Formation and culture of cell spheroids by using magnetic nanostructures resembling a crown of thorns

Author:

Li Shijiao,Qiu JingjiangORCID,Guo ZhongweiORCID,Gao Qiulei,Huang Chen-Yu,Hao Yilin,Hu Yifan,Liang Tianshui,Zhai Ming,Zhang Yudong,Nie Bangbang,Chang Wei-Jen,Wang Wen,Xi Rui,Wei RonghanORCID

Abstract

Abstract In contrast to traditional two-dimensional cell-culture conditions, three-dimensional (3D) cell-culture models closely mimic complex in vivo conditions. However, constructing 3D cell culture models still faces challenges. In this paper, by using micro/nano fabrication method, including lithography, deposition, etching, and lift-off, we designed magnetic nanostructures resembling a crown of thorns. This magnetic crown of thorns (MCT) nanostructure enables the isolation of cells that have endocytosed magnetic particles. To assess the utility of this nanostructure, we used high-flux acquisition of Jurkat cells, an acute-leukemia cell line exhibiting the native phenotype, as an example. The novel structure enabled Jurkat cells to form spheroids within just 30 min by leveraging mild magnetic forces to bring together endocytosed magnetic particles. The size, volume, and arrangement of these spheroids were precisely regulated by the dimensions of the MCT nanostructure and the array configuration. The resulting magnetic cell clusters were uniform in size and reached saturation after 1400 s. Notably, these cell clusters could be easily separated from the MCT nanostructure through enzymatic digestion while maintaining their integrity. These clusters displayed a strong proliferation rate and survival capabilities, lasting for an impressive 96 h. Compared with existing 3D cell-culture models, the approach presented in this study offers the advantage of rapid formation of uniform spheroids that can mimic in vivo microenvironments. These findings underscore the high potential of the MCT in cell-culture models and magnetic tissue enginerring.

Publisher

IOP Publishing

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