Rab6-Mediated Polarized Transport of Synaptic Vesicle Precursors Is Essential for the Establishment of Neuronal and Brain Formation

Neurons are highly polarized cells that are composed of a single axon and multiple dendrites. Axon - dendrite polarity is essential for proper tissue formation and brain functions. Intracellular protein transport plays an important role in the establishment of neuronal polarity. However, the regulatory mechanism of polarized transport remains unclear. Here, we show that Rab6, a small GTPase that acts on the regulation of intracellular vesicular traf fi cking, plays key roles in neuronal polarization and brain development. Central nervous system-speci fi c Rab6a/b double knock-out (Rab6 DKO) mice of both sexes exhibit severe dysplasia of the neocortex and the cerebellum. In the Rab6 DKO neocortex, impaired axonal extension of neurons results in hypoplasia of the intermediate zone. In vitro, deletion of Rab6a and Rab6b in cultured neurons from both sexes causes the abnormal accumulation of synaptic vesicle precursors (SVPs) adjacent to the Golgi apparatus, which leads to defects in axonal extension and the loss of axon - dendrite polarity. Moreover, Rab6 DKO causes signi fi cant expansion of lysosomes in the soma in neurons. Overall, our results reveal that Rab6mediated polarized transport of SVPs is crucial for neuronal polarization and subsequent brain formation.