[Early effect of graphene oxide-carboxymethyl chitosan hydrogel loaded with interleukin 4 and bone morphogenetic protein 2 on bone immunity and repair]

Objective: To investigate the effect of graphene oxide (GO)-carboxymethyl chitosan (CMC) hydrogel loaded with interleukin 4 (IL-4) and bone morphogenetic protein 2 (BMP-2) on macrophages M2 type differentiation and osteogenic differentiation of bone marrow mesenchymal stem cells (BMSCs).

Methods: GO solution was mixed with CMC, then the phosphate buffered saline (PBS), IL-4, BMP-2, or IL-4+BMP-2 were added to prepare different GO-CMC hydrogel scaffolds with or without different cytokines under crosslinking agents. The characteristics of pure GO-CMC hydrogel were characterized by gross observation, scanning electron microscope (SEM), and Fourier transform infrared spectroscopy (FTIR), and the CMC hydrogel was used as control. The sustained release of GO-CMC hydrogels with different cytokines was also tested. Macrophages were isolated and cultured from female Sprague Dawley rats aged 4-5 weeks, and then cultured with GO-CMC hydrogels with and without different cytokines, respectively. CD206 immunofluorescence staining was used to detect the differentiation of macrophages after 24 hours. The 3rd generation of rats BMSCs were cultured with GO-CMC hydrogels with and without different cytokines respectively for osteogenic induction. The early osteogenesis was observed by alkaline phosphatase (ALP) staining after 10 days, and the late osteogenesis was observed by alizarin red staining after 21 days.

Results: Generally, GO-CMC hydrogel was brown and translucent. SEM showed that the pore diameter and wall thickness of GO-CMC hydrogel were similar to that of CMC hydrogel, but the inner wall roughness increased. FTIR test showed that CMC polymerized to form hydrogel. In vitro, the sustained release experiments showed that the properties of GO-CMC hydrogels loaded with different cytokines were similar. CD206 immunofluorescence detection showed that GO-CMC hydrogels could induce macrophages differentiation into M2-type. ALP and alizarin red staining showed that GO-CMC hydrogels could induce BMSCs osteogenic differentiation, in which GO-CMC hydrogel loaded with IL-4+BMP-2 showed the most significant effect ( P<0.05).

Conclusion: The GO-CMC hydrogel loaded with IL-4 and BMP-2 can induce macrophages differentiation into M2-type and enhance the ability of BMSCs with osteogenic differentiation in vitro, which provide a new strategy for bone defect repair and immune regulation.

目的: 探讨负载 IL-4 和 BMP-2 的氧化石墨烯（graphene oxide，GO）-羧甲基壳聚糖（carboxymethyl chitosan，CMC）凝胶诱导巨噬细胞 M2 型分化及对 BMSCs 成骨分化的影响。.

方法: 取 CMC、GO 制备混合溶液后，分别添加 PBS、IL-4、BMP-2 或 IL-4+BMP-2，在交联剂作用下制备单纯或负载不同因子的 GO-CMC 凝胶支架；取单纯 GO-CMC 凝胶表征观测，包括大体、扫描电镜及傅里叶变换红外吸收光谱仪（Fourier transform infrared spectroscopy，FTIR）检测，以单纯 CMC 凝胶作为对照；取负载不同因子的 GO-CMC 凝胶行体外缓释实验。取 4～5 周龄 SPF 级 SD 雌性大鼠分离培养巨噬细胞，分别与单纯以及负载不同因子的 GO-CMC 凝胶培养，24 h 后行 CD206 免疫荧光检测巨噬细胞分化情况；取第 3 代大鼠 BMSCs 分别与单纯以及负载不同因子的 GO-CMC 凝胶成骨诱导培养，10 d 后行 ALP 染色观测早期成骨，21 d 行茜素红染色观测晚期成骨。.

结果: 大体观察 GO-CMC 凝胶呈棕色、半透明状；扫描电镜观察示，GO-CMC 凝胶孔径及孔壁厚度与单纯 CMC 凝胶相似，但内壁粗糙度增加；FTIR 检测显示 CMC 发生聚合形成凝胶。体外缓释实验示 3 种负载不同因子的 GO-CMC 凝胶缓释性能相似，均呈线性缓慢释放因子。CD206 免疫荧光检测示 GO-CMC 凝胶可诱导巨噬细胞 M2 型分化，ALP 及茜素红染色示 GO-CMC 凝胶可诱导 BMSCs 成骨分化；其中负载 IL-4+BMP-2 的 GO-CMC 凝胶作用最显著（ P<0.05）。.

结论: 负载 IL-4 和 BMP-2 的 GO-CMC 凝胶可诱导巨噬细胞 M2 型分化，增强 BMSCs 成骨分化能力，为后期骨缺损修复及骨免疫调节研究提供了新的策略。.

Keywords: Graphene oxide; bone marrow mesenchymal stem cells; bone morphogenetic protein 2; carboxymethyl chitosan; interleukin 4; macrophages; rat.