Afficher la couverture 'Single-cell morphometrics reveals T-box gene-dependent patterns of epithelial tension in the Second Heart field | Guijarro, Clara' en grand format
/5

0 avis

Single-cell morphometrics reveals T-box gene-dependent patterns of epithelial tension in the Second Heart field

Archive ouverte

Guijarro, Clara | Song, Solène | Aigouy, Benoit | Clément, Raphaël | Villoutreix, Paul | Kelly, Robert, G

Edité par CCSD ; Nature Publishing Group -

International audience. The vertebrate heart tube extends by progressive addition of epithelial second heart field (SHF) progenitor cells from the dorsal pericardial wall. The interplay between epithelial mechanics and genetic mechanisms during SHF deployment is unknown. Here, we present a quantitative single-cell morphometric analysis of SHF cells during heart tube extension, including force inference analysis of epithelial stress. Joint spatial Principal Component Analysis reveals that cell orientation and stress direction are the main parameters defining apical cell morphology and distinguishes cells adjacent to the arterial and venous poles. Cell shape and mechanical forces display a dynamic relationship during heart tube formation. Moreover, while the T-box transcription factor Tbx1 is necessary for cell orientation towards the arterial pole, activation of Tbx5 in the posterior SHF correlates with the establishment of epithelial stress and SHF deletion of Tbx5 relaxes the progenitor epithelium. Integrating findings from cell-scale feature patterning and mechanical stress provides new insights into cardiac morphogenesis.

Suggestions

Du même auteur

On the involvement of the second heart field in congenital heart defects

Archive ouverte | Guijarro, Clara | CCSD

International audience. Congenital heart defects (CHD) affect 1 in 100 live births and result from defects in cardiac development. Growth of the early heart tube occurs by the progressive addition of second heart fi...

Random walk informed community detection reveals heterogeneities in the lymph node conduits network

Archive ouverte | Song, Solène | CCSD

Random walks on networks are widely used to model stochastic processes such as search strategies, transportation problems or disease propagation. A prominent example of such process is the guiding of naive T cells by the lymph nod...

EPySeg: a coding-free solution for automated segmentation of epithelia using deep learning

Archive ouverte | Aigouy, Benoit | CCSD

International audience. Epithelia are dynamic tissues that self-remodel during their development. During morphogenesis, the tissue-scale organization of epithelia is obtained through a sum of individual contribution...

Chargement des enrichissements...