Wei Yujun, Zhou Jianli, Zheng Zhenghuan, Wang Aijun, Ao Qiang, Gong Yandao, Zhang Xiufang
Department of Biological Sciences and Biotechnology, State Key Laboratory of Biomembrane and Membrane Biotechnology, Tsinghua University, Beijing, China.
Cell Tissue Res. 2009 Sep;337(3):361-9. doi: 10.1007/s00441-009-0836-4. Epub 2009 Jul 29.
The major difficulty in Schwann cell (SC) purification is contamination by fibroblasts, which usually become the predominant cell type during SC enrichment in vitro. Current reported measures are mainly limited by either high cost or complicated procedures with low cell yields or purity. Our objectives have been to develop an efficient, easily applicable, rapid method to obtain highly purified SC from the sciatic nerve of newborn rats. The method involves two rounds of purification to eliminate fibroblasts with the novel combined use of cytosine-B-arabinoside hydrochloride (Ara-C) action and differential cell detachment. Cultured cells were first treated with Ara-C for 24 h. The medium was replaced with the growth medium containing 20 ng/ml human heregulin1-beta1 extracellular domain (HRG1-beta1 ECD). After another 48 h in culture, the cells were treated with 0.05% trypsin, following which SCs, but not fibroblasts, were easily detached from the dishes. The advantage of this method is that the two steps can eliminate the fibroblasts complementarily. Ara-C eliminates most of the fibroblasts growing among SCs, whereas the differential cell detachment technique removes the remainder growing under or interacting with the SC layer. A purity of more than 99% SCs has been obtained, as confirmed by cell morphology and immunostaining. The purified SCs have a spindle-shaped, bipolar, and sometimes tripolar morphology, align in fascicles, and express S-100. The whole procedure takes about 10 days from primary culture to the purified SCs growing to confluence (only half the time reported previously). This protocol provides an alternative method for investigating peripheral nerve regeneration and potentially could be used to produce enough SCs to construct artificial nerve scaffolds in vitro.
雪旺细胞(SC)纯化的主要困难在于成纤维细胞的污染,在体外雪旺细胞富集过程中,成纤维细胞通常会成为主要的细胞类型。目前报道的方法主要受限于成本高或程序复杂,细胞产量或纯度较低。我们的目标是开发一种高效、易于应用、快速的方法,从新生大鼠的坐骨神经中获得高度纯化的雪旺细胞。该方法包括两轮纯化,通过联合使用新型盐酸阿糖胞苷(Ara-C)作用和差异性细胞脱离来消除成纤维细胞。首先将培养的细胞用Ara-C处理24小时。然后用含有20 ng/ml人神经调节蛋白1-β1胞外结构域(HRG1-β1 ECD)的生长培养基替换培养基。再培养48小时后,用0.05%胰蛋白酶处理细胞,之后雪旺细胞而非成纤维细胞很容易从培养皿中脱离。该方法的优点是这两个步骤可以互补地消除成纤维细胞。Ara-C消除了雪旺细胞中生长的大部分成纤维细胞,而差异性细胞脱离技术则去除了在雪旺细胞层下方生长或与之相互作用的其余成纤维细胞。通过细胞形态学和免疫染色证实,获得了纯度超过99%的雪旺细胞。纯化的雪旺细胞具有纺锤形、双极形,有时为三极形的形态,排列成束,并表达S-100。从原代培养到纯化的雪旺细胞生长至汇合,整个过程大约需要10天(仅为先前报道时间的一半)。该方案为研究周围神经再生提供了一种替代方法,并且有可能用于生产足够的雪旺细胞以在体外构建人工神经支架。
