Abstract
Endocytic recycling is an intracellular process that returns internalized molecules back to the plasma membrane and plays crucial roles not only in the reuse of receptor molecules but also in the remodeling of the different components of this membrane. This process is required for a diversity of cellular events, including neuronal morphology acquisition and functional regulation, among others. The recycling endosome (RE) is a key vesicular component involved in endocytic recycling. Recycling back to the cell surface may occur with the participation of several different Rab proteins, which are master regulators of membrane/protein trafficking in nerve cells. The RE consists of a network of interconnected and functionally distinct tubular subdomains that originate from sorting endosomes and transport their cargoes along microtubule tracks, by fast or slow recycling pathways. Different populations of REs, particularly those formed by Rab11, Rab35, and Arf6, are associated with a myriad of signaling proteins. In this review, we discuss the cumulative evidence suggesting the existence of heterogeneous domains of REs, controlling different aspects of neurogenesis, with a particular focus on the commonalities and singularities of these REs and their contribution to nerve development and differentiation in several animal models.
Highlights
During neurodevelopment, dynamic morphological changes occur in migration, neurite outgrowth, dendritic spine formation, axon myelination, and synaptogenesis
Emerging evidence using in vitro and in vivo studies in hippocampal neurons has been shown that Arf6 regulates AMPA receptor trafficking and long-term synaptic plasticity at postsynaptic sites
Schematic image showing the type of participation of Rab11, Rab35, and Arf6 recycling endosome (RE)-associated with axonal and neuritic growth (B), dendritic growth (C), cortical migration (D), and glial differentiation (E)
Summary
Dynamic morphological changes occur in migration, neurite outgrowth, dendritic spine formation, axon myelination, and synaptogenesis. Rab35 regulates the formation of an association site between the molecular scissor EHD1 and Arf6-positive endosomes by integrating the functions of two different Rab35 effectors for the successful growth of neurites (Kobayashi and Fukuda, 2013).
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