Foxa2 regulates polarity and epithelialization in the endoderm germ layer of the mouse embryo

Burtscher, Ingo; Lickert, Heiko

doi:10.1242/dev.028415

Cited by 192 publications

(222 citation statements)

References 58 publications

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“…Whole mount in situ hybridisation and immunohistochemistry were performed according to standard procedures (Burtscher and Lickert, 2009;Chazaud et al, 2006;Perea-Gomez et al, 2004). For histological analysis, embryos were embedded in paraffin and sectioned at 4 µm.…”

Section: In Situ Hybridisation and Immunohistochemistrymentioning

confidence: 99%

NOTCH activation interferes with cell fate specification in the gastrulating mouse embryo

et al. 2015

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NOTCH signalling is an evolutionarily conserved pathway involved in intercellular communication essential for cell fate choices during development. Although dispensable for early aspects of mouse development, canonical RBPJ-dependent NOTCH signalling has been shown to influence lineage commitment during embryonic stem cell (ESC) differentiation. NOTCH activation in ESCs promotes the acquisition of a neural fate, whereas its suppression favours their differentiation into cardiomyocytes. This suggests that NOTCH signalling is implicated in the acquisition of distinct embryonic fates at early stages of mammalian development. In order to investigate in vivo such a role for NOTCH signalling in shaping cell fate specification, we use genetic approaches to constitutively activate the NOTCH pathway in the mouse embryo. Early embryonic development, including the establishment of anterior-posterior polarity, is not perturbed by forced NOTCH activation. By contrast, widespread NOTCH activity in the epiblast triggers dramatic gastrulation defects. These are fully rescued in a RBPJ-deficient background. Epiblast-specific NOTCH activation induces acquisition of neurectoderm identity and disrupts the formation of specific mesodermal precursors including the derivatives of the anterior primitive streak, the mouse organiser. In addition, we show that forced NOTCH activation results in misregulation of NODAL signalling, a major determinant of early embryonic patterning. Our study reveals a previously unidentified role for canonical NOTCH signalling during mammalian gastrulation. It also exemplifies how in vivo studies can shed light on the mechanisms underlying cell fate specification during in vitro directed differentiation.

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Section: In Situ Hybridisation and Immunohistochemistrymentioning

confidence: 99%

NOTCH activation interferes with cell fate specification in the gastrulating mouse embryo

et al. 2015

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“…2b,f) indicates defective development of posterior and proximal epiblast derivatives. Third, an anatomical node (anterior PS derivative), which at E7.5-7.75 constitutes a bilayered structure at the distal tip of the embryo 13,14 (Fig. 2a), was never observed in the mutants (n ¼ 2; Fig.…”

Section: Resultsmentioning

confidence: 99%

Ets2-dependent trophoblast signalling is required for gastrulation progression after primitive streak initiation

Polydorou

Georgiades

2013

Nat Commun

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Although extraembryonic ectoderm trophoblast signals the embryo for primitive streak initiation, a prerequisite for gastrulation, it is unknown whether it also signals for the progression of gastrulation after primitive streak initiation. Here, using Ets2 À / À mice, we show that trophoblast signalling is also required in vivo for primitive streak elongation, completion of intraembryonic mesoderm epithelial-mesenchymal transition and the development of anterior primitive streak derivatives such as the node. We show that Ets2-dependent trophoblast signalling is required for the maintenance of high levels of Nodal and Wnt3 expression in the epiblast and for the induction of Snail expression in the primitive streak, between embryonic day 6.3 and 6.7. Within extraembryonic ectoderm trophoblast, Ets2 maintains the expression of the transcription factors Elf5, Cdx2 and Eomes, and that of the signalling molecule Bmp4. We propose a model that provides a genetic explanation as to how Ets2 in trophoblast mediates the progression of gastrulation within the epiblast.

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“…Upon lineage-specific removal of b-catenin, mesoderm-like cells are present in the endoderm layer of mutant embryos suggesting a transfating of endoderm to mesoderm [47], and deletion of b-catenin specifically in Sox17-expressing cells prevents endoderm formation [48]. Nonetheless, based on marker expression, it has been suggested that DE and mesoderm cell lineages might already be predetermined before gastrulation [49], though it should be noted that markers indicate the state, not fate, of cells. If a mesendodermal state indeed exists within the mouse embryo, it is worth considering how it might tie in with a dispersal model of endoderm morphogenesis.…”

Section: (B) Migration Of Definitive Endoderm Progenitorsmentioning

confidence: 99%

Gutsy moves in mice: cellular and molecular dynamics of endoderm morphogenesis

Viotti¹,

Foley

Hadjantonakis

2014

Phil. Trans. R. Soc. B

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Despite the importance of the gut and its accessory organs, our understanding of early endoderm development is still incomplete. Traditionally, endoderm has been difficult to study because of its small size and relative fragility. However, recent advances in live cell imaging technologies have dramatically expanded our understanding of this tissue, adding a new appreciation for the complex molecular and morphogenetic processes that mediate gut formation. Several spatially and molecularly distinct subpopulations have been shown to exist within the endoderm before the onset of gastrulation. Here, we review findings that have uncovered complex cell movements within the endodermal layer, before and during gastrulation, leading to the conclusion that cells from primitive endoderm contribute descendants directly to gut.

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Foxa2 regulates polarity and epithelialization in the endoderm germ layer of the mouse embryo

Cited by 192 publications

References 58 publications

NOTCH activation interferes with cell fate specification in the gastrulating mouse embryo

NOTCH activation interferes with cell fate specification in the gastrulating mouse embryo

Ets2-dependent trophoblast signalling is required for gastrulation progression after primitive streak initiation

Gutsy moves in mice: cellular and molecular dynamics of endoderm morphogenesis

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