Abstract

Diabetes mellitus is a significant health problem, affecting approximately 16 million people in the United States. Future therapeutic approaches to diabetes will benefit greatly from a complete understanding of the expression profile of the beta cell under normal and pathological conditions and the functional annotation of differentially expressed genes. The goal of this application is to pool the complementary expertise available in three laboratories for mining of an exciting new resource-the more than 7,700 unique cDNAs cloned by the prior NIDDK-funded consortium on """"""""Functional Genomics of the Developing Endocrine Pancreas"""""""". Our goals are three-fold:
Aim 1 of this proposal will establish a large cDNA microarray enriched for genes expressed in the endocrine pancreas by combining the 7,700 non-redundant cDNAs described above with the 3,400 clones of our current PancChip 2.0. We will employ this microarray for the screen of six paradigms of perturbed P-cell function to identify candidate genes to be analyzed further in aims 2 and 3.
Aim 2 will transfer 1,000 selected cDNA clones from our collection into the FLEXGene repository. This repository will allow for high-throughput transfer of cDNAs into multiple expression vectors. In addition, we will select antigens for the production of antisera to derive marker antibodies of beta cells and their precursors.
In Aim 3 we will functionally evaluate 500 selected cDNAs for their potential role in beta-cell biology. Clones transferred into the FLEXGene repository and sequence verified (Aim 2) will be subcloned into adenovirus vectors to allow for efficient transduction of INS-1 cells. In some cases, the sequence of differentially expressed genes will be used for design of interference RNA (RNAi) oligonucleotides to allow suppression of target gene expression. The effect of modulation of target gene expression will then be tested in various models of R-cell function. Candidate cDNAs that are positive in this screen will be further evaluated in adenovirus-transduced islets and/or transgenic animals. Genes identified in this fashion may become candidate drug targets or could be useful in development of surrogate p-cells for cell-based insulin replacement therapy. This project will serve as a valuable gene discovery effort that will complement the program implemented by the NIDDK-funded beta-cell biology consortium. The new resources generated through this project will be made available to the NIDDK-funded biotechnology centers and the diabetes research community at large.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project--Cooperative Agreements (U01)
Project #
5U01DK056947-07
Application #
6925451
Study Section
Special Emphasis Panel (ZDK1-GRB-2 (O2))
Program Officer
Blondel, Olivier
Project Start
1999-09-30
Project End
2007-07-31
Budget Start
2005-08-01
Budget End
2006-07-31
Support Year
7
Fiscal Year
2005
Total Cost
$2,052,934
Indirect Cost

  Institution

Name
University of Pennsylvania
Department
Genetics
Type
Schools of Medicine
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104

  Publications

Bochkis, Irina M; Rubins, Nir E; White, Peter et al. (2008) Hepatocyte-specific ablation of Foxa2 alters bile acid homeostasis and results in endoplasmic reticulum stress. Nat Med 14:828-36
White, Peter; May, Catherine Lee; Lamounier, Rodrigo N et al. (2008) Defining pancreatic endocrine precursors and their descendants. Diabetes 57:654-68
Keller, David M; McWeeney, Shannon; Arsenlis, Athanasios et al. (2007) Characterization of pancreatic transcription factor Pdx-1 binding sites using promoter microarray and serial analysis of chromatin occupancy. J Biol Chem 282:32084-92
Gupta, Rana K; Gao, Nan; Gorski, Regina K et al. (2007) Expansion of adult beta-cell mass in response to increased metabolic demand is dependent on HNF-4alpha. Genes Dev 21:756-69
Gao, Nan; White, Peter; Doliba, Nicolai et al. (2007) Foxa2 controls vesicle docking and insulin secretion in mature Beta cells. Cell Metab 6:267-79
Chen, Guang; Jensen, Shane T; Stoeckert Jr, Christian J (2007) Clustering of genes into regulons using integrated modeling-COGRIM. Genome Biol 8:R4
Ku, Hsun Teresa; Chai, Jing; Kim, Yoon-Jung et al. (2007) Insulin-expressing colonies developed from murine embryonic stem cell-derived progenitors. Diabetes 56:921-9
De Leon, Diva D; Farzad, Cyrus; Crutchlow, Michael F et al. (2006) Identification of transcriptional targets during pancreatic growth after partial pancreatectomy and exendin-4 treatment. Physiol Genomics 24:133-43
Phuc Le, Phillip; Friedman, Joshua R; Schug, Jonathan et al. (2005) Glucocorticoid receptor-dependent gene regulatory networks. PLoS Genet 1:e16
Zhang, Liping; Rubins, Nir E; Ahima, Rexford S et al. (2005) Foxa2 integrates the transcriptional response of the hepatocyte to fasting. Cell Metab 2:141-8

Showing the most recent 10 out of 19 publications