生物打印技术从人脑脊液中提取的脂肪干细胞分化为受外泌体影响的神经样细胞。

Mojtaba Cheravi, Javad Baharara, Parichehreh Yaghmaei, Nasim Hayati Roudbari
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引用次数: 0

摘要

背景:组织工程技术的进步为构建干细胞支架以及诱导因子在干细胞分化中的应用提供了新的解决方案。本研究旨在利用新型生物打印技术研究人脂肪源性间充质干细胞向神经样细胞的分化,以及脑脊液外泌体的作用。方法:本研究采用MTT法、免疫细胞化学和实时荧光定量PCR技术,对生物打印支架中脂肪干细胞的神经元增殖和分化程度进行了研究。此外,为了研究CSF(脑脊液)衍生外泌体身份的准确性,在分离外泌体后,使用动态光散射(DLS),扫描电子显微镜(SEM)和原子力显微镜(AFM)技术。结果:MTT结果表明,生物打印工艺制备的支架在14天内具有细胞的存活和增殖能力。实时荧光定量PCR结果显示,与对照相比,MAP2基因(微管相关蛋白2)在第7天和第14天的表达水平升高,而Nestin基因(中间丝蛋白)的表达水平显著降低。证实外泌体身份的研究表明,csf衍生的外泌体为40-100 nm大小的球形。结论:生物打印技术制备的海藻酸盐水凝胶支架中,csf来源的外泌体可促进脂肪来源干细胞的神经分化。
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Differentiation of Human Adipose-derived Stem Cells to Exosome-affected Neural-like Cells Extracted from Human Cerebrospinal Fluid Using Bioprinting Process.

Background: Advancement in tissue engineering has provided novel solutions for creating scaffolds as well as applying induction factors in the differentiation of stem cells. The present research aimed to investigate the differentiation of human adipose-derived mesenchymal stem cells to neural-like cells using the novel bioprinting method, as well as the effect of cerebrospinal fluid exosomes.

Methods: In the present study, the extent of neuronal proliferation and differentiation of adipose- derived stem cells were explored using the MTT method, immunocytochemistry, and real-- time PCR in the scaffolds created by the bioprinting process. Furthermore, in order to investigate the veracity of the identity of the CSF (Cerebrospinal fluid) derived exosomes, after the isolation of exosomes, dynamic light scattering (DLS), scanning electron microscopy (SEM), and atomic force microscopy (AFM) techniques were used.

Results: MTT findings indicated survivability and proliferation of cells in the scaffolds created by the bioprinting process during a 14-day period. The results obtained from real-time PCR showed that the level of MAP2 gene (Microtubule Associated Protein 2) expression increased on days 7 and 14, while the expression of the Nestin gene (intermediate filament protein) significantly decreased compared to the control. The investigation to confirm the identity of exosomes indicated that the CSF-derived exosomes had a spherical shape with a 40-100 nm size.

Conclusion: CSF-derived exosomes can contribute to the neuronal differentiation of adipose- derived stem cells in alginate hydrogel scaffolds created by the bioprinting process.

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