (VZ) before the onset of neurogenesis and the formation of the subventricular zone (SVZ) (Bystron et al., 2008, Rakic, 1988, Rakic, 2009 and Stancik et al., 2010). This highlights genes involved in the control of the duration and mode of cell division (symmetric/asymmetric) as important factors for cerebral expansion in evolution (Huttner and Kosodo, 2005 and Rakic, 2009). Finally, the manner by which a larger number of postmitotic cells migrate radially from the proliferative VZ/SVZ to become deployed in the cortical plate as a relatively thin sheet is a biological necessity that enables cortical expansion during
evolution (Heng et al., 2008, Noctor et al., 2001, Rakic, 1988, Rakic, 1995, Takahashi et al., 1999 and Yu et al., 2009). More recently, electroporation and transgenic from technologies show intermixing of the ontogenetic columns in the SVA that is necessary for the formation of functional columns with different compositions and constellations of cell types (Figure 1A; Torii et al., 2009). However, the relation of ontogenetic columns to functional columns of the adult cortex remains to be defined (e.g., Mountcastle, 1995). Since the length of the cell cycle is a major determinant of the number of cells produced, it is paradoxical that the duration of the cell cycle in primates is about five times longer than that in mouse (Kornack and Rakic, 1998 and Lukaszewicz et al., 2006).