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VEGF signals induce trailblazer cell identity that drives neural crest migration
- Publication Year :
- 2016
- Publisher :
- Elsevier, 2016.
-
Abstract
- Embryonic neural crest cells travel in discrete streams to precise locations throughout the head and body. We previously showed that cranial neural crest cells respond chemotactically to vascular endothelial growth factor (VEGF) and that cells within the migratory front have distinct behaviors and gene expression. We proposed a cell-induced gradient model in which lead neural crest cells read out directional information from a chemoattractant profile and instruct trailers to follow. In this study, we show that migrating chick neural crest cells do not display distinct lead and trailer gene expression profiles in culture. However, exposure to VEGF in vitro results in the upregulation of a small subset of genes associated with an in vivo lead cell signature. Timed addition and removal of VEGF in culture reveals the changes in neural crest cell gene expression are rapid. A computational model incorporating an integrate-and-switch mechanism between cellular phenotypes predicts migration efficiency is influenced by the timescale of cell behavior switching. To test the model hypothesis that neural crest cellular phenotypes respond to changes in the VEGF chemoattractant profile, we presented ectopic sources of VEGF to the trailer neural crest cell subpopulation and show diverted cell trajectories and stream alterations consistent with model predictions. Gene profiling of trailer cells that diverted and encountered VEGF revealed upregulation of a subset of 'lead' genes. Injection of neuropilin1 (Np1)-Fc into the trailer subpopulation or electroporation of VEGF morpholino to reduce VEGF signaling failed to alter trailer neural crest cell trajectories, suggesting trailers do not require VEGF to maintain coordinated migration. These results indicate that VEGF is one of the signals that establishes lead cell identity and its chemoattractant profile is critical to neural crest cell migration.
- Subjects :
- Molecular profile
EXPRESSION
Vascular Endothelial Growth Factor A
CHICK
Morpholino
Chick Embryo
Biology
Embryonic microenvironment
Neural crest
chemistry.chemical_compound
ENTERIC NERVOUS-SYSTEM
Cranial neural crest
Cell Movement
Animals
Cell migration
Computer Simulation
NEUROPILIN-1
Molecular Biology
NEDD9
MESENCHYMAL TRANSITION
Science & Technology
Chemotaxis
Gene Expression Regulation, Developmental
Computational modeling
11 Medical And Health Sciences
Cell Biology
06 Biological Sciences
CANCER
Embryonic stem cell
Cell biology
Trailblazers
Vascular endothelial growth factor
Vascular endothelial growth factor A
DIFFERENTIATION
Cellular Microenvironment
chemistry
METASTASIS
Immunology
Gene expression
OVEREXPRESSION
Neural crest cell migration
Life Sciences & Biomedicine
Signal Transduction
Developmental Biology
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....c4aa4e2c9b246b6c93eae7d598695b27