Atbf1 is required for the Pit1 gene early activation
- 19 February 2008
- journal article
- research article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 105 (7) , 2481-2486
- https://doi.org/10.1073/pnas.0712196105
Abstract
Enhancers have been functionally described for >35 years, but the molecular principles underlying the integration of regulatory inputs to alternate gene enhancers used during mammalian organogenesis remain incompletely understood. Using a combination of in vivo enhancer mapping and proteomics approaches, we have established that two distant and distinct early enhancers, each requiring different transcription complexes, are required for full activation of the gene encoding the pituitary lineage determining factor, Pit1. A transcription factor belonging to the “giant, multiple-homeodomain and zinc finger family,” Atbf1, serves as a novel pituitary regulator for one of the two required enhancers as shown by genetic and in vitro analysis.Keywords
This publication has 27 references indexed in Scilit:
- Homeodomain-Mediated β-Catenin-Dependent Switching Events Dictate Cell-Lineage DeterminationCell, 2006
- Homeotic factor ATBF1 induces the cell cycle arrest associated with neuronal differentiationDevelopment, 2005
- Frequent somatic mutations of the transcription factor ATBF1 in human prostate cancerNature Genetics, 2005
- ATBF1‐A protein, but not ATBF1‐B, is preferentially expressed in developing rat brainJournal of Comparative Neurology, 2003
- Pituitary Development: Regulatory Codes in Mammalian OrganogenesisScience, 2002
- Cofactor Dynamics and Sufficiency in Estrogen Receptor–Regulated TranscriptionCell, 2000
- Multistep Control of Pituitary OrganogenesisScience, 1997
- The PIT-1 Gene Is Regulated by Distinct Early and Late Pituitary-Specific EnhancersDevelopmental Biology, 1997
- Cloning and Characterization of an ATBF1 Isoform That Expresses in a Neuronal Differentiation-dependent MannerJournal of Biological Chemistry, 1995
- Dwarf locus mutants lacking three pituitary cell types result from mutations in the POU-domain gene pit-1Nature, 1990