The broad goal of the research proposed is to understand how ubiquitination and endocytosis regulate particular cell communication pathways during animal development. Using a combination of genetic, molecular and biochemical techniques, a unique mechanism for the regulation of cell communication during animal development will be investigated. A cell signaling pathway essential for patterning the Drosophila compound eye has been identified; the signaling cells require the activity of a deubiquitinating enzyme called Fat facets (Faf). The function of Faf in these cells is to cleave a ubiquitin (Ub) chain from a protein called Liquid facets (Lqf). As the Ub chain targets Lqf for degradation, Faf activity increases the level of Lqf in the signaling cells. Faf is the only example of a deubiquitinating enzyme that removes a Ub chain from a specific protein, a function with respect to ubiquitination similar to that of a phosphatase with respect to phosphorylation. Moreover, Lqf is a Drosophila homolog of epsin, a vertebrate endocytic protein whose function is poorly understood. Thus, an endocytic protein is the target for regulating, via Ub, a cell communication pathway critical to cell determination. First, Drosophila molecular genetics will be used to identify additional components of the essential Faf/Lqf pathway in the Drosophila eye. Second, the substrates of Faf in its other roles in Drosophila development will be identified. Third, portions of Lqf protein required for its interaction with Faf, and for its other functions, will be localized. Fourth, a genetic screen is proposed to investigate the function of Lqf in endocytosis and other potential processes. Finally, a second Drosophila epsin gene, D-epsin2, will be analyzed; the structure and function of D-epsin2 will be investigated. As Faf and Lqf have human homologs, the pathways elucidated here will be universal for animal cells. Moreover, as Ub-mediated protein degradation and endocytosis are important for many cellular functions, several human disease genes, including oncogenes and also genes implicated in Parkinson?s and Alzheimer?s, encode proteins in these two pathways.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD030680-13
Application #
6887821
Study Section
Genetics Study Section (GEN)
Program Officer
Henken, Deborah B
Project Start
1993-07-08
Project End
2007-05-31
Budget Start
2005-06-01
Budget End
2006-05-31
Support Year
13
Fiscal Year
2005
Total Cost
$236,250
Indirect Cost
Name
University of Texas Austin
Department
Biochemistry
Type
Schools of Arts and Sciences
DUNS #
170230239
City
Austin
State
TX
Country
United States
Zip Code
78712
Xie, Xuanhua; Cho, Bomsoo; Fischer, Janice A (2012) Drosophila Epsin's role in Notch ligand cells requires three Epsin protein functions: the lipid binding function of the ENTH domain, a single Ubiquitin interaction motif, and a subset of the C-terminal protein binding modules. Dev Biol 363:399-412
Cho, Bomsoo; Fischer, Janice A (2012) Ral inhibits ligand-independent Notch signaling in Drosophila. Small GTPases 3:186-91
Lee, Ji-Hoon; Fischer, Janice A (2012) Drosophila Tel2 is expressed as a translational fusion with EpsinR and is a regulator of wingless signaling. PLoS One 7:e46357
Banks, Susan M L; Cho, Bomsoo; Eun, Suk Ho et al. (2011) The functions of auxilin and Rab11 in Drosophila suggest that the fundamental role of ligand endocytosis in notch signaling cells is not recycling. PLoS One 6:e18259
Weinmaster, Gerry; Fischer, Janice A (2011) Notch ligand ubiquitylation: what is it good for? Dev Cell 21:134-44
Cho, Bomsoo; Fischer, Janice A (2011) Ral GTPase promotes asymmetric Notch activation in the Drosophila eye in response to Frizzled/PCP signaling by repressing ligand-independent receptor activation. Development 138:1349-59
Lee, Ji-Hoon; Overstreet, Erin; Fitch, Erin et al. (2009) Drosophila liquid facets-Related encodes Golgi epsin and is an essential gene required for cell proliferation, growth, and patterning. Dev Biol 331:1-13
Wu, Yaning; Bolduc, Francois V; Bell, Kimberly et al. (2008) A Drosophila model for Angelman syndrome. Proc Natl Acad Sci U S A 105:12399-404
Eun, Suk Ho; Banks, Susan M L; Fischer, Janice A (2008) Auxilin is essential for Delta signaling. Development 135:1089-95
Overstreet, Erin; Fitch, Erin; Fischer, Janice A (2004) Fat facets and Liquid facets promote Delta endocytosis and Delta signaling in the signaling cells. Development 131:5355-66

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