Gwénola Auda-Boucher scite author profile

Gwénola Auda-Boucher

3Publications

98Citation Statements Received

145Citation Statements Given

How they've been cited

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159

122

Affiliations

Nantes Université, French National Centre for Scientific Research

Publications

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Limb bud colonization by somite-derived angioblasts is a crucial step for myoblast emigration

Yvernogeau

Auda-Boucher

Fontaine-Pérus

2012

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SUMMARYWe have combined the use of mouse genetic strains and the mouse-into-chicken chimera system to determine precisely the sequence of forelimb colonization by presomitic mesoderm (PSM)-derived myoblasts and angioblasts, and the possible role of this latter cell type in myoblast guidance. By creating a new Flk1/Pax3 double reporter mouse line, we have established the precise timetable for angioblast and myoblast delamination/migration from the somite to the limb bud. This timetable was conserved when mouse PSM was grafted into a chicken host, which further validates the experimental model. The use of Pax3 GFP/GFP knockout mice showed that establishment of vascular endothelial and smooth muscle cells (SMCs) is not compromised by the absence of Pax3. Of note, Pax3 GFP/GFP knockout mouse PSM-derived cells can contribute to aortic, but not to limb, SMCs that are derived from the somatopleure. Finally, using the Flk1 lacZ/lacZ knockout mouse, we show that, in the absence of angioblast and vascular network formation, myoblasts are prevented from migrating into the limb. Taken together, our study establishes for the first time the time schedule for endothelial and skeletal muscle cell colonization in the mouse limb bud and establishes the absolute requirement of endothelial cells for myoblast delamination and migration to the limb. It also reveals that cells delaminating from the somites display marked differentiation traits, suggesting that if a common progenitor exists, its lifespan is extremely short and restricted to the somite.

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Endothelial cells within embryonic skeletal muscles: a potential source of myogenic progenitors

Grand

Auda-Boucher

Levitsky

et al. 2004

Experimental Cell Research

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Staging of the Commitment of Murine Cardiac Cell Progenitors

Auda-Boucher

Bertrand

Fontaine-Pérus

et al. 2000

Developmental Biology

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The staging of murine cardiomyocyte specification and determination was investigated in cultures of tissue explants from pre- and postgastrulated embryos and after transplantation of cardiac or cardiogenic tissues from mouse embryos into 2-day-old chick embryos in different locations. The development of transplanted and cultured cells in cardiomyocytes was evaluated by testing the expression of several cardiac transcription factor genes (Nkx 2.5, eHAND, dHAND, GATA-4), alpha-cardiac actin mRNA, and beta-myosin heavy chain protein. In vitro analyses showed that cells with the potential to form cardiac muscle were present prior to gastrulation in 6.5-day postconception (dpc) epiblasts, as indicated by the expression of Nkx 2.5, eHAND, dHAND, and GATA-4 cardiac transcription factors; desmin transgene; alpha-cardiac actin; and beta-myosin heavy chain. Conversely, epiblasts transplanted into the chicken somitic environment did not exhibit full cardiogenic cell differentiation. It was determined that chick host axial structures did not influence cardiogenesis in transplants. Mesoderm from late streak explants was capable of differentiating into the cardiac phenotype in the avian heterotopic environment, indicating that the specification of cardiac precursors (under way by 6.5 dpc) became irreversible at around the late streak stage in mouse embryo. Although in vitro analyses showed that interaction with endoderm is not required for the specification of murine cardiac cells, the presence of endoderm in explant cultures between mid- and late streak stages stimulated emerging mesodermal cells to adopt a myocardial pathway, whereas ectoderm had no influence on cardiomyogenesis.

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