用于间充质干细胞培养和分离的热响应 PNIPAM 接枝聚苯乙烯微球。

Yuanyuan Zhao, Zida Cao, Jingwei Zhang, Jia Tian, Haibo Cai
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摘要

细胞制备是细胞疗法的关键步骤。为确保用于临床治疗的细胞的有效性,从培养基中收获附着细胞时必须保持其高度活力和完整功能。在这项研究中,我们利用可逆加成-碎片链转移聚合技术开发了温度响应型 PNIPAM 接枝聚苯乙烯微球。这些微球可通过温度变化无损地收获培养细胞。红外光谱、元素分析、动态光散射和热重分析证实了 PNIPAM 接枝聚苯乙烯微球的成分和理化性质。体外实验表明,这些微球具有良好的生物相容性,支持各种细胞的粘附和增殖。此外,在与 GFP-HepG2 细胞和脐带间充质干细胞(UC-MSCs)的热敏分离实验中,微球显示出良好的温度响应性。此外,通过正交实验,我们确定了一种细胞分离辅助混合物,它能显著改善从微球分离出来的细胞的分散性,将热敏细胞分离的效率提高了约 40%。收获的 UC 间充质干细胞保留了其再增殖和三系分化的能力。因此,本研究开发的温度响应微球与细胞分离辅助混合物相结合,在临床应用中大规模培养和收获治疗细胞方面具有巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermo-responsible PNIPAM-grafted polystyrene microspheres for mesenchymal stem cells culture and detachment.

The preparation of cells is a critical step in cell therapy. To ensure the effectiveness of cells used for clinical treatments, it is essential to harvest adherent cells from the culture media in a way that preserves their high viability and full functionality. In this study, we developed temperature-responsive poly(N-isopropylacrylamide) (PNIPAM)-grafted polystyrene (PS) microspheres using reversible addition-fragmentation chain transfer polymerization. These microspheres allow for the non-destructive harvesting of cultured cells through temperature changes. The composition and physicochemical properties of the PNIPAM-grafted PS microspheres were confirmed using infrared spectroscopy, elemental analysis, dynamic light scattering, and thermogravimetric analysis.In vitroexperiments demonstrated that these microspheres exhibit excellent biocompatibility, supporting the adhesion and proliferation of various cells. Moreover, the microspheres showed good temperature responsiveness in thermosensitive detachment experiments with GFP-HepG2cells and umbilical cord mesenchymal stem cells (UC-MSCs). Additionally, through orthogonal experiments, we identified a cell detachment aid mixture that significantly improved the dispersibility of cells detached from the microspheres, enhancing the efficiency of thermosensitive cell detachment by approximately 40%. The harvested UC-MSCs retained their capacity for re-proliferation and trilineage differentiation. Consequently, the temperature-responsive microspheres developed in this study, combined with the cell detachment aid mixtures, hold great potential for large-scale culture and harvesting of therapeutic cells in clinical applications.

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