Reprogramming of avian neural crest axial identity and cell fate

Neural crest populations along the embryonic body axis of vertebrates differ in developmental potential and fate, so that only the cranial neural crest can contribute to the craniofacial skeleton in vivo. We explored the regulatory program that imbues the cranial crest with its specialized features....

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Bibliographic Details
Published in:Science (American Association for the Advancement of Science) 2016-06, Vol.352 (6293), p.1570-1573
Main Authors: Simoes-Costa, Marcos, Bronner, Marianne E.
Format: Article
Language:English
Subjects:
Animals
Cellular biology
Cellular Reprogramming - genetics
Chick Embryo
Chicks
Circuits
Construction
Derivatives
Embryos
Gene Expression Regulation, Developmental
Gene Regulatory Networks
Government regulations
Neural Crest - cytology
Neural Crest - metabolism
Neurogenesis - genetics
Poultry
Skull - embryology
Studies
Transcription Factors - metabolism
Trunks
Vertebrates
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Summary:Neural crest populations along the embryonic body axis of vertebrates differ in developmental potential and fate, so that only the cranial neural crest can contribute to the craniofacial skeleton in vivo. We explored the regulatory program that imbues the cranial crest with its specialized features. Using axial-level specific enhancers to isolate and perform genome-wide profiling of the cranial versus trunk neural crest in chick embryos, we identified and characterized regulatory relationships between a set of cranial-specific transcription factors. Introducing components of this circuit into neural crest cells of the trunk alters their identity and endows these cells with the ability to give rise to chondroblasts in vivo. Our results demonstrate that gene regulatory circuits that support the formation of particular neural crest derivatives may be used to reprogram specific neural crest–derived cell types.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaf2729