胚胎脑脊液对Wistar大鼠脂肪干细胞活力及神经元分化的影响

Mohammad-Hossein Mohammadi-Mahdiabadi-Hasani, M. Nabiuni, K. Parivar, S. Yari, Ali Reza Sahebi, Jaleel A. Miyan
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引用次数: 3

摘要

目的胚胎脑脊液中含有多种生长因子和形态因子。近年来的研究表明,e-CSF在胚胎脑发育中起着重要作用。脂肪组织源性干细胞(ADSCs)具有中胚层起源,可分化为中胚层和外胚层细胞系。本研究旨在探讨e-CSF对大鼠ADSCs的增殖、活力和神经分化的影响。材料与方法本实验以成年雄性大鼠腹股沟区脂肪组织为研究对象。然后,用酶切法从脂肪组织中分离ADSCs,用流式细胞术分析细胞表面标志物CD90、CD44、CD73、CD105、CD34、CD45和CD11b,确认间充质细胞。通过细胞的成骨潜能和成脂潜能来评估ADSCs的多潜能特性。在合适的体外条件下,在添加和不添加10% e-CSF的DMEM中培养ADSCs。这些液体采集于E17、E18和E19胎龄Wistar大鼠。采用MTT法测定细胞增殖和活力。采用免疫细胞化学方法研究β-III微管蛋白在ADSCs中的表达。使用ImageJ软件评估培养细胞的神经突生长情况。结果与对照组相比,E17和E18 e-CSF培养的ADSCs的活力显著提高。用E18和E19的e-CSF处理的培养细胞建立了具有长过程的神经元样细胞,而对照组和E17 e-CSF处理的培养细胞没有观察到长过程。结论e-CSF具有诱导ADSCs神经元分化和细胞活力的能力。我们的数据支持e-CSF作为治疗神经退行性疾病的治疗策略的重要作用。
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The Effects of Embryonic Cerebrospinal Fluid on The Viability and Neuronal Differentiation of Adipose Tissue-Derived Stem Cells in Wistar Rats
Objective The embryonic cerebrospinal fluid (e-CSF) contains various growth factors and morphogens. Recent studies showed that e-CSF plays significant roles in embryonic brain development. Adipose tissue-derived stem cells (ADSCs) have a mesodermal origin that can be differentiated into mesodermal and ectodermal lineages. This study aimed to evaluate the effects of e-CSF on the proliferation, viability, and neural differentiation of ADSCs in rats. Materials and Methods In this experimental study, adipose tissue was dissected out from the inguinal region of adult male rats. Then, ADSCs were isolated by enzymatic digestion from adipose tissues and mesenchymal cells were confirmed using the flow cytometry analysis that measured the cell surface markers including CD90, CD44, CD73, CD105, CD34, CD45, and CD11b. The multi-potential characteristics of ADSCs were assessed by osteogenic and adipogenic potentials of these cells. Under suitable in vitro conditions, ADSCs were cultured in DMEM supplemented with and without additional 10% e-CSF. These fluids were collected from Wistar rats at the E17, E18, and E19 gestational ages. Cellular proliferation and viability were determined using the MTT assay. Immunocytochemistry was used to study the expression of β-III tubulin in ADSCs. The neurite outgrowth of cultured cells was assessed using the ImageJ software. Results The results of the present study demonstrated that the viability of ADSCs in cell culture conditioned with E17 and E18 e-CSF were significantly increased in comparison with controls. Cultured cells treated with e-CSF from E18 and E19 established neuronal-like cells bearing long process, whereas no process was observed in the control groups or cultured cells treated with E17 e-CSF. Conclusion This study showed that e-CSF has the ability to induce neuronal differentiation and viability in ADSCs. Our data support a significant role of e-CSF as a therapeutic strategy for the treatment of neurodegenerative diseases.
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