Department of Molecular Science and Technology, Ajou University, Suwon 16499, Republic of Korea.
The Institute of Biomaterial and Medical Engineering, Cellumed Co., Ltd., Seoul 08589, Republic of Korea.
Mater Sci Eng C Mater Biol Appl. 2019 Oct;103:109853. doi: 10.1016/j.msec.2019.109853. Epub 2019 Jun 3.
We have designed and characterized an injectable, electrostatically bonded, in situ-forming hydrogel system consisting of a cationic polyelectrolyte [(methoxy)polyethylene glycol-b-(poly(ε-caprolactone)-ran-poly(L-lactic acid)] (MP) copolymer derivatized with an amine group (MP-NH) and anionic BMP2. To the best of our knowledge, there have been hardly any studies that have investigated electrostatically bonded, in situ-forming hydrogel systems consisting of MP-NH and BMP2, with respect to how they promote in vivo osteogenic differentiation of human turbinate mesenchymal stem cells (hTMSCs). Injectable formulations almost immediately formed an electrostatically loaded hydrogel depot containing BMP2, upon injection into mice. The hydrogel features and stability of BMP2 inside the hydrogel were significantly affected by the electrostatic attraction between BMP2 and MP-NH. Additionally, the time BMP2 spent inside the hydrogel depot was prolonged in vivo, as evidenced by in vivo near-infrared fluorescence imaging. Biocompatibility was demonstrated by the fact that hTMSCs survived in vivo, even after 8 weeks and even though relatively few macrophages were in the hydrogel depot. The osteogenic capacity of the electrostatically loaded hydrogel implants containing BMP2 was higher than that of a hydrogel that was simply loaded with BMP2, as evidenced by Alizarin Red S, von Kossa, and hematoxylin and eosin staining as well as osteonectin, osteopontin, osteocalcin, and type 1α collagen mRNA expression. The results confirmed that our injectable, in situ-forming hydrogel system, electrostatically loaded with BMP2, can enhance in vivo osteogenic differentiation of hTMSCs.
我们设计并表征了一种可注射的、静电键合的原位形成水凝胶系统,该系统由带正电荷的聚电解质(甲氧基)聚乙二醇-b-(聚(ε-己内酯)-ran-聚(L-乳酸))共聚物与带正电荷的聚乙二醇-b-(聚(ε-己内酯)-ran-聚(L-乳酸))(MP-NH)和带负电荷的 BMP2 组成。据我们所知,几乎没有任何研究探讨过由 MP-NH 和 BMP2 组成的静电键合、原位形成的水凝胶系统,以及它们如何促进人鼻甲间充质干细胞(hTMSCs)的体内成骨分化。可注射制剂在注射到小鼠体内后,几乎立即形成含有 BMP2 的静电加载水凝胶库。水凝胶的特性和 BMP2 在水凝胶中的稳定性受到 BMP2 和 MP-NH 之间静电吸引力的显著影响。此外,体内近红外荧光成像证实,BMP2 在水凝胶库中的停留时间延长。体内实验表明 hTMSCs 具有生物相容性,即使在 8 周后,即使水凝胶库中相对较少的巨噬细胞存在,hTMSCs 仍能存活。含有 BMP2 的静电加载水凝胶植入物的成骨能力高于简单加载 BMP2 的水凝胶植入物,这可以通过茜素红 S、von Kossa 和苏木精和伊红染色以及骨桥蛋白、骨粘连蛋白、骨钙素和 I 型α 胶原 mRNA 表达来证明。这些结果证实了我们的可注射、原位形成的水凝胶系统,通过静电加载 BMP2,可以增强 hTMSCs 的体内成骨分化。
