CEA, DSV, IRTSV, Laboratoire Biopuces, Grenoble, France.
Biomaterials. 2010 Apr;31(12):3156-65. doi: 10.1016/j.biomaterials.2010.01.020. Epub 2010 Feb 10.
We report the fabrication of a 3D micropatterned agarose substrate that enables the culture of single or multiple cells. Patterning was performed on dried agarose using deep UV irradiation leading to 6-microm-deep micropatterns of 25-70 microm in diameter. Cell adhesion was facilitated by the specific grafting of ECM (extra cellular matrix) proteins such as fibronectin into the micropatterns. We show that the pattern size induced the adhesion of one or more cells, thus allowing precise control of the cell number used in the assay, and that cells proliferated similarly as in standard culture conditions. Moreover, cell polarity appeared well preserved on this substrate, so polarized cells like hepatoma HepaRG cells might maintain their differentiation status and act as primary human hepatocytes for hepatotoxicity testing. These 3D patterned culture slides have been successfully used for in situ comet assays and there is evidence that the genotoxic effects of sub-cytotoxic concentrations of drugs could be analyzed in a large number of single HeLa cells. Coupled with the parallel-based design of the 3D micropatterning, which allows automated image analysis, these results strongly indicate that this new cell array system is suitable for high-throughput cytotoxicity and genotoxicity screening applications.
我们报告了一种 3D 微图案琼脂糖基质的制造方法,该方法可用于培养单个或多个细胞。通过对干燥的琼脂糖进行深紫外光照射,在直径为 25-70 微米的范围内形成了 6 微米深的微图案。通过将细胞外基质(extracellular matrix)蛋白(如纤连蛋白)特异性地接枝到微图案中,促进了细胞的黏附。我们表明,图案尺寸诱导一个或多个细胞的黏附,从而可以精确控制用于实验的细胞数量,并且细胞以与标准培养条件下相似的方式增殖。此外,在该基质上细胞极性得到了很好的保持,因此像肝癌 HepaRG 细胞这样的极化细胞可能会保持其分化状态,并作为原代人肝细胞用于毒性测试。这些 3D 图案化培养载玻片已成功用于原位彗星试验,并且有证据表明,可以在大量单个 HeLa 细胞中分析亚细胞毒性浓度药物的遗传毒性作用。结合 3D 微图案的基于平行的设计,这允许自动化图像分析,这些结果强烈表明,这种新的细胞阵列系统适用于高通量细胞毒性和遗传毒性筛选应用。
