The long term goal of this proposal is to understand the multiple roles that the Notch signaling pathway plays during embryonic development in mammals. The components of the Notch signaling pathway constitute an evolutionarily-conserved set of proteins that are essential for proper embryonic development in numerous organisms. Mutations in components of the Notch pathway also contribute to human disease. In Drosophila, the Notch gene encodes a large transmembrane receptor that, at the extracellular surface of a cell, interacts with membrane-bound ligands encoded by the Delta and Serrate genes. Work by us and by others has determined the mutant phenotypes for all of the known receptors and ligands of the Notch pathway in mice. This groundwork has permitted us to identify the Notch family receptors with the most severe and earliest-acting mutant phenotypes. Embryos homozygous for a null mutation of the Notch1 gene have the most severe phenotype of all the Notch receptor mutants.
The aims of this proposal are to: 1) construct lacZ-marked embryonic stem cell lines homozygous for a null mutation of the Notch] gene, and study the behavior of these mutant cells in chimeras made with wild type mouse embryos; 2) generate an allelic series of Notch1 mutant alleles; 3) assess dosage- sensitive effects of mutations of the Notch1 and Jagged2 genes on differentiation of sensory hair cells in the inner ear; 4) create missense alleles of the Notch3 gene (similar to those observed in a human disease syndrome) to determine if they cause gain of function mutations. These studies will further our understanding of the roles of the Notch signaling pathway in mammalian development. The information gained by analyzing this model system should be applicable to the study of both normal and abnormal human development.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS036437-05
Application #
6187901
Study Section
Human Embryology and Development Subcommittee 1 (HED)
Program Officer
Leblanc, Gabrielle G
Project Start
1996-09-09
Project End
2004-06-30
Budget Start
2000-07-01
Budget End
2001-06-30
Support Year
5
Fiscal Year
2000
Total Cost
$322,397
Indirect Cost
Name
Jackson Laboratory
Department
Type
DUNS #
042140483
City
Bar Harbor
State
ME
Country
United States
Zip Code
04609
Xu, Keli; Nieuwenhuis, Erica; Cohen, Brenda L et al. (2010) Lunatic Fringe-mediated Notch signaling is required for lung alveogenesis. Am J Physiol Lung Cell Mol Physiol 298:L45-56
Li, Yuxin; Takeshita, Kyosuke; Liu, Ping-Yen et al. (2009) Smooth muscle Notch1 mediates neointimal formation after vascular injury. Circulation 119:2686-92
Lozier, Julie; McCright, Brent; Gridley, Thomas (2008) Notch signaling regulates bile duct morphogenesis in mice. PLoS One 3:e1851
Rodriguez, Steve; Sickles, Heather M; Deleonardis, Chris et al. (2008) Notch2 is required for maintaining sustentacular cell function in the adult mouse main olfactory epithelium. Dev Biol 314:40-58
Kiernan, Amy E; Li, Renhua; Hawes, Norman L et al. (2007) Genetic background modifies inner ear and eye phenotypes of jag1 heterozygous mice. Genetics 177:307-11
Loomes, Kathleen M; Russo, Pierre; Ryan, Matthew et al. (2007) Bile duct proliferation in liver-specific Jag1 conditional knockout mice: effects of gene dosage. Hepatology 45:323-30
Amsen, Derk; Antov, Andrey; Jankovic, Dragana et al. (2007) Direct regulation of Gata3 expression determines the T helper differentiation potential of Notch. Immunity 27:89-99
Schwarting, Gerald A; Gridley, Thomas; Henion, Timothy R (2007) Notch1 expression and ligand interactions in progenitor cells of the mouse olfactory epithelium. J Mol Histol 38:543-53
McCright, Brent; Lozier, Julie; Gridley, Thomas (2006) Generation of new Notch2 mutant alleles. Genesis 44:29-33
Kiernan, Amy E; Xu, Jingxia; Gridley, Thomas (2006) The Notch ligand JAG1 is required for sensory progenitor development in the mammalian inner ear. PLoS Genet 2:e4

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