Literature DB >> 22219210

Molecular and cellular regulatory mechanisms of tongue myogenesis.

C Parada1, D Han, Y Chai.   

Abstract

The tongue exerts crucial functions in our daily life. However, we know very little about the regulatory mechanisms of mammalian tongue development. In this review, we summarize recent findings of the molecular and cellular mechanisms that control tissue-tissue interactions during tongue morphogenesis. Specifically, cranial neural crest cells (CNCC) lead the initiation of tongue bud formation and contribute to the interstitial connective tissue, which ultimately compartmentalizes tongue muscles and serves as their attachments. Occipital somite-derived cells migrate into the tongue primordium and give rise to muscle cells in the tongue. The intimate relationship between CNCC- and mesoderm-derived cells, as well as growth and transcription factors that have been shown to be crucial for tongue myogenesis, clearly indicate that tissue-tissue interactions play an important role in regulating tongue morphogenesis.

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Year:  2012        PMID: 22219210      PMCID: PMC3348065          DOI: 10.1177/0022034511434055

Source DB:  PubMed          Journal:  J Dent Res        ISSN: 0022-0345            Impact factor:   6.116


  58 in total

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Journal:  Dev Biol       Date:  2000-02-01       Impact factor: 3.582

Review 2.  The birth of muscle progenitor cells in the mouse: spatiotemporal considerations.

Authors:  S Tajbakhsh; M Buckingham
Journal:  Curr Top Dev Biol       Date:  2000       Impact factor: 4.897

3.  Pax7 is required for the specification of myogenic satellite cells.

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Journal:  Cell       Date:  2000-09-15       Impact factor: 41.582

4.  Early mesodermal phenotypes in splotch suggest a role for Pax3 in the formation of epithelial somites.

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Journal:  Dev Dyn       Date:  2001-11       Impact factor: 3.780

5.  Activation of myogenesis by the homeobox gene Lbx1 requires cell proliferation.

Authors:  D Mennerich; T Braun
Journal:  EMBO J       Date:  2001-12-17       Impact factor: 11.598

6.  Myogenin gene disruption results in perinatal lethality because of severe muscle defect.

Authors:  Y Nabeshima; K Hanaoka; M Hayasaka; E Esumi; S Li; I Nonaka; Y Nabeshima
Journal:  Nature       Date:  1993-08-05       Impact factor: 49.962

7.  MyoD or Myf-5 is required for the formation of skeletal muscle.

Authors:  M A Rudnicki; P N Schnegelsberg; R H Stead; T Braun; H H Arnold; R Jaenisch
Journal:  Cell       Date:  1993-12-31       Impact factor: 41.582

8.  Lbx1 is required for muscle precursor migration along a lateral pathway into the limb.

Authors:  M K Gross; L Moran-Rivard; T Velasquez; M N Nakatsu; K Jagla; M Goulding
Journal:  Development       Date:  2000-01       Impact factor: 6.868

9.  Fate of the mammalian cranial neural crest during tooth and mandibular morphogenesis.

Authors:  Y Chai; X Jiang; Y Ito; P Bringas; J Han; D H Rowitch; P Soriano; A P McMahon; H M Sucov
Journal:  Development       Date:  2000-04       Impact factor: 6.868

10.  Essential role of Gab1 for signaling by the c-Met receptor in vivo.

Authors:  M Sachs; H Brohmann; D Zechner; T Müller; J Hülsken; I Walther; U Schaeper; C Birchmeier; W Birchmeier
Journal:  J Cell Biol       Date:  2000-09-18       Impact factor: 10.539
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  34 in total

1.  The temporal specific role of WNT/β-catenin signaling during myogenesis.

Authors:  Akiko Suzuki; Anne Scruggs; Junichi Iwata
Journal:  J Nat Sci       Date:  2015

2.  Different requirements for Wnt signaling in tongue myogenic subpopulations.

Authors:  Z Zhong; H Zhao; J Mayo; Y Chai
Journal:  J Dent Res       Date:  2015-01-09       Impact factor: 6.116

3.  Muscle precursor cell movements in zebrafish are dynamic and require Six family genes.

Authors:  Jared C Talbot; Emily M Teets; Dhanushika Ratnayake; Phan Q Duy; Peter D Currie; Sharon L Amacher
Journal:  Development       Date:  2019-05-15       Impact factor: 6.868

4.  Regulatory Mechanisms of Soft Palate Development and Malformations.

Authors:  J Li; G Rodriguez; X Han; E Janečková; S Kahng; B Song; Y Chai
Journal:  J Dent Res       Date:  2019-05-31       Impact factor: 6.116

Review 5.  Suckling, Feeding, and Swallowing: Behaviors, Circuits, and Targets for Neurodevelopmental Pathology.

Authors:  Thomas M Maynard; Irene E Zohn; Sally A Moody; Anthony-S LaMantia
Journal:  Annu Rev Neurosci       Date:  2020-02-26       Impact factor: 12.449

6.  The Dlx5-FGF10 signaling cascade controls cranial neural crest and myoblast interaction during oropharyngeal patterning and development.

Authors:  Hideki Sugii; Alexandre Grimaldi; Jingyuan Li; Carolina Parada; Thach Vu-Ho; Jifan Feng; Junjun Jing; Yuan Yuan; Yuxing Guo; Hidefumi Maeda; Yang Chai
Journal:  Development       Date:  2017-10-05       Impact factor: 6.868

7.  Increased activity of mesenchymal ALK2-BMP signaling causes posteriorly truncated microglossia and disorganization of lingual tissues.

Authors:  Mohamed Ishan; Guiqian Chen; Chenming Sun; Shi-You Chen; Yoshihiro Komatsu; Yuji Mishina; Hong-Xiang Liu
Journal:  Genesis       Date:  2019-09-30       Impact factor: 2.487

8.  Cilia-dependent GLI processing in neural crest cells is required for tongue development.

Authors:  Grethel Millington; Kelsey H Elliott; Ya-Ting Chang; Ching-Fang Chang; Andrzej Dlugosz; Samantha A Brugmann
Journal:  Dev Biol       Date:  2017-03-09       Impact factor: 3.582

9.  A Wnt/Notch/Pax7 signaling network supports tissue integrity in tongue development.

Authors:  Xiao-Jing Zhu; Xueyan Yuan; Min Wang; Yukun Fang; Yudong Liu; Xiaoyun Zhang; Xueqin Yang; Yan Li; Jianying Li; Feixue Li; Zhong-Min Dai; Mengsheng Qiu; Ze Zhang; Zunyi Zhang
Journal:  J Biol Chem       Date:  2017-04-24       Impact factor: 5.157

10.  Embryonic tongue morphogenesis in an organ culture model of mouse mandibular arches: blocking Sonic hedgehog signaling leads to microglossia.

Authors:  Daisuke Torii; Yuuichi Soeno; Kazuya Fujita; Kaori Sato; Takaaki Aoba; Yuji Taya
Journal:  In Vitro Cell Dev Biol Anim       Date:  2015-09-03       Impact factor: 2.416
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