Netrin-1 is an evolutionarily conserved secreted extracellular matrix protein discovered using genetic and biochemical screens for its role in axon guidance at the central nervous system (CNS) midline1,2. Netrin-1 is expressed by cells localized at CNS midline, such as the floor plate in vertebrate embryos1,3. Growth cone turning assays and 3D gel diffusion assays showed that netrin-1 can attract commissural axons2,4–6. Loss-of-function experiments further demonstrated that commissural axon extension to the midline is severely impaired in absence of netrin-13,7–9. Together these data support a model in which commissural axons are attracted by a netrin-1 gradient diffusing from the midline. Here, we selectively ablated netrin-1 expression in floor plate cells using a Netrin-1 conditional mouse line. We found that hindbrain and spinal cord commissural axons develop normally in absence of floor plate-derived netrin-1. Furthermore, we show that netrin-1 is highly expressed by cells in the ventricular zone with the potential to release it at the pial surface where it binds to commissural axons. Importantly, netrin-1 deletion from the ventricular zone phenocopies commissural axon guidance defects previously described in Netrin-1 knockout mice. These results show that the classical textbook view that attraction of commissural axons is mediated by a gradient of floor plate-derived netrin-1 is inaccurate and that netrin-1 primarily acts locally by promoting growth cone adhesion.
High-density accumulation of voltage-gated sodium (Na v ) channels at nodes of Ranvier ensures rapid saltatory conduction along myelinated axons. To gain insight into mechanisms of node assembly in the CNS, we focused on early steps of nodal protein clustering. We show in hippocampal cultures that prenodes (i.e., clusters of Na v channels colocalizing with the scaffold protein ankyrinG and nodal cell adhesion molecules) are detected before myelin deposition along axons. These clusters can be induced on purified neurons by addition of oligodendroglial-secreted factor(s), whereas ankyrinG silencing prevents their formation. The Na v isoforms Na v 1.1, Na v 1.2, and Na v 1.6 are detected at prenodes, with Na v 1.6 progressively replacing Na v 1.2 over time in hippocampal neurons cultured with oligodendrocytes and astrocytes. However, the oligodendrocyte-secreted factor(s) can induce the clustering of Na v 1.1 and Na v 1.2 but not of Na v 1.6 on purified neurons. We observed that prenodes are restricted to GABAergic neurons, whereas clustering of nodal proteins only occurs concomitantly with myelin ensheathment on pyramidal neurons, implying separate mechanisms of assembly among different neuronal subpopulations. To address the functional significance of these early clusters, we used single-axon electrophysiological recordings in vitro and showed that prenode formation is sufficient to accelerate the speed of axonal conduction before myelination. Finally, we provide evidence that prenodal clusters are also detected in vivo before myelination, further strengthening their physiological relevance.oltage-gated sodium (Na v ) channels are highly enriched at the axon initial segment (AIS) and the node of Ranvier, allowing generation and rapid propagation of action potentials by saltatory conduction in myelinated fibers. These axonal domains also contain cell adhesion molecules [e.g., neurofascin 186 (Nfasc186)] and the scaffolding proteins ankyrinG (AnkG) and βIV spectrin, which provide a potential link with the actin cytoskeleton (1). Flanking the nodes are the paranodes, where axoglial junctions between paranodal myelin loops and the axon are formed through interactions between axonal contactinassociated protein (Caspr)/contactin and glial Nfasc155 (2, 3). Although the mechanisms of nodal assembly are best characterized in the peripheral nervous system (4-9), less is known about the cellular and molecular mechanisms underlying node assembly in the CNS. ECM proteins, adhesion molecules, such as Nfasc186, and also, axoglial paranodal junctions have been shown to trigger CNS nodal clustering, although their respective roles remain uncertain (10-19). Moreover, axonal clustering of Na v channels before myelin deposition and oligodendroglial contact has been shown to occur in retinal ganglion cell (RGC) cultures, where these clusters were induced by oligodendroglial-secreted factor(s) (20, 21).Here, we have investigated the cellular and molecular mechanisms underlying nodal protein assembly in hippocampal neuron cultures. We ...
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