Engineered Dll4-overexpressing osteocyte-derived exosomes enhanced bone regeneration by regulating osteogenesis and angiogenesis
Yujie Yan, Pengtao Wang, Xi Tang, Yuhang Wang, Mengting Xiao, Zhenbao Liu, Xiaolin Tu, Xian Li

TL;DR
This study shows that exosomes from engineered osteocytes, which overexpress Dll4, can boost bone and blood vessel regeneration, helping heal fractures more effectively.
Contribution
The novelty lies in using Dll4-overexpressing osteocyte-derived exosomes to simultaneously enhance bone and vascular regeneration.
Findings
Dll4-Exo significantly increased osteogenesis in ST2 cells and angiogenesis in HUVECs.
In vivo, Dll4-Exo accelerated fracture healing and improved bone remodeling and revascularization.
miR-23a-5p was identified as a key miRNA in Dll4-Exo, mediating pro-osteogenic effects via Notch signaling.
Abstract
Rationale: Delayed fracture healing often results from impaired osteocyte network reconstruction and inadequate vascularization. Our prior work demonstrated that osteocytes engineered to overexpress Dll4 (Dll4-osteocytes) exert dual pro-osteogenic/angiogenic effects. Thus, this study explores the exosomes derived from Dll4-osteocytes (Dll4-Exo) as a cell-free strategy to coordinate bone-vascular regeneration and accelerate repair. Methods: Dll4-Exo were isolated from lentivirus-transduced Dll4-osteocytes. Mouse bone marrow stromal cells (ST2 cells) and human umbilical vein endothelial cells (HUVECs) were treated with Dll4-Exo to evaluate osteogenesis (ALP staining, mineralization, qRT-PCR) and angiogenesis (scratch/transwell migration, tube formation). Notch dependence was tested with γ-secretase inhibitor DAPT. In vivo, Dll4-Exo was locally administered in a mouse tibial fracture…
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Taxonomy
TopicsExtracellular vesicles in disease · Planarian Biology and Electrostimulation · Heterotopic Ossification and Related Conditions
