Met@MPDA Rejuvenates BMSC Energy Metabolism to Promote Bone Regeneration in Semaglutide-Treated Obese Periodontitis
Ting Jiang, Tian-Hao Wan, Min-Jie Wang, Xue-Qin Zhu, Yu-Ran Jiang, Feng Yang, Zhi-Chen Ling, Xin-Yi Tan, Jun Wang, Ning-Juan Ouyang
Journal:Materials Today Bio
IF:11
DOI:10.1016/j.mtbio.2026.103231
PMID:
Published:2026-05-14
research field:药物纳米技术干细胞生物学再生医学牙科医学代谢学
Abstract
Obesity is closely linked to periodontitis development. Although semaglutide is increasingly used to manage obesity, its effects on alveolar bone repair in periodontitis are not well understood. In a mouse model of obesity-related periodontitis, we found that obesity exacerbates alveolar bone loss in an inflammatory setting. Semaglutide treatment slightly reduced periodontal inflammation and osteoclast markers but did not improve osteogenesis or regenerate alveolar defects. Transcriptomic analysis revealed increased fatty-acid uptake but suppressed AMPK signaling and reduced fatty-acid oxidation (FAO) in inflamed alveolar bone of obese mice. In vitro , macrophage FAO was largely unaffected by inflammation or semaglutide, while FAO in bone marrow–derived mesenchymal stem cells (BMSCs) was significantly reduced, impairing osteogenic differentiation. To tackle metabolic and osteogenic issues, we created a metformin-loaded mesoporous polydopamine system (Met@MPDA) that acts as an AMPK agonist. Met@MPDA is absorbed by BMSCs, restoring cellular energy and promoting alveolar bone regeneration in periodontitis. While semaglutide provides anti-inflammatory benefits in obesity-related periodontitis, it falls short in boosting bone regeneration due to metabolic issues in BMSCs. Thus, Met@MPDA's sustained metformin delivery could enhance bone regeneration in these cases.
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