Jingjie Zeng , Huidan Deng , Quanjie Li , Jingyi Kang , Yu Wu
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引用次数: 0
Abstract
Objective
The formation of dentin-pulp complex determines the success of vital pulp therapy. Human umbilical cord mesenchymal stem cell-derived small extracellular vesicles (hUCMSC-sEVs) appeared to have stronger effect in anti-inflammatory and promoting the proliferation and migration of human dental pulp stem cells (hDPSCs). Moreover, Lipopolysaccharides (LPS) pretreatment can enhance the rapeutic potency of extracellular vesicles. LPS pretreatment hUCMSC-sEVs have the potential to regenerate the dentin-pulp complex by recruiting hDPSCs. This paper aims to develop collagen sponge/self-assembling peptide nanofiber scaffold (CS/SAPNS) composite scaffold loaded with LPS pretreatment hUCMSC-sEVs (CS/SAPNS-sEVs), and assess the release characteristics of hUCMSC-sEVs and the effect of this composite scaffold on osteo/odontogenic differentiation and angiogenic potential in hDPSCs.
Methods
LPS pretreatment hUCMSC-sEVs (LPS-hUCMSC-sEVs) were mixed with self-assembling peptide hydrogel and loaded onto collagen sponge to obtain the CS/SAPNS-sEVs. BCA assay, nanoparticle analysis, transmission electron microscopy and laser confocal microscopy were used to investigate the characteristics of LPS-hUCMSC-sEVs loaded on CS/SAPNS. Osteo/odontogenic differentiation ability of hDPSCs were analyzed by ALP stainning, alizarin red staining. RT-PCR and Western blot analysis were performed to confirm the levels of osteo/odontogenic factors and angiogenic factors, and the involvement of NF-κB pathway was verified by immunocytochemical staining and Western blot analysis.
Results
CS/SAPNS could control LPS-hUCMSC-sEVs release for 7 days and keep their structural integrity. CS/SAPNS-sEVs promoted deposition of calcified nodules and expression of osteogenic/odontogenic and angiogenic factors in hDPSCs. On the contrary, inhibition of the NF-κB pathway down-regulated the expression of CS/SAPNS-sEVs-regulated osteo/odontogenic and angiogenic factors.
Conclusion
CS/SNAPS could be used as scaffold for LPS-hUCMSC-sEVs, and CS/SAPNS-sEVs may promote osteo/odontogenic differentiation and enhance the angiogenic potential of hDPSCs through activating the NF-κB pathway.
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