Branch management: mechanisms of axon branching in the developing vertebrate CNS
Katherine Kalil,Erik W. Dent +1 more
TLDR
Recent studies have identified molecular cues that activate intracellular signalling pathways in axons and mediate dynamic reorganization of the cytoskeleton to promote the formation of axon branches.Abstract:
The remarkable ability of a single axon to extend multiple branches and form terminal arbors enables vertebrate neurons to integrate information from divergent regions of the nervous system. Axons select appropriate pathways during development, but it is the branches that extend interstitially from the axon shaft and arborize at specific targets that are responsible for virtually all of the synaptic connectivity in the vertebrate CNS. How do axons form branches at specific target regions? Recent studies have identified molecular cues that activate intracellular signalling pathways in axons and mediate dynamic reorganization of the cytoskeleton to promote the formation of axon branches.read more
Citations
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Controlling the morphology and outgrowth of nerve and neuroglial cells: The effect of surface topography.
TL;DR: The present review paper aims at reviewing the existing body of literature on the use of artificial micro- and nano-topographical features to control neuronal and neuroglial cells' morphology, outgrowth and neural network topology.
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The axonal cytoskeleton: from organization to function
TL;DR: An overview of the current understanding of actin and microtubule organization within the axon is provided and models for the functional role of the cytoskeleton at specialized axonal structures are discussed.
Journal ArticleDOI
RNA Docking and Local Translation Regulate Site-Specific Axon Remodeling In Vivo.
Hovy Ho-Wai Wong,Julie Qiaojin Lin,Florian Ströhl,Cláudio Gouveia Roque,Jean-Michel Cioni,Roberta Cagnetta,Benita Turner-Bridger,Romain F. Laine,William A. Harris,Clemens F. Kaminski,Christine E. Holt +10 more
TL;DR: A requirement for LPS in building arbor complexity is demonstrated and a key role for pre-synaptic LPS is suggested in assembling neural circuits.
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The Role of the Microtubule Cytoskeleton in Neurodevelopmental Disorders.
TL;DR: The crucial role of the MT cytoskeleton in the context of neurodevelopment is highlighted and genetic mutations of various MT related proteins that may underlie or contribute to neurodevelopmental disorders are summarized.
Journal ArticleDOI
The nano-architecture of the axonal cytoskeleton.
TL;DR: This Review summarizes existing concepts in the field and highlights contemporary discoveries that have fundamentally altered the authors' perception of the axonal cytoskeleton.
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