肽藻酸盐基水凝胶对脂肪组织来源和血液来源干细胞具有趋化性和扩增性

E. R. Vickers
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引用次数: 3

摘要

可生物降解支架在再生医学中具有主要的治疗优势,因为它们能够在基质中包含多种药物化合物、生长因子和最近的干细胞。这种支架可以根据要替换的组织的机械阻力参数进行编程。将体内干细胞直接化学吸引到植入的支架在临床环境中是有利的。血管内皮生长因子等大肽已被证实对内皮细胞的血管生成具有趋化性。这表明可能存在其他内源性肽直接将干细胞吸引到支架上。这项探索性研究评估了来自血肽丘的肽是否会对干细胞显示趋化性。结果表明,几种短N-mer肽对血液和脂肪组织来源的干细胞表现出显著的趋化性。将海藻酸钠水凝胶分别置于6孔板、24孔板和孔间有通道的隔板中。连接的孔串联并加入多肽、含有干细胞的生物液和对照孔。在37°C孵育后3至9天记录图像。干细胞在肽孔中快速迁移和扩增。细胞分析显示,激活的干细胞具有自噬、Ki67和一氧化氮等一系列参数。潜在地,这种利用肽化学吸引来设计生物支架的增强方法可能会导致干细胞治疗和再生医学应用的改进方法。特定的患者群体(如凝血障碍),手术获取脂肪组织或骨髓是禁忌,可能会受益。此外,这项技术使用的是“随需应变”的外周血干细胞,便于携带、安全,特别适用于太空医学等特殊环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peptidic Alginate-Based Hydrogels Demonstrate Chemotaxis and Expansion to Adipose Tissue Derived and Blood Derived Stem Cells
Biodegradable scaffolds have a major therapeutic advantage in regenerative medicine with their ability to include multiple compounds of drugs, growth factors and more recently, stem cells within the matrix. The scaffold can be programmed with mechanoresistive parameters targeted to the tissue to be replaced. Direct chemoattraction of in vivo stem cells to the implanted scaffold would be advantageous in the clinical setting. Large peptides such as vasculo-endothelial growth factor have demonstrated chemotaxis for angiogenesis from endothelial cells. This suggests other endogenous peptides may be present to directly attract stem cells to a scaffold. This exploratory study assessed if peptides from the blood peptidome would display chemotaxis to stem cells. Results showed that several short N-mer peptides demonstrated remarkable chemotaxis to blood and adipose tissue derived stem cells. Sodium alginate hydrogel was placed into 6-well, 24-well plate, and partitioned plates with channels between the wells. Connected wells were in series and spiked with peptides, biofluids containing stem cells and control wells. Images were recorded between three and nine days after incubation at 37°C. There were rapid migration and expansion of stem cells into the peptide wells. Cell analysis revealed activated stem cells on a number of parameters including autophagy, Ki67 and nitric oxide. Potentially, this enhanced method to bioscaffold design utilizing peptide chemoattraction could result in an improved approach for stem cell therapy and regenerative medicine applications. Specific patient groups (e.g. blood coagulation disorders) where surgery to acquire adipose tissue or bone marrow is contraindicated may benefit. In addition, the technology is portable and safe by using “on demand” peripheral blood derived stem cells and would be particularly suitable for specialized environments such as space medicine.
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