Background/purpose: Multicellular spheroid cultures have attracted increasing attention in the field of periodontal regeneration. However, very few studies have reported the periodontal ligament (PDL) cell spheroid formation via biomaterials-induced processes. This study investigated the biological characteristics of human PDL cell spheroids formed on two hydrophilic polymer-based biomaterials, namely chitosan and polyvinyl alcohol.
Methods: The expressions of periostin, paxillin, hypoxia-inducible factor 1-α (HIF-1α), and vascular endothelial growth factor (VEGF) were analyzed. Cell migration ability was assessed using a scratch assay. Furthermore, PDL cell spheroids were cultured in 3D-printed polylactic acid scaffolds to evaluate mineralizing capability.
Results: Western blot analysis revealed increased expressions of periostin, HIF-1α, and VEGF in the 3D spheroids. After the spheroids were reseeded, the cells gradually migrated outward from the spheroids and time-dependent distribution of paxillin was observed. The cells migrating outward from the 3D spheroids demonstrated greater migration ability than that of 2D monolayer cells. Compared to the dissociated cells from a monolayer culture, the cell spheroids formed on the chitosan membrane exhibited elevated alkaline phosphatase activity and an increase in mineralized matrix deposition.
Conclusion: The biomaterial-induced formation of PDL cell spheroids suggests a novel strategy for cell delivery in research and clinical applications of periodontal regeneration.
Keywords: Cell migration; Chitosan; Hypoxia-inducible factor 1; Paxillin; Polyvinyl alcohol.
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