A Tbx1-Six1/Eya1-Fgf8 genetic pathway controls mammalian cardiovascular and craniofacial morphogenesis
Chaoshe Guo, … , Anne Moon, Xue Li
Chaoshe Guo, … , Anne Moon, Xue Li
Published March 1, 2011
Citation Information: J Clin Invest. 2011;121(4):1585-1595. https://doi.org/10.1172/JCI44630.
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Research Article Cardiology

A Tbx1-Six1/Eya1-Fgf8 genetic pathway controls mammalian cardiovascular and craniofacial morphogenesis

Abstract

Shared molecular programs govern the formation of heart and head during mammalian embryogenesis. Development of both structures is disrupted in human chromosomal microdeletion of 22q11.2 (del22q11), which causes DiGeorge syndrome (DGS) and velo-cardio-facial syndrome (VCFS). Here, we have identified a genetic pathway involving the Six1/Eya1 transcription complex that regulates cardiovascular and craniofacial development. We demonstrate that murine mutation of both Six1 and Eya1 recapitulated most features of human del22q11 syndromes, including craniofacial, cardiac outflow tract, and aortic arch malformations. The mutant phenotypes were attributable in part to a reduction of fibroblast growth factor 8 (Fgf8), which was shown to be a direct downstream effector of Six1 and Eya1. Furthermore, we showed that Six1 and Eya1 genetically interacted with Fgf8 and the critical del22q11 gene T-box transcription factor 1 (Tbx1) in mice. Together, these findings reveal a Tbx1-Six1/Eya1-Fgf8 genetic pathway that is crucial for mammalian cardiocraniofacial morphogenesis and provide insights into the pathogenesis of human del22q11 syndromes.

Authors

Chaoshe Guo, Ye Sun, Bin Zhou, Rosalyn M. Adam, XiaoKun Li, William T. Pu, Bernice E. Morrow, Anne Moon, Xue Li

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Figure 6

Eya1 functionally interacts with Tbx1 in vivo.

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Eya1 functionally interacts with Tbx1 in vivo. (A–D) Gross views of card...
(AD) Gross views of cardiovascular structures of newborn Eya1/Tbx1 compound mutants. Asterisk in C denotes interrupted aortic arches. (EJ) Whole-mount RNA in situ hybridization revealed altered Six1 and Eya1 expression in Tbx1–/– (F and I) and TBX1Bac/+ gain-of-function mutants (G and J). Tbx1–/– mutants had hypoplastic and unsegmented caudal PAs (F and I, double asterisks). Brackets in G and J indicate increased expression of Six1 and Eya1 in the TBX1 gain-of-function mutants. Arrows in G denote Six1 upregulation. Arrowheads in J indicate enhanced Eya1 expression. CA, cervical aortic arch; LR, lateral rectus muscle; md, mandible; mx, maxillary; np, nasal placode; O, otic vesicle; Tr, trachea. Original magnification, ×63 (EJ).