Chicken protocadherin-1 functions to localize neural crest cells to the dorsal root ganglia during PNS formation

In vertebrate embryos, neural crest cells emerge from the dorsal neural tube and migrate along well defined pathways to form a wide diversity of tissues, including the majority of the peripheral nervous system (PNS). Members of the cadherin family of cell adhesion molecules play key roles during the...

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Bibliographic Details
Published in:Mechanisms of development 2008-11, Vol.125 (11), p.1033-1047
Main Authors: Bononi, Judy, Cole, Angela, Tewson, Paul, Schumacher, Andrew, Bradley, Roger
Format: Article
Language:English
Subjects:
Animals
Cadherin
Cadherins - metabolism
Cadherins - physiology
Cell Adhesion
Cell Lineage
Cell Movement
Chick
Chickens
Dorsal root ganglia
Ganglia, Spinal - embryology
Ganglia, Spinal - metabolism
Gene Expression Regulation, Developmental
In Situ Hybridization
Microscopy, Fluorescence
Mitosis
Neural Crest - metabolism
Neural crest cells
Neurons - metabolism
Peripheral Nervous System - metabolism
Protocadherin
RNA Interference
Sensory neuron
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Summary:In vertebrate embryos, neural crest cells emerge from the dorsal neural tube and migrate along well defined pathways to form a wide diversity of tissues, including the majority of the peripheral nervous system (PNS). Members of the cadherin family of cell adhesion molecules play key roles during the initiation of migration, mediating the delamination of cells from the neural tube. However, a role for cadherins in the sorting and re-aggregation of the neural crest to form the PNS has not been established. We report the requirement for a protocadherin, chicken protocadherin-1 (Pcdh1), in neural crest cell sorting during the formation of the dorsal root ganglia (DRG). In embryos, cPcdh1 is highly expressed in the developing DRG, where it co-localizes with the undifferentiated and mitotically active cells along the perimeter. Pcdh1 can promote cell adhesion in vivo and disrupting Pcdh1 function in embryos results in fewer neural crest cells localizing to the DRG, with a concomitant increase in cells that migrate to the sympathetic ganglia. Furthermore, those cells that still localize to the DRG, when Pcdh1 is inhibited, are no longer found at the perimeter, but are instead dispersed throughout the DRG and are now more likely to differentiate along the sensory neuron pathway. These results demonstrate that Pcdh1-mediated cell adhesion plays an important role as neural crest cells coalesce to form the DRG, where it serves to sort cells to the mitotically active perimeter.
ISSN:0925-4773
1872-6356
DOI:10.1016/j.mod.2008.07.007