靶向FBN1和BMP-8: SDF-1在急性脊髓损伤修复中的潜在机制

IF 2.2

Current stem cell research & therapy Pub Date : 2025-10-07 DOI:10.2174/011574888X359624250901071217

Quan Sun, Xufeng Jiang, Youzhi He, Li Yang, Yi Luo

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引用次数: 0

摘要

急性脊髓损伤（SCI）常引起运动和感觉障碍。SDF-1促进干细胞存活和增殖，而FBN1可能影响修复机制。本研究探讨了SDF-1如何通过bmp -8介导的FBN1抑制诱导骨髓间充质干细胞成熟，从而促进脊髓损伤治疗。方法：用BMP-8诱导骨髓间充质干细胞分化，并转染相关质粒（e- nc、e- sdf -1、e- fbn1、si-BMP-8）。CCK-8和茜素红染色评价细胞生长和分化情况。Western blotting检测SDF-1、FBN1、BMP-8的表达水平。在大鼠脊髓损伤模型中，注射带有质粒的细胞，并使用BBB评分评估运动恢复。免疫荧光法检测SDF-1表达，Western blotting检测SDF-1、FBN1和BMP-8。结果：在细胞实验中，BMP-8诱导骨髓间充质干细胞成功分化。过表达SDF-1后，骨髓间充质干细胞的增殖和分化增强。动物实验中，过表达SDF-1后，BBB评分升高。讨论：这些发现提示了SDF-1通过调节BMP-8/FBN1轴促进脊髓修复的潜在治疗机制。FBN1的抑制似乎是增强BMSC功能的关键步骤。靶向这一通路可能为脊髓损伤后的再生治疗提供新的策略。结论：在急性脊髓损伤中，SDF-1通过抑制FBN1增强BMP-8诱导的骨髓间充质干细胞的分化。

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Targeting FBN1 and BMP-8: The Potential Mechanism of SDF-1 in Acute Spinal Cord Injury Repair.

Introduction: Acute Spinal Cord Injury (SCI) often causes motor and sensory deficits. SDF-1 promotes stem cell survival and proliferation, while FBN1 may impact repair mechanisms. This study investigates how SDF-1 promotes SCI treatment by inducing BMSC maturation through BMP-8-mediated FBN1 inhibition.

Methods: Bone marrow mesenchymal stem cells were induced to differentiate with BMP-8 and transfected with related plasmids (oe-NC, oe-SDF-1, oe-FBN1, si-BMP-8). CCK-8 and alizarin red staining were used to assess cell growth and differentiation. Western blotting was used to detect the levels of SDF-1, FBN1, and BMP-8. In a rat SCI model, cells with plasmids were injected, and motor recovery was assessed using BBB scoring. Immunofluorescence assay detected SDF-1 expression, while Western blotting was used to detect SDF-1, FBN1, and BMP-8.

Results: In cell experiments, BMP-8 induced successful differentiation of BMSCs. After overexpression of SDF-1, the proliferation and differentiation of BMSCs were increased. In animal experiments, the BBB score increased after overexpression of SDF-1.

Discussion: These findings suggest a potential therapeutic mechanism in which SDF-1 promotes spinal cord repair by modulating the BMP-8/FBN1 axis. The suppression of FBN1 appears to be a key step in enhancing BMSC function. Targeting this pathway could offer new strategies for regenerative treatment following SCI.

Conclusion: In acute spinal cord injury, SDF-1 enhances the differentiation of bone marrow mesenchymal stem cells induced by BMP-8 through the suppression of FBN1.

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Current stem cell research & therapy

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