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Abstract
Precise positioning of dendritic branches is a critical step in the establishment
of neuronal circuitry. However, there is limited knowledge on how environmental cues
translate into dendrite initiation or branching at a specific position. Here, through
a combination of mutation, RNAi, and imaging experiments, we found that a Dscam-Dock-Pak1
hierarchical interaction defines the stereotypical dendrite growth site in the Drosophila
aCC motoneuron. This interaction localizes the Cdc42 effector Pak1 to the plasma membrane
at the dendrite initiation site before the activation of Cdc42. Ectopic expression
of membrane-anchored Pak1 overrides this spatial specification of dendritogenesis,
confirming its function in guiding Cdc42 signaling. We further discovered that Dscam1
localization in aCC occurs through an inter-neuronal contact that involves Dscam1
in the partner MP1 neuron. These findings elucidate a mechanism by which Dscam1 controls
neuronal morphogenesis through spatial regulation of Cdc42 signaling and, subsequently,
cytoskeletal remodeling.