Literature DB >> 29981692

Migration and diversification of the vagal neural crest.

Erica J Hutchins1, Ezgi Kunttas1, Michael L Piacentino1, Aubrey G A Howard2, Marianne E Bronner1, Rosa A Uribe3.   

Abstract

Arising within the neural tube between the cranial and trunk regions of the body axis, the vagal neural crest shares interesting similarities in its migratory routes and derivatives with other neural crest populations. However, the vagal neural crest is also unique in its ability to contribute to diverse organs including the heart and enteric nervous system. This review highlights the migratory routes of the vagal neural crest and compares them across multiple vertebrates. We also summarize recent advances in understanding vagal neural crest ontogeny and discuss the contribution of this important neural crest population to the cardiovascular system and endoderm-derived organs, including the thymus, lungs and pancreas.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Cardiac; Lung; Pancreas; Thymus; Vagal neural crest

Mesh:

Year:  2018        PMID: 29981692      PMCID: PMC6320731          DOI: 10.1016/j.ydbio.2018.07.004

Source DB:  PubMed          Journal:  Dev Biol        ISSN: 0012-1606            Impact factor:   3.582


  143 in total

1.  Mutations in SIP1, encoding Smad interacting protein-1, cause a form of Hirschsprung disease.

Authors:  N Wakamatsu; Y Yamada; K Yamada; T Ono; N Nomura; H Taniguchi; H Kitoh; N Mutoh; T Yamanaka; K Mushiake; K Kato; S Sonta ; M Nagaya
Journal:  Nat Genet       Date:  2001-04       Impact factor: 38.330

2.  Capacity of neural crest cells from various axial levels to participate in thymic development.

Authors:  S Kuratani; D E Bockman
Journal:  Cell Tissue Res       Date:  1991-01       Impact factor: 5.249

3.  Mammalian pancreas development: regeneration and differentiation in vitro.

Authors:  K E Richardson; B S Spooner
Journal:  Dev Biol       Date:  1977-07-15       Impact factor: 3.582

4.  Developmental expression of the RET protooncogene.

Authors:  V Avantaggiato; N A Dathan; M Grieco; N Fabien; D Lazzaro; A Fusco; A Simeone; M Santoro
Journal:  Cell Growth Differ       Date:  1994-03

5.  Persistent truncus arteriosus in the Splotch mutant mouse.

Authors:  T Franz
Journal:  Anat Embryol (Berl)       Date:  1989

6.  The intrinsic innervation of the lung is derived from neural crest cells as shown by optical projection tomography in Wnt1-Cre;YFP reporter mice.

Authors:  Lucy J Freem; Sophie Escot; David Tannahill; Noah R Druckenbrod; Nikhil Thapar; Alan J Burns
Journal:  J Anat       Date:  2010-09-14       Impact factor: 2.610

7.  Perturbation of Hoxb5 signaling in vagal and trunk neural crest cells causes apoptosis and neurocristopathies in mice.

Authors:  M K M Kam; M C H Cheung; J J Zhu; W W C Cheng; E W Y Sat; P K H Tam; V C H Lui
Journal:  Cell Death Differ       Date:  2013-10-18       Impact factor: 15.828

8.  Development of the neural crest-derived intrinsic innervation of the human lung.

Authors:  Alan J Burns; Nikhil Thapar; Amanda J Barlow
Journal:  Am J Respir Cell Mol Biol       Date:  2007-09-20       Impact factor: 6.914

9.  Sip1 mediates an E-cadherin-to-N-cadherin switch during cranial neural crest EMT.

Authors:  Crystal D Rogers; Ankur Saxena; Marianne E Bronner
Journal:  J Cell Biol       Date:  2013-12-02       Impact factor: 10.539

10.  Lack of organ specific commitment of vagal neural crest cell derivatives as shown by back-transplantation of GFP chicken tissues.

Authors:  Lucy J Freem; Jean Marie Delalande; Alison M Campbell; Nikhil Thapar; Alan J Burns
Journal:  Int J Dev Biol       Date:  2012       Impact factor: 2.203
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  19 in total

Review 1.  Neural crest development: insights from the zebrafish.

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Review 3.  Epithelial-to-mesenchymal transition and different migration strategies as viewed from the neural crest.

Authors:  Michael L Piacentino; Yuwei Li; Marianne E Bronner
Journal:  Curr Opin Cell Biol       Date:  2020-06-09       Impact factor: 8.382

4.  An atlas of neural crest lineages along the posterior developing zebrafish at single-cell resolution.

Authors:  Aubrey Ga Howard; Phillip A Baker; Rodrigo Ibarra-García-Padilla; Joshua A Moore; Lucia J Rivas; James J Tallman; Eileen W Singleton; Jessa L Westheimer; Julia A Corteguera; Rosa A Uribe
Journal:  Elife       Date:  2021-02-16       Impact factor: 8.140

5.  Essential function and targets of BMP signaling during midbrain neural crest delamination.

Authors:  Michael L Piacentino; Erica J Hutchins; Marianne E Bronner
Journal:  Dev Biol       Date:  2021-06-06       Impact factor: 3.148

Review 6.  Wnt Signaling in Neural Crest Ontogenesis and Oncogenesis.

Authors:  Yu Ji; Hongyan Hao; Kurt Reynolds; Moira McMahon; Chengji J Zhou
Journal:  Cells       Date:  2019-09-29       Impact factor: 6.600

7.  Early expression of Tubulin Beta-III in avian cranial neural crest cells.

Authors:  Jose Chacon; Crystal D Rogers
Journal:  Gene Expr Patterns       Date:  2019-07-29       Impact factor: 1.224

8.  Melanoma of unknown primary in the pancreas: should it be considered primary?

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Journal:  BMC Surg       Date:  2020-04-16       Impact factor: 2.102

9.  Cadherin-11 Is Required for Neural Crest Specification and Survival.

Authors:  Subrajaa Manohar; Alberto Camacho-Magallanes; Camilo Echeverria; Crystal D Rogers
Journal:  Front Physiol       Date:  2020-10-30       Impact factor: 4.566

10.  Retinoic Acid Accelerates the Specification of Enteric Neural Progenitors from In-Vitro-Derived Neural Crest.

Authors:  Thomas J R Frith; Antigoni Gogolou; James O S Hackland; Zoe A Hewitt; Harry D Moore; Ivana Barbaric; Nikhil Thapar; Alan J Burns; Peter W Andrews; Anestis Tsakiridis; Conor J McCann
Journal:  Stem Cell Reports       Date:  2020-08-27       Impact factor: 7.765
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