PiR48444 inhibits MSC osteogenic differentiation and bone regeneration via targeting METTL7A/eIF4E-mediated BMP2 m6A methylation
Zheng Zhichao, Li Xingyang, Qin Wenguang, Yu Shuiqing, Xu Tianru, Cheng Haoyu, Xie Wei, Fu Zhihe, Pan Guokai, Zhang Yuhui, Huang Wenyan, Liu Fei, Jiang Yifan, Jaspers Richard T., Pathak Janak L., Wu
Journal:Communications Biology
IF:5.8
DOI:10.1038/s42003-026-09583-1
PMID:41611981
Published:2026-01-29
research field:真菌学植物病理学
Abstract
Non-coding RNAs, including piwi-interacting RNAs (piRNAs), are known to regulate osteogenic differentiation in bone marrow-derived mesenchymal stem cells (BMSCs); their role in mesenchymal stem cells (MSCs) from diverse origins remains unclear. In this study, we identified piR48444 as a key regulator that is downregulated during the osteogenic differentiation of stem cells from exfoliated deciduous teeth (SHED) but is upregulated in inflamed and aged BMSCs. Functionally, piR48444 inhibited, while its knockdown enhanced osteogenic differentiation across MSCs from multiple sources. Notably, piR48444-depleted MSCs exhibited superior bone defect repair capacity. PiR48444 antagomir promoted bone regeneration in LPS-induced osteolysis mice and aging mice. Mechanistically, we demonstrated that piR48444 targets METTL7A , suppressing BMP2 mRNA m 6 A methylation. Furthermore, we discovered that the METTL7A/eIF4E complex binds to BMP2 mRNA, thereby enhancing its translational efficiency. Our findings establish piR48444 as a negative regulator of MSC osteogenesis through METTL7A-mediated BMP2 m 6 A methylation, highlighting its potential as a therapeutic target to enhance MSC-based bone regeneration strategies.
本文使用的Yeasen产品


