3D printing of Cu-doped bioactive glass composite scaffolds promotes bone regeneration through activating the HIF-1 alpha and TNF-alpha pathway of hUVECs

Dai Qiyuan; Li Qingtao; Gao HuichangYao LongtaoLin ZefengLi DingguoZhu ShuangliLiu CongYang ZhenWang GangChen DafuChen XiaofengCao Xiaodong

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3D printing of Cu-doped bioactive glass composite scaffolds promotes bone regeneration through activating the HIF-1 alpha and TNF-alpha pathway of hUVECs

机译：3D printing of Cu-doped bioactive glass composite scaffolds promotes bone regeneration through activating the HIF-1 alpha and TNF-alpha pathway of hUVECs

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The increasing insight into the molecular and cellular processes within the angiogenic cascade assists in enhancing the survival and integration of engineered bone constructs. Copper-doped bioactive glass (Cu-BG) is now a potential structural component of the novel scaffolds and implants used in orthopedic and dental repairs. However, it is difficult for BG, especially micro-nano particles, to be printed into scaffolds and still retain its biological activity and ability to biodegrade. Additionally, the mechanisms of the copper-stimulating autocrine and paracrine effects of human umbilical vein endothelial cells (hUVECs) during repair and regeneration of bone are not yet clear. Therefore, in this study, we created monodispersed micro-nano spherical Cu-BG particles with varying copper content through a sol-gel process. Through in vitro tests, we found that Cu-BG enhanced angiogenesis by activating the pro-inflammatory environment and the HIF-1 alpha pathway of hUVECs. Furthermore, 2Cu-BG diluted extracts directly promoted the osteogenic differentiation of mouse bone mesenchymal stem cells (BMSCs) in vitro. Then, a new 3D-printed tyramine-modified gelatin/silk fibroin/copper-doped bioactive glass (Gel/SF/Cu-BG) scaffold for rat bone defects was constructed, and the mechanism of the profound angiogenesis effect regulated by copper was explored in vivo. Finally, we found that hydrogel containing 1 wt% 2Cu-BG effectively regulated the spatiotemporal coupling of vascularization and osteogenesis. Therefore, Cu-BG-containing scaffolds have great potential for a wide range of bone defect repairs.

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来源
《Biomaterials Science》 |2021年第16期|5519-5532|共14页
作者
Dai Qiyuan; Li Qingtao; Gao HuichangYao LongtaoLin ZefengLi DingguoZhu ShuangliLiu CongYang ZhenWang GangChen DafuChen XiaofengCao Xiaodong;
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South China Univ Technol, Sch Mat Sci & Engn, Guangzhou 510641, Peoples R China;

South China Univ Technol, Sch Med, Guangzhou 510006, Peoples R China;

Gen Hosp Southern Theater Command PLA, Guangdong Key Lab Orthoped Technol & Implants, Guangzhou 510010, Peoples R ChinaSun Yat Sen Univ, Guangdong Prov Key Lab Orthopaed & Traumatol, Dept Spine Surg, Affiliated Hosp 1, Guangzhou 510080, Peoples R ChinaBeijing JiShuiTan Hosp, Beijing Res Inst Orthopaed & Traumatol, Beijing Lab Biomed Mat, Lab Bone Tissue Engn, Beijing 100035, Peoples R China;

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中图分类分子生物学;
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3D printing of Cu-doped bioactive glass composite scaffolds promotes bone regeneration through activating the HIF-1 alpha and TNF-alpha pathway of hUVECs

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