| Literature DB >> 28535373 |
Yitai An1, Gang Wang1, Yarui Diao1, Yanyang Long1, Xinrong Fu1, Mingxi Weng1, Liang Zhou2, Kun Sun2, Tom H Cheung1, Nancy Y Ip1, Hao Sun2, Huating Wang2, Zhenguo Wu3.
Abstract
During mouse embryo development, both muscle progenitor cells (MPCs) and brown adipocytes (BAs) are known to derive from the same Pax7+/Myf5+ progenitor cells. However, the underlying mechanisms for the cell fate control remain unclear. In Pax7-null MPCs from young mice, several BA-specific genes, including Prdm16 and Ucp1 and many other adipocyte-related genes, were upregulated with a concomitant reduction of Myod and Myf5, two muscle lineage-determining genes. This suggests a cell fate switch from MPC to BA. Consistently, freshly isolated Pax7-null but not wild-type MPCs formed lipid-droplet-containing UCP1+ BA in culture. Mechanistically, MyoD and Myf5, both known transcription targets of Pax7 in MPC, potently repress Prdm16, a BA-specific lineage-determining gene, via the E2F4/p107/p130 transcription repressor complex. Importantly, inducible Pax7 ablation in developing mouse embryos promoted brown fat development. Thus, the MyoD/Myf5-E2F4/p107/p130 axis functions in both the Pax7+/Myf5+ embryonic progenitor cells and postnatal myoblasts to repress the alternative BA fate.Entities:
Keywords: E2F4/p107/p130; Myf5; MyoD; Pax7; Prdm16; Ucp1; brown adipocytes; cell fate control; muscle progenitor cells
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Year: 2017 PMID: 28535373 DOI: 10.1016/j.devcel.2017.04.012
Source DB: PubMed Journal: Dev Cell ISSN: 1534-5807 Impact factor: 12.270