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Merck

Age-related secretion of grancalcin by macrophages induces skeletal stem/progenitor cell senescence during fracture healing.

Bone research (2024-01-25)
Nan-Yu Zou, Ran Liu, Mei Huang, Yu-Rui Jiao, Jie Wei, Yangzi Jiang, Wen-Zhen He, Min Huang, Yi-Li Xu, Ling Liu, Yu-Chen Sun, Mi Yang, Qi Guo, Yan Huang, Tian Su, Ye Xiao, Wei-Shan Wang, Chao Zeng, Guang-Hua Lei, Xiang-Hang Luo, Chang-Jun Li
RESUMEN

Skeletal stem/progenitor cell (SSPC) senescence is a major cause of decreased bone regenerative potential with aging, but the causes of SSPC senescence remain unclear. In this study, we revealed that macrophages in calluses secrete prosenescent factors, including grancalcin (GCA), during aging, which triggers SSPC senescence and impairs fracture healing. Local injection of human rGCA in young mice induced SSPC senescence and delayed fracture repair. Genetic deletion of Gca in monocytes/macrophages was sufficient to rejuvenate fracture repair in aged mice and alleviate SSPC senescence. Mechanistically, GCA binds to the plexin-B2 receptor and activates Arg2-mediated mitochondrial dysfunction, resulting in cellular senescence. Depletion of Plxnb2 in SSPCs impaired fracture healing. Administration of GCA-neutralizing antibody enhanced fracture healing in aged mice. Thus, our study revealed that senescent macrophages within calluses secrete GCA to trigger SSPC secondary senescence, and GCA neutralization represents a promising therapy for nonunion or delayed union in elderly individuals.

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Sigma-Aldrich
Anti-p21 Antibody, clone 5G7, ZooMAb® Rabbit Monoclonal, recombinant, expressed in HEK 293 cells