AAK1′s yeast homologs Prk1p/Ark1p are also necessary for endocytosis (Sekiya-Kawasaki et al., Forskolin solubility dmso 2003).

Importantly, a potential Cbk1p phosphorylation site is present in Prk1p. Prk1p’s role on endocytosis depends on its ability to destabilize actin cytoskeleton at endocytic zones (Toshima et al., 2005). A similar mechanism of actin destabilization could underlie the loss of dendritic spines in NDR1-CA or AAK1-SD-expressing hippocampal neurons. Thus, several lines of evidence suggest that AAK1 regulates intracellular vesicle trafficking. How AAK1 function regulates dendrite morphogenesis remains to be investigated. Intriguingly, AAK1 was recently implicated in regulating various signaling pathways, including Notch (Gupta-Rossi et al., 2011), ErbB4 (Kuai et al., 2011), and Drosophila Neuroglian ( Yang et al., 2011). Rabin8, first identified as a Rab3-interacting protein (Brondyk et al., 1995), is known to act as a guanine exchange factor for Rab8 rather than Rab3 (Hattula et al., 2002). Rab8 is a small GTPase specialized in post-Golgi vesicle budding and plasma membrane transport (Stenmark, 2009). In hippocampal cultures, we find that Rabin8

is predominantly enriched in the Golgi in soma and proximal dendrites. In yeast, Rabin8 homolog Sec2p was found to be phosphorylated by the yeast NDR1 Cbk1p and was shown to account for a subset of the Cbk1p mutant defects (Kurischko et al., 2008). Importantly, the phosphorylation site is conserved between Sec2p and Rabin8. It thus appears Wnt assay that the NDR kinase regulation of vesicle trafficking is an evolutionarily conserved function Phosphoprotein phosphatase for controlling polarization and cell morphology. Our data suggest that Rabin8,

and its phosphorylation by NDR1/2, is involved in mushroom spine development, in cultured neurons, and in vivo. Rabin8 could affect Rab8 function to form and/or deliver post-Golgi vesicles to dendritic membrane contributing to synapse development and increase in spine head diameter. In support of this hypothesis, Rab8 GTPase dominant negative mutant expression in cultured hippocampal slices alters AMPA receptor delivery to surface (Brown et al., 2007 and Gerges et al., 2004). Reducing Rabin8 activity causes a spine phenotype milder than that caused by reducing NDR1/2 activity, indicating that other NDR1/2 substrates likely contribute to spine morphogenesis. Loss of NDR1/2 affects preferentially the proximal dendritic branching, causing an increase in proximal branching and a decrease in distal branching. At the same time, NDR1-CA and activated NDR1-as cause increased dendrite branching in the distal regions as is shown in Sholl analysis. Therefore, NDR1/2 may function in promoting distal growth at the expense of proximal branch additions. NDR1/2′s role on branch extension and its potential downstream effectors remain to be investigated.