Literature DB >> 29636380

The non-canonical Wnt-PCP pathway shapes the mouse caudal neural plate.

Beatriz López-Escobar1, José Manuel Caro-Vega1, Deepthi S Vijayraghavan2, Timothy F Plageman3, José A Sanchez-Alcazar4, Roberto Carlos Moreno1, Dawn Savery5, Javier Márquez-Rivas6, Lance A Davidson2, Patricia Ybot-González7,8.   

Abstract

The last stage of neural tube (NT) formation involves closure of the caudal neural plate (NP), an embryonic structure formed by neuromesodermal progenitors and newly differentiated cells that becomes incorporated into the NT. Here, we show in mouse that, as cell specification progresses, neuromesodermal progenitors and their progeny undergo significant changes in shape prior to their incorporation into the NT. The caudo-rostral progression towards differentiation is coupled to a gradual reliance on a unique combination of complex mechanisms that drive tissue folding, involving pulses of apical actomyosin contraction and planar polarised cell rearrangements, all of which are regulated by the Wnt-PCP pathway. Indeed, when this pathway is disrupted, either chemically or genetically, the polarisation and morphology of cells within the entire caudal NP is disturbed, producing delays in NT closure. The most severe disruptions of this pathway prevent caudal NT closure and result in spina bifida. In addition, a decrease in Vangl2 gene dosage also appears to promote more rapid progression towards a neural fate, but not the specification of more neural cells.
© 2018. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  Apical contraction; Caudal neurulation; NMPs; NTDs; Tissue folding; Wnt-PCP

Mesh:

Substances:

Year:  2018        PMID: 29636380      PMCID: PMC5992595          DOI: 10.1242/dev.157487

Source DB:  PubMed          Journal:  Development        ISSN: 0950-1991            Impact factor:   6.868


  70 in total

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7.  MARCKS deficiency in mice leads to abnormal brain development and perinatal death.

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