Cubic liquid crystals containing propolis flavonoids as in situ thermo-sensitive hydrogel depots for periodontitis treatment: Preparation, pharmacodynamics and therapeutic mechanisms

• Published in: European journal of pharmaceutical sciences Vol. 196; p. 106762
• Main Authors: Tang, Maomao, Li, Jiaxin, Wang, Guichun, Wang, Yuxiao, Peng, Chengjun, Chang, Xiangwei, Tao, Yaotian, Guo, Jian, Gui, Shuangying
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.05.2024
• Subjects: Animals; Anti-Inflammatory Agents - administration & dosage; Anti-Inflammatory Agents - chemistry; Anti-Inflammatory Agents - pharmacology; Cubic liquid crystal; Flavonoids - administration & dosage; Flavonoids - chemistry; Flavonoids - pharmacology; Hydrogel; Hydrogels - administration & dosage; Hydrogels - chemistry; Liquid Crystals - chemistry; Male; Mice; NF-kappa B - metabolism; Periodontitis; Periodontitis - drug therapy; Periodontitis - metabolism; Propolis - administration & dosage; Propolis - chemistry; Propolis flavonoid; Tissue regeneration; Cubic liquid crystal; Hydrogel; Periodontitis; Tissue regeneration; Propolis flavonoid
• ISSN: 0928-0987; 1879-0720; 1879-0720
• DOI: 10.1016/j.ejps.2024.106762

Propolis has a long ethnopharmacological history for oral periodontal diseases treatment. Propolis flavonoids are main active components for anti-inflammation and tissue protection. However, the intractable dissolution properties of propolis flavonoids and complex oral environment pose great challenges for periodontal delivery. In addition, the therapeutic mechanism as well as the therapeutic correlation of inflammation resolution and tissue regeneration remain unclear for propolis flavonoids. In this study, we constructed an in situ thermosensitive depot systems using total flavonoids from propolis-loaded cubic liquid crystals (TFP-CLC) hydrogel for periodontal delivery. TFP-CLC inhibited inflammatory cell infiltration, reactive oxygen species and the expression of inflammatory cytokines of NF-κB and IL-1β. In addition, alveolar bone and collagen were significantly regenerated after TFP-CLC administration according to micro-CT and immunohistochemistry. Mechanism studies suggested that TFP-CLC alleviated inflammation and promoted alveolar bone repair via regulating TLR4/MyD88/NF-κB p65 and RANK/NF-κB signaling pathways, respectively. Correlation analysis further confirmed that the inflammatory resolution produced by TFP-CLC could accelerate periodontal tissue regeneration. In summary, TFP-CLC is a promising multifunctional in situ thermo-sensitive hydrogel depots for periodontitis treatment. [Display omitted]