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The TET-Sall4-BMP regulatory axis controls craniofacial cartilage development

Weigang Wang, Weigang Wang, Na Yang, Liangliang Wang, Yuanxiang Zhu, Xiao Chu, Weijie Xu, Yawei Li, Yihai Xu, Lina Gao, Beibei Zhang, Guoqiang Zhang, Qinmiao Sun, Weihong Wang, Weihong Wang, Qiang Wang, Wenxin Zhang, Dahua Chen

2024Cell Reports11 citationsDOIOpen Access PDF

Abstract

Craniofacial microsomia (CFM) is a congenital defect that usually results from aberrant development of embryonic pharyngeal arches. However, the molecular basis of CFM pathogenesis is largely unknown. Here, we employ the zebrafish model to investigate mechanisms of CFM pathogenesis. In early embryos, tet2 and tet3 are essential for pharyngeal cartilage development. Single-cell RNA sequencing reveals that loss of Tet2/3 impairs chondrocyte differentiation due to insufficient BMP signaling. Moreover, biochemical and genetic evidence reveals that the sequence-specific 5mC/5hmC-binding protein, Sall4, binds the promoter of bmp4 to activate bmp4 expression and control pharyngeal cartilage development. Mechanistically, Sall4 directs co-phase separation of Tet2/3 with Sall4 to form condensates that mediate 5mC oxidation on the bmp4 promoter, thereby promoting bmp4 expression and enabling sufficient BMP signaling. These findings suggest the TET-BMP-Sall4 regulatory axis is critical for pharyngeal cartilage development. Collectively, our study provides insights into understanding craniofacial development and CFM pathogenesis.

Topics & Concepts

CraniofacialCartilageCell biologyAnatomyBiologyGeneticsEpigenetics and DNA MethylationCancer-related gene regulationCancer-related molecular mechanisms research
The TET-Sall4-BMP regulatory axis controls craniofacial cartilage development | Litcius