An Integrated Cell Purification and Genomics Strategy Reveals Multiple Regulators of Pancreas Development e1004645

The regulatory logic underlying global transcriptional programs controlling development of visceral organs like the pancreas remains undiscovered. Here, we profiled gene expression in 12 purified populations of fetal and adult pancreatic epithelial cells representing crucial progenitor cell subsets,...

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Published inPLoS genetics Vol. 10; no. 10
Main Authors Benitez, Cecil M, Qu, Kun, Sugiyama, Takuya, Pauerstein, Philip T, Liu, Yinghua, Tsai, Jennifer, Gu, Xueying, Ghodasara, Amar, Arda, H Efsun, Zhang, Jiajing, Dekker, Joseph D, Tucker, Haley O, Chang, Howard Y, Kim, Seung K
Format Journal Article
LanguageEnglish
Published San Francisco Public Library of Science 01.10.2014
Subjects
Biology
Charitable trusts
Diabetes
Gene expression
Genomes
Genomics
Hypotheses
Integrated approach
Pancreas
Rodents
Studies
Transcription factors
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Summary:The regulatory logic underlying global transcriptional programs controlling development of visceral organs like the pancreas remains undiscovered. Here, we profiled gene expression in 12 purified populations of fetal and adult pancreatic epithelial cells representing crucial progenitor cell subsets, and their endocrine or exocrine progeny. Using probabilistic models to decode the general programs organizing gene expression, we identified co-expressed gene sets in cell subsets that revealed patterns and processes governing progenitor cell development, lineage specification, and endocrine cell maturation. Purification of Neurog3 mutant cells and module network analysis linked established regulators such as Neurog3 to unrecognized gene targets and roles in pancreas development. Iterative module network analysis nominated and prioritized transcriptional regulators, including diabetes risk genes. Functional validation of a subset of candidate regulators with corresponding mutant mice revealed that the transcription factors Etv1, Prdm16, Runx1t1 and Bcl11a are essential for pancreas development. Our integrated approach provides a unique framework for identifying regulatory genes and functional gene sets underlying pancreas development and associated diseases such as diabetes mellitus.
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ISSN:1553-7390
1553-7404
DOI:10.1371/journal.pgen.1004645