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Query: UMLS:C0001511 (
Adhesion
)
5,955
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
During nervous system development, spinal commissural axons project toward and across the ventral midline. They are guided in part by
netrin-1
, made by midline cells, which attracts the axons by activating the netrin receptor DCC. However, previous studies suggest that additional receptor components are required. Here, we report that the Down's syndrome Cell
Adhesion
Molecule (DSCAM), a candidate gene implicated in the mental retardation phenotype of Down's syndrome, is expressed on spinal commissural axons, binds
netrin-1
, and is necessary for commissural axons to grow toward and across the midline. DSCAM and DCC can each mediate a turning response of these neurons to
netrin-1
. Similarly, Xenopus spinal neurons exogenously expressing DSCAM can be attracted by
netrin-1
independently of DCC. These results show that DSCAM is a receptor that can mediate turning responses to
netrin-1
and support a key role for netrin/DSCAM signaling in commissural axon guidance in vertebrates.
...
PMID:DSCAM is a netrin receptor that collaborates with DCC in mediating turning responses to netrin-1. 1858 57
The ventral midline of the embryonic neural tube, the floor plate, has a profound role in guiding axons during embryonic development. Floor plate-derived guidance cues attract or repel axons, depending on the neuronal subtype and developmental stage.
Netrin-1
and its receptor, Deleted in Colon Carcinoma (DCC), are the key constituents of commissurral axons guidance cues toward the floor plate. Recent studies have implicated Down Syndrome Cell
Adhesion
Molecule (Dscam) as an additional
Netrin-1
receptor. In this study, we examined the role of Dscam in guiding defined spinal dorsal interneuron populations. In vivo knockdown and ectopic expression of Dscam were performed in the dorsal dI1, dI2 and dI3 interneurons of chick embryos, by separately increasing or decreasing Dscam expression in each of these three specific interneuronal populations. Neuron-specific gain and loss of function of Dscam had no effect on the axonal trajectories of dI1-3 neurons. The commissural neurons, dI1c and dI2, crossed the midline, and the ipsilaterally projecting neurons, dI1i and dI3, projected ipsilaterally. However, the fasciculation of dI1 axons was diminished when Dscam expression was attenuated. Dscam is not required for either attraction to or repulsion from the floor plate. In contrast, Dscam is required for the fasciculation of axons, probably via homophilic interaction.
...
PMID:Roles of DSCAM in axonal decussation and fasciculation of chick spinal interneurons. 2862 21
