Dendrite Self-avoidance Requires Cell-autonomous Slit/robo Signaling in Cerebellar Purkinje Cells

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2014 Mar 11

PMID 24607227

Citations 41

Authors

Daniel A Gibson

Stephen Tymanskyj

Rachel C Yuan

Haiwen C Leung

Julie L Lefebvre

Joshua R Sanes

Alain Chedotal

Le Ma

Affiliations

Soon will be listed here.

Abstract

Dendrites from the same neuron usually develop nonoverlapping patterns by self-avoidance, a process requiring contact-dependent recognition and repulsion. Recent studies have implicated homophilic interactions of cell surface molecules, including Dscams and Pcdhgs, in self-recognition, but repulsive molecular mechanisms remain obscure. Here, we report a role for the secreted molecule Slit2 and its receptor Robo2 in self-avoidance of cerebellar Purkinje cells (PCs). Both molecules are highly expressed by PCs, and their deletion leads to excessive dendrite self-crossing without affecting arbor size and shape. This cell-autonomous function is supported by the boundary-establishing activity of Slit in culture and the phenotype rescue by membrane-associated Slit2 activities. Furthermore, genetic studies show that they act independently from Pcdhg-mediated recognition. Finally, PC-specific deletion of Robo2 is associated with motor behavior alterations. Thus, our study uncovers a local repulsive mechanism required for self-avoidance and demonstrates the molecular complexity at the cell surface in dendritic patterning.

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