Hesperidin and its zinc(ii) complex enhance osteoblast differentiation and bone formation: In vitro and in vivo evaluations
Pan Li, Jing Wang, Huan Wang, Songchun Liu, Qibin Zhang

TL;DR
Hesperidin and its zinc complex promote bone formation by enhancing osteoblast activity in both lab and animal studies.
Contribution
The zinc(ii) complex of hesperidin uniquely enhances osteogenic activity compared to hesperidin alone.
Findings
Hesperidin and its zinc(ii) complex increased alkaline phosphatase activity and calcium deposition in osteoblasts.
The compounds upregulated Runx2 and collagen mRNA and increased osteonectin and osteocalcin proteins.
miR-143-3p mediates these effects via HDAC7 suppression and Runx2 enhancement, confirmed in zebrafish models.
Abstract
This investigation explores the impact of hesperidin and its zinc(ii) complex on osteoblast differentiation and subsequent bone formation. The biocompatibility of synthesized complexes (0–20 μg/mL) was assessed in vitro using mouse mesenchymal stem cells, while in vivo toxicity was evaluated using a chick embryo model. Both hesperidin and its zinc(ii) complex were found to be non-toxic at a concentration of 10 μg/mL. Notably, these compounds significantly increased alkaline phosphatase activity and enhanced calcium deposition. Molecular analyses revealed upregulation of Runx2 and type 1 collagen mRNA expression, along with increased levels of osteonectin and osteocalcin proteins, while negative regulators of osteoblast differentiation (Smad7, Smurf1, HDAC7) were downregulated. A new aspect of this study is demonstrating that the zinc(ii) complex of hesperidin uniquely enhances…
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Taxonomy
TopicsBone Metabolism and Diseases · Bone Tissue Engineering Materials · Osteoarthritis Treatment and Mechanisms
