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首页> 外文期刊>American Journal of Translational Research >Polydopamine coating with static magnetic field promotes the osteogenic differentiation of human bone-derived mesenchymal stem cells on three-dimensional printed porous titanium scaffolds by upregulation of the BMP-Smads signaling pathway
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Polydopamine coating with static magnetic field promotes the osteogenic differentiation of human bone-derived mesenchymal stem cells on three-dimensional printed porous titanium scaffolds by upregulation of the BMP-Smads signaling pathway

机译:具有静态磁场的聚二胺涂层促进人骨源性间充质干细胞对三维印刷多孔钛支架的成骨分化,通过上调BMP-Smads信号通路

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摘要

Bone regeneration has always been a hot topic for orthopedic surgeons. The role of polydopamine coating in promoting bone regeneration has attracted much attention. Static magnetic field (SMF) is considered an effective and noninvasive treatment for enhancing bone regeneration. However, the effect of polydopamine combined with SMF on bone regeneration on scaffolds is not clear. The aim of this study was to investigate the effects and potential mechanism of polydopamine coating combined with SMF on bone regeneration in three-dimensional printed scaffolds. The polydopamine coating (pTi group) was applied onto porous Ti6Al4V scaffolds (Ti group). Surface characterization was performed by scanning electron microscopy. The 100 mT SMF environment (pTi-SMF group) was established to enhance osteogenic differentiation of human bone-derived mesenchymal stem cells (hBMSCs) on polydopamine coating scaffolds. The cell viability and proliferation were significantly enhanced in the SMF environment (pTi-SMF vs. Ti: P=0.005). Improved morphology (pTi-SMF vs. pTi: P=0.024, pTi-SMF vs. Ti: P=0.001) and adhesion (Ti: x ? ±s=1.585±0.324; pTi: x ? ±s=2.164±0.314; pTi-SMF: x ? ±s=4.634±0.247, P0.001) of hBMSCs were observed in the pTi-SMF group. The high expression of osteogenesis-related RNA and protein (ALP: Ti, x ? ±s=1.249±0.218; pTi, x ? ±s=2.503±0.209; pTi-SMF, x ? ±s=2.810±0.246. OCN: Ti, x ? ±s=1.483±0.304; pTi, x ? ±s=3.636±0.322; pTi-SMF, x ? ±s=4.641±0.278. Runx2: Ti, x ? ±s=1.372±0.227; pTi, x ? ±s=3.054±0.229; pTi-SMF, x ? ±s=3.914±0.253) was found in the pTi-SMF group (pTi-SMF vs. Ti: P0.001). Proteomics was applied to explore the osteogenic mechanism of polydopamine coating combined with SMF. A total of 147 different proteins were identified between the pTi-SMF and Ti group. The osteogenic effect might be associated with the BMP-Smads signaling pathway (pTi-SMF vs. Ti: BMPR1A, P=0.001; BMPR2, P0.001; Smad4, P=0.001; Smad1/5/8, P=0.008). In conclusion, the osteogenic differentiation of hBMSCs on polydopamine coating scaffolds could be enhanced by SMF stimulation by upregulation of the BMP-Smads signaling pathway.
机译:骨再生一直是整形外科医生的热门话题。聚二胺涂层在促进骨再生方面的作用引起了很多关注。静电磁场(SMF)被认为是一种有效和无侵入性的治疗,用于增强骨再生。然而,聚二胺联合SMF对支架上的骨再生的影响尚不清楚。本研究的目的是探讨聚二胺涂层结合SMF对三维印刷支架中骨再生的影响和潜在机制。将聚二胺涂层(PTI组)施加到多孔Ti6Al4V支架上(Ti组)。通过扫描电子显微镜进行表面表征。建立了100mt SMF环境(PTI-SMF组),以增强人骨源性间充质干细胞(HBMSCs)对多多胺涂层支架的骨质发生分化。 SMF环境中,细胞活力和增殖显着增强(PTI-SMF与Ti:P = 0.005)。改进的形态(PTI-SMF与PTI:P = 0.024,PTI-SMF与Ti:P = 0.001)和粘附(Ti:x≤±S = 1.585±0.324; PTI:X?±S = 2.164±0.314;在PTI-SMF组中观察到PTI-SMF:X?±S = 4.634±0.247,P <0.001)HBMSCs。骨开发相关RNA和蛋白质的高表达(ALP:Ti,x +±S = 1.249±0.218; PTI,X±S = 2.503±0.209; PTI-SMF,X±S = 2.810±0.246。OCN: Ti,x±s = 1.483±0.304; PTI,x±S = 3.636±0.322; PTI-SMF,X±S = 4.641±0.278。RUNX2:TI,x±S = 1.372±0.227; PTI,在PTI-SMF组中发现X?±S = 3.054±0.229; PTI-SMF,X?±S = 3.914±0.253)(PTI-SMF vs.TI:P <0.001)。应用蛋白质组学来探讨聚二胺涂层与SMF结合的成沸机制。在PTI-SMF和Ti组之间鉴定了总共147种不同的蛋白质。成骨效果可能与BMP-Smads信号传导途径有关(PTI-SMF与Ti:BMPR1A,P = 0.001; BMPR2,P <0.001; SMAD4,P = 0.001; SMAD1 / 5/8,P = 0.008)。总之,通过UPP-Smads信号通路的上调,SMF刺激可以增强HBMSCs对聚二胺涂层支架上的HBMSCs对多胺涂层支架的成骨分化。

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