1. Essential roles of ECAT15-2/Dppa2 in functional lung development
- Author
-
Masato Nakagawa, Arufumi Shiota, Tomoko Ichisaka, Shinya Yamanaka, and Tomonori Nakamura
- Subjects
Male ,Mice, Transgenic ,Regulatory Sequences, Nucleic Acid ,Biology ,DNA-binding protein ,Epigenesis, Genetic ,Mice ,Pregnancy ,Animals ,Epigenetics ,Lung ,Molecular Biology ,Gene ,Transcription factor ,Embryonic Stem Cells ,Homeodomain Proteins ,Mice, Knockout ,Binding Sites ,Gene Expression Regulation, Developmental ,Nuclear Proteins ,Articles ,Cell Biology ,DNA-binding domain ,Molecular biology ,Chromatin ,Mice, Inbred C57BL ,genomic DNA ,embryonic structures ,Homeobox Protein Nkx-2.5 ,Female ,Chromatin immunoprecipitation ,Transcription Factors - Abstract
Many transcription factors and DNA binding proteins play essential roles in the development of organs in which they are highly and/or specifically expressed. Embryonic stem cell (ESC)-associated transcript 15-1 (ECAT15-1) and ECAT15-2, also known as developmental pluripotency-associated 4 (Dppa4) and Dppa2, respectively, are enriched in mouse ESCs and preimplantation embryos, and their genes encode homologous proteins with a common DNA binding domain known as the SAP motif. Previously, ECAT15-1 was shown to be important in lung development, while it is dispensable in early development. In this study, we generated ECAT15-2 single and ECAT15-1 ECAT15-2 double knockout (double KO) mice and found that almost all mutants, like ECAT15-1 mutants, died around birth with respiratory defects. Paradoxically, the expression of neither ECAT15-1 nor ECAT15-2 was detected in lung organogenesis. Several genes, such as Nkx2-5, Gata4, and Pitx2, were downregulated in the ECAT15-2-null lung. On the other hand, genomic DNA of these genes showed inactive chromatin statuses in ECAT15-2-null ESCs, but not in wild-type ESCs. The chromatin immunoprecipitation (ChIP) assay revealed that ECAT15-2 binds to the regulatory region of Nkx2-5 in ESCs. These data suggest that ECAT15-2 has important roles in lung development, where it is no longer expressed, by leaving epigenetic marks from earlier developmental stages.
- Published
- 2011