College of Biomedical Engineering, Sichuan University, No. 24, South 1st Section, 1st Ring Road, Chengdu, 610065, P. R. China.
Department of Oral and Maxillofacial Surgery, West China Hospital of Stomatology, Sichuan University, Chengdu, 610041, China.
J Mater Chem B. 2021 Sep 29;9(37):7848-7865. doi: 10.1039/d1tb01479j.
Vanadium is an important trace element in bone and is involved in bone metabolism, bone formation, and bone growth, but the roles of various vanadium ions, especially of pentavalent vanadium, in bone tissue regenerative repair have been underestimated and even misinterpreted for a long time. The main purposes of this study are to investigate the release profile of Si, Ca, P, and V ions from vanadium doped mesoporous bioactive glass (V-MBG) particles and to explore the effect of pentavalent vanadium ions on proliferation and osteogenic differentiation of BMSCs as well as the corresponding osteogenic signaling pathway. On the basis of preparations of V-MBG particles with different pentavalent vanadium contents, the ion release behavior from V-MBG in distilled water and simulated body fluid was systemically investigated. Furthermore, the cytocompatibility and osteogenic effect of V-MBG extracts were studied in rBMSCs, and the related molecular mechanisms were preliminarily discussed. The results of dissolution experiments showed that the V ionic concentration exhibited a burst increase and then a sustained slow increase in the two media. The resultant V ions from 1.0V-MBG, 4.0V-MBG and 10.0V-MBG at 21 days were about 1.1, 5.8, and 12.5 mg L in water, respectively, and 1.6, 4.8 and 12.8 mg L in SBF, respectively. The release behaviors of Si, Ca, P, and V ions were evidently affected by high contents of incorporated vanadium. The cellular results indicated that compared to the control and MBG groups, the V(V) ions in V-MBG extracts at about 19.4 μM markedly promoted the proliferation, the gene and protein expression of BMP-2 and COL-I, and the ALP activity of rBMSCs in non-osteoinductive media, but insignificantly stimulated the OCN protein synthesis. More deeply, V(V) ions at about 19.4 μM significantly upregulated the gene and protein expressions of Itga 2b, FAK, and pERK1/2, demonstrating that V(V) ions could regulate osteogenic differentiation of rBMSCs through the activation of the Itga 2b-FAK-MAPK (pERK1/2) signaling pathway. The results further confirmed that V-MBG induced and promoted new bone formation in the defect area compared to the PGC and PGC/V-M0 groups. These results would contribute to modify the perception about the biocompatibility and osteogenic promotion of pentavalent vanadium at an appropriate concentration.
钒是骨骼中的一种重要微量元素,参与骨代谢、骨形成和骨生长,但各种价态的钒离子,尤其是五价钒,在骨组织再生修复中的作用长期以来一直被低估,甚至被误解。本研究的主要目的是研究钒掺杂介孔生物活性玻璃(V-MBG)颗粒中 Si、Ca、P 和 V 离子的释放情况,并探讨五价钒离子对骨髓间充质干细胞(BMSCs)增殖和成骨分化的影响,以及相应的成骨信号通路。在制备不同五价钒含量的 V-MBG 颗粒的基础上,系统研究了 V-MBG 在蒸馏水中和模拟体液中的离子释放行为。此外,研究了 V-MBG 浸提液在 rBMSCs 中的细胞相容性和成骨作用,并初步探讨了相关的分子机制。溶解实验结果表明,两种介质中 V 离子浓度均表现出先快速增加后缓慢持续增加的趋势。1.0V-MBG、4.0V-MBG 和 10.0V-MBG 在水中的 V 离子浓度在 21 天分别约为 1.1、5.8 和 12.5mg/L,在 SBF 中的 V 离子浓度分别约为 1.6、4.8 和 12.8mg/L。Si、Ca、P 和 V 离子的释放行为明显受到高浓度掺入钒的影响。细胞结果表明,与对照组和 MBG 组相比,V-MBG 浸提液中约 19.4μM 的 V(V)离子在非诱导成骨培养基中明显促进了 rBMSCs 的增殖、BMP-2 和 COL-I 的基因和蛋白表达,以及 ALP 活性,但对 OCN 蛋白合成的刺激作用不明显。更深入的研究表明,V(V)离子在约 19.4μM 时显著上调了 rBMSCs 中 Itga2b、FAK 和 pERK1/2 的基因和蛋白表达,表明 V(V)离子可通过激活 Itga2b-FAK-MAPK(pERK1/2)信号通路调节 rBMSCs 的成骨分化。这些结果进一步证实,与 PGC 和 PGC/V-M0 组相比,V-MBG 诱导并促进了缺损区域的新骨形成。这些结果将有助于改变对适当浓度五价钒的生物相容性和促骨形成作用的认识。
