␦-Catenin was first identified through its interaction withPresenilin-1 and has been implicated in the regulation of dendrogenesis and cognitive function. However, the molecular mechanisms by which ␦-catenin promotes dendritic morphogenesis were unclear. In this study, we demonstrated ␦-catenin interaction with p190RhoGEF, and the importance of Akt1-mediated phosphorylation at Thr-454 residue of ␦-catenin in this interaction. We have also found that ␦-catenin overexpression decreased the binding between p190RhoGEF and RhoA, and significantly lowered the levels of GTP-RhoA but not those of GTP-Rac1 and -Cdc42. ␦-Catenin T454A, a defective form in p190RhoGEF binding, did not decrease the binding between p190RhoGEF and RhoA. ␦-Catenin T454A also did not lower GTP-RhoA levels and failed to induce dendrite-like process formation in NIH 3T3 fibroblasts. Furthermore, ␦-catenin T454A significantly reduced the length and number of mature mushroom shaped spines in primary hippocampal neurons. These results highlight signaling events in the regulation of ␦-catenininduced dendrogenesis and spine morphogenesis.␦-Catenin was first identified by yeast two-hybrid screening as a molecule that interacts with Presenilin-1 (PS-1), 3 which is the most prominently mutated gene in familial Alzheimer disease (FAD) patients (1, 2). The interaction of ␦-catenin with PS-1, along with its abundant expression in neurons, suggests that ␦-catenin has specialized neuronal functions (3, 4). Indeed, ␦-catenin-deficient mice showed severe learning deficits and abnormal synaptic plasticity, suggesting a special role of ␦-catenin at the synapse (5). Furthermore, the hemizygous loss of the chromosomal 5p15.2 region, which contains the human ␦-catenin gene, results in the severe mental retardation associated with Cri du Chat syndrome. This chromosomal abnormality may account for 1% of all mentally retarded individuals (6).Structural analysis indicated that ␦-catenin is a member of the p120-Catenin (hereafter, p120 ctn ) subfamily of armadillo proteins and has a DSWV sequence at the C terminus that binds to the PDZ (PSD-95/Disc-larg/ZO-1) domain-containing proteins (7). ␦-Catenin also contains SH3 binding domains at the N terminus (4, 8), a GKKKKKKK sequence (putative NLS) that can potentially promote lipid intermixing (9), and a proline-rich domain that is likely to be involved in the interaction with the actin-binding protein, Profilin (4). The presence of 10 Arm repeats in ␦-catenin suggests its potential participation in various protein-protein interactions. In addition to PS-1, the ␦-catenin-associated proteins identified thus far include E-cadherin (4), S-SCAM (7), p0071 (10), Densin-180 (11), PSD-95, Abl (8), Cortactin (12), sphingosine kinase (13), and Kaiso (14), suggesting its many possible roles in cells. Our previous reports demonstrated that the overexpression of ␦-catenin induces the branching of dendrite-like processes in both NIH 3T3 fibroblasts and primary hippocampal neurons (15). We have also reported that an E18 hippocampal neuron ...
