Literature DB >> 26256212

Axud1 Integrates Wnt Signaling and Transcriptional Inputs to Drive Neural Crest Formation.

Marcos Simões-Costa1, Michael Stone1, Marianne E Bronner2.   

Abstract

Neural crest cells are induced at the neural plate border by the combined action of transcription factors and signaling molecules. Here, we show that Axud1, a downstream effector of Wnt signaling, represents a critical missing link that integrates signaling and transcriptional cues to mediate neural crest formation. Axud1 is a transcription factor expressed in neural crest progenitors in a Wnt1/β-catenin-dependent manner. Axud1 loss leads to downregulation of multiple genes involved in neural crest specification, similar to the effects of Wnt1 knockdown. Importantly, Axud1 is sufficient to rescue neural crest formation after disruption of Wnt signaling. Furthermore, it physically interacts with neural plate border genes Pax7 and Msx1 in vivo to directly activate transcription of stem cell factor FoxD3, initiating the neural crest program. Thus, Axud1 integrates Wnt signaling with transcriptional inputs to endow the neural crest with its unique molecular signature.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26256212      PMCID: PMC4573882          DOI: 10.1016/j.devcel.2015.06.024

Source DB:  PubMed          Journal:  Dev Cell        ISSN: 1534-5807            Impact factor:   12.270


  46 in total

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3.  Early requirement of the transcriptional activator Sox9 for neural crest specification in Xenopus.

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Review 4.  Reiterated Wnt and BMP signals in neural crest development.

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Journal:  Semin Cell Dev Biol       Date:  2005-08-01       Impact factor: 7.727

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9.  Maintenance of pluripotency in human and mouse embryonic stem cells through activation of Wnt signaling by a pharmacological GSK-3-specific inhibitor.

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10.  The winged-helix transcription factor FoxD3 is important for establishing the neural crest lineage and repressing melanogenesis in avian embryos.

Authors:  R Kos; M V Reedy; R L Johnson; C A Erickson
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  26 in total

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2.  Prickle1 is required for EMT and migration of zebrafish cranial neural crest.

Authors:  Kamil Ahsan; Noor Singh; Manuel Rocha; Christina Huang; Victoria E Prince
Journal:  Dev Biol       Date:  2019-02-02       Impact factor: 3.582

Review 3.  Specifying neural crest cells: From chromatin to morphogens and factors in between.

Authors:  Crystal D Rogers; Shuyi Nie
Journal:  Wiley Interdiscip Rev Dev Biol       Date:  2018-05-03       Impact factor: 5.814

4.  Metabolic Reprogramming Promotes Neural Crest Migration via Yap/Tead Signaling.

Authors:  Debadrita Bhattacharya; Ana Paula Azambuja; Marcos Simoes-Costa
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Review 5.  Regulatory Logic Underlying Diversification of the Neural Crest.

Authors:  Megan L Martik; Marianne E Bronner
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Review 6.  The Neural Crest Migrating into the Twenty-First Century.

Authors:  Marianne E Bronner; Marcos Simões-Costa
Journal:  Curr Top Dev Biol       Date:  2016-01-23       Impact factor: 4.897

7.  Reprogramming of avian neural crest axial identity and cell fate.

Authors:  Marcos Simoes-Costa; Marianne E Bronner
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8.  A catenin-dependent balance between N-cadherin and E-cadherin controls neuroectodermal cell fate choices.

Authors:  Crystal D Rogers; Lisa K Sorrells; Marianne E Bronner
Journal:  Mech Dev       Date:  2018-07-14       Impact factor: 1.882

9.  Leukocyte receptor tyrosine kinase interacts with secreted midkine to promote survival of migrating neural crest cells.

Authors:  Felipe Monteleone Vieceli; Marianne E Bronner
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10.  The connectome of neural crest enhancers reveals regulatory features of signaling systems.

Authors:  Ana Paula Azambuja; Marcos Simoes-Costa
Journal:  Dev Cell       Date:  2021-04-13       Impact factor: 12.270
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