, 2008). It has been proposed that adaptations in Aspm function have increased the fidelity and number of early symmetric divisions, thereby increasing progenitor pools, neuron number, and brain size ( Ponting and Jackson, 2005). Given that mInsc regulates spindle orientation, it could have a similar role in primate evolution. In fact, intermediate progenitors play an important role in cortical evolution: in primates these cells can generate many more than two neurons, thus amplifying the total number of neurons arising from one ventricular progenitor. Human and ferret brains contain a population of outer subventricular find more zone (OSVZ) progenitors
that have been attributed a key role in amplifying neuron numbers ( Fietz et al., 2010 and Hansen et al., 2010). Live-imaging
experiments have suggested that spindle orientation is crucial for establishing this cell population ( Shitamukai et al., 2011 and Wang et al., 2011). Given that mInsc is a key regulator of intermediate progenitor formation, it could regulate OSVZ progenitor formation as well. In this case, characterization trans-isomer in vivo of evolutionary changes in the mInsc locus and a functional analysis in the human brain might yield important information on how this unique cell population has arisen in evolution. Primary antibodies used were: rabbit anti-mInsc (1:100; Zigman et al. [2005]); mouse anti-β-gal (Promega); chicken anti-GFP (1:500; Abcam); rabbit anti-Satb2 (1:500; Abcam); rabbit anti-Foxp1 (1:500; Abcam); rabbit anti-FoxP2 (1:500; Abcam); mouse anti-TuJ1 (1:500; Sigma-Aldrich); rabbit anti-nestin (1:500; Becton Dickinson); rabbit anti-Pax6 (1:300; Covance); rabbit anti-Tbr1 (1:500; Abcam); mouse anti-Map2 (1:500; Chemicon); rabbit anti-Tbr2 (1:500; Abcam); rabbit anti-PH3 (1:500; Upstate); and mouse anti-PH3 (1:500; Cell Signaling). Secondary antibodies were conjugates of Alexa Fluor 488, Alexa Fluor
568, and Alexa Fluor 647 (1:500; Invitrogen). DAPI (4′6′-diamidino-2-phenylindole) was used as nuclear counterstaining. Slices were washed with PBS and mounted in Fluorescent Mounting Medium (DakoCytomation). Images were recorded using a Zeiss Axiovert 200 M confocal microscope. Fifteen micron coronal sections of E11.5 and E14.5 embryonic brains paraffin embedded were stained with mouse anti-αTub (1:1000; Sigma-Aldrich), mouse anti-γTub (1:1000; Rutecarpine Sigma-Aldrich), and rabbit anti-PH3 (Upstate), using the staining protocol described in the Supplemental Experimental Procedures. Z stacks with an interval of 0.5 μm were taken using a Zeiss Axiovert 200 M confocal microscope. After 3D reconstruction of the confocal stacks of a dividing cell with the Imaris software, five points were placed arbitrarily at different positions of the 3D-rendered plane ventricular surface, and two points were placed at the positions of the two centrosomes. The coordinates of the five points were used to determine the best-fitting plane by orthogonal distance regression.