Holoprosencephaly represents a common birth defect (1:16,000 in live births and 1:250 in stillbirths) with a broad spectrum of craniofacial malformations ranging from distressful cyclopia to mild symptom of a single central incisor. It is caused by defects in the specification of the ventral forebrain (a part of the anterior axial midline), which subsequently lead to incomplete separation of the brain into the left and right hemispheres. Recent studies indicated that Nodal signaling plays a central role in controlling midline development, we therefore will focus on the regulation of Nodal signaling in mouse embryogenesis with a special interest in anterior axial midline formation. Nodal is a member of the transforming growth factor beta (TGF-beta) superfamily that utilizes a signaling pathway defined by Activin type I and II receptors, Smad2 and 4, and FoxH1 (FAST). Importantly, members of the EGF-CFC family of extracellular proteins such as mouse Cripto are essential co-factors for Nodal. We previously reported a Cripto Null allele, and recently we generated a Cripto hypomorphic allele, Cripto3-loxP, by genetic manipulation. Approximately 50 percent of the Cripto3-loxP/CriptoNull mice displayed a wide range of axial midline defects resembling holoprosencephaly. In contrast, TGIF is a homeobox gene encoding a nuclear protein that antagonizes TGF-( signaling by blocking Smad2 function. Interestingly, mutations in human TGIF gene are associated with holoprosencephaly, suggesting its function in axial midline formation, presumably through regulating Nodal/Smad2 signaling pathway. Based on these results, we will pursue the following Specific Aims in the proposed research: I) Analysis of the Cripto3-loxP/CriptoNull mice as a model system for ventral forebrain defects and HPE by detailed analysis of the defects in Cripto3-loxP/CriptoNull mice at morphology and molecular levels; II) Investigation of mechanisms underlying Cripto function in mouse axial midline formation by identifying the tissues and cells where Cripto is functioning and downstream target genes of Cripto; III) Investigation of TGIF function in mouse axial midline development by generating TGIF null embryos and examining the modulation of Nodal signaling by TGIF. These studies should improve our understanding of mammalian axial midline formation and human holoprosencephaly.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
5R01DE015565-05
Application #
7458656
Study Section
Skeletal Biology Development and Disease Study Section (SBDD)
Program Officer
Scholnick, Steven
Project Start
2004-07-01
Project End
2011-06-30
Budget Start
2008-07-01
Budget End
2011-06-30
Support Year
5
Fiscal Year
2008
Total Cost
$310,160
Indirect Cost
Name
University of Louisville
Department
Dentistry
Type
Schools of Dentistry
DUNS #
057588857
City
Louisville
State
KY
Country
United States
Zip Code
40292
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Jin, Jiu-Zhen; Tan, Min; Ding, Jixiang (2013) Analysis of Cripto expression during mouse cardiac myocyte differentiation. Int J Dev Biol 57:793-7
Jin, Jiu-Zhen; Ding, Jixiang (2013) Cripto is required for mesoderm and endoderm cell allocation during mouse gastrulation. Dev Biol 381:170-8
Jin, Jiu-Zhen; Tan, Min; Warner, Dennis R et al. (2010) Mesenchymal cell remodeling during mouse secondary palate reorientation. Dev Dyn 239:2110-7
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Li, Qun; Ding, Jixiang (2007) Gene expression analysis reveals that formation of the mouse anterior secondary palate involves recruitment of cells from the posterior side. Int J Dev Biol 51:167-72
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Jin, Jiu-Zhen; Ding, Jixiang (2006) Analysis of cell migration, transdifferentiation and apoptosis during mouse secondary palate fusion. Development 133:3341-7
Jin, Jiu-Zhen; Ding, Jixiang (2006) Analysis of Meox-2 mutant mice reveals a novel postfusion-based cleft palate. Dev Dyn 235:539-46