1. Senescence Osteoblast-Derived Exosome-Mediated miR-139-5p Regulates Endothelial Cell Functions.
- Author
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Lu, Qing, Qin, Hao, Tan, Haitao, Wei, Cansen, Yang, Xinni, He, Jinqiao, Liang, Weibing, and Li, Jing
- Subjects
ENDOTHELIAL cells ,CELL differentiation ,REVERSE transcriptase polymerase chain reaction ,EXOSOMES ,NEOVASCULARIZATION inhibitors ,ANIMAL experimentation ,OSTEOBLASTS ,RNA ,APOPTOSIS ,GENE expression ,CELL motility ,CELLULAR signal transduction ,CELL proliferation ,GENES ,AGING ,POLYMERASE chain reaction ,MICE - Abstract
The pathogenesis of osteoporosis is considered extremely intricate. Osteoblast differentiation and angiogenesis can greatly affect bone development and formation, given their coupling role in these processes. Exosome-mediated miRNA regulates cellular senescence, proliferation, and differentiation. However, whether senescent osteoblasts can regulate the senescence of vascular endothelial cell by miRNA through exosomal pathway remains unclear. In this study, senescent osteoblasts could regulate endothelial cell function, promote cell senescence and apoptosis, and decrease cell proliferation via exosomal pathway. miR-139-5p showed high expression in senescent osteoblasts and their exosomes. After senescent osteoblast-derived exosome treatment, miR-139-5p was also upregulated in endothelial cells. Furthermore, transfection of miR-139-5p mimic promoted the senescence and apoptosis of vascular endothelial cells and inhibited their proliferation and migration, whereas transfection of miR-139-5p inhibitor rescued the effect of D-galactose. Using double luciferase assay, TBX1 was confirmed to be a direct target gene of miR-139-5p. In conclusion, senescent osteoblast-derived exosome-mediated miR-139-5p regulated endothelial cell function via exosomal pathway. Our study revealed the role of osteoblast-derived exosomes in the bone environment during aging, providing a clue for inventing a new target therapy. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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