Focal adhesion kinase is required for neural crest cell morphogenesis during mouse cardiovascular development
Ainara Vallejo-Illarramendi, … , Keling Zang, Louis F. Reichardt
Ainara Vallejo-Illarramendi, … , Keling Zang, Louis F. Reichardt
Published July 1, 2009
Citation Information: J Clin Invest. 2009;119(8):2218-2230. https://doi.org/10.1172/JCI38194.
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Focal adhesion kinase is required for neural crest cell morphogenesis during mouse cardiovascular development

Abstract

Neural crest cells (NCCs) participate in the remodeling of the cardiac outflow tract and pharyngeal arch arteries during cardiovascular development. Focal adhesion kinase (FAK) mediates signal transduction by integrin and growth factor receptors, each of which is important for normal cardiovascular development. To investigate the role of FAK in NCC morphogenesis, we deleted it in murine NCCs using Wnt1cre, yielding craniofacial and cardiovascular malformations resembling those observed in individuals with DiGeorge syndrome. In these mice, we observed normal cardiac NCC migration but reduced differentiation into smooth muscle within the aortic arch arteries and impaired cardiac outflow tract rotation, which resulted in a dextroposed aortic root. Moreover, within the conotruncal cushions, Fak-deficient NCCs formed a less organized mesenchyme, with reduced expression of perlecan and semaphorin 3C, and exhibited disorganized F-actin stress fibers within the aorticopulmonary septum. Additionally, absence of Fak resulted in reduced in vivo phosphorylation of Crkl and Erk1/2, components of a signaling pathway essential for NCC development. Consistent with this, both TGF-β and FGF induced FAK and Crkl phosphorylation in control but not Fak-deficient NCCs in vitro. Our results indicate that FAK plays an essential role in cardiac outflow tract development by promoting the activation of molecules such as Crkl and Erk1/2.

Authors

Ainara Vallejo-Illarramendi, Keling Zang, Louis F. Reichardt

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Figure 1

Cranial and cardiovascular defects in Wnt1creFakflox/flox mice.

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Cranial and cardiovascular defects in Wnt1creFakflox/flox mice. (A) ...
(A) Wnt1creFakflox/flox mutants display a cleft palate (white arrowhead), with unfused palatal shelves. (B) Ventral view of E20 mutant and control skulls, stained with Alizarin Red (bone) and Alcian Blue (cartilage). Mutants show defective formation of the maxillary shelves (ms), palatine (p), and pterygoid process (pt) (yellow arrowheads). (C) E14.5 mutants show misplaced palatal shelves (ps) that failed to rotate or elevate (asterisk) and remained lateral to the tongue (tg). (D) Frontal view of P0 hearts injected with polymer casting material and cleared with Methyl salicylate, showing ventricular septal defects (VSD; arrowheads) in mutants. Insets show sections of these hearts stained with H&E. (E and F) Aortic arch artery phenotypes include a common brachiocephalic trunk (CBT; arrowhead in E) and interruption or coarctation of the aortic arch (IAA; arrowhead in F). Hearts in F were injected with blue polymer for better visualization of aortic arch patterning. (GI) Outflow tract abnormalities in mutants include persistent truncus arteriosus (PTA) in G and H (yellow arrowheads) and overriding aorta (OA) in I (black arrowheads). (H and I) Paraffin-embedded cross (H) and frontal (I) serial sections from E20 hearts stained with H&E. Ao, aorta; ba, brachiocephalic artery; Ctl, control; lc, left carotid artery; Mut, Wnt1creFakflox/flox mutant; n, nasal septum; Pt, pulmonary trunk. Original magnification, ×4 (A, B, and F); ×10 (CE and GI).