合成代谢
生物信息学
合成代谢剂
间充质干细胞
生物信息学
移植
损失函数
医学
Wnt信号通路
骨质疏松症
硬骨素
骨骼肌
内科学
生物
对接(动物)
拇指
细胞生物学
化学
计算生物学
体内
LRP5
骨折
内分泌学
功能(生物学)
作者
Fanyuan Yu,Feifei Li,Peng Yu,Bin Zhou,Cun‐Yu Wang,Ling Ye
标识
DOI:10.1038/s41551-026-01695-7
摘要
WNT proteins have been recognized as key regulators of skeletal health. However, developing WNT-associated bone anabolic agents is clinically challenging and expensive. Here we identify the reconstructed thumb and index domains of WNT7B (WNT7BRTID) as a WNT-derived bone anabolic peptide via Alphafold-empowered sequence prediction and in silico docking screening. In aged mice and pigs models of osteoporosis, WNT7BRTID peptides demonstrate therapeutic potential by improving the osteogenic potential of mesenchymal stromal/stem cells (MSCs) and enhancing bone regeneration. Using single-cell sequencing, transgenic lineage tracking and biochemical approaches, we show that WNT7BRTID harnesses the function and osteogenic lineage generation of intrinsic tissue-residual MSCs without needing MSC transplantation to repair a critical-sized defect effectively. Mechanistically, WNT7BRTID activates non-canonical Ca2+-NFAT signalling through RECK/GPR124 to drive its bone anabolic effects, independent of canonical Wnt/β-catenin signalling known for its oncogenic effects. Our results suggest that WNT7BRTID could work as bone anabolic agent for alleviating bone loss in aging and for fracture repair by promoting MSC function via Ca2+-NFAT signalling. Alphafold-empowered sequence prediction and in silico docking screening allow the identification of a preserved domain of WNT7B with therapeutic osteogenic properties that works by activating the non-canonical Ca2+-NFAT signalling pathway.
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