Y. Miyamoto, M. Ikeuchi, H. Noguchi, T. Yagi, S. Hayashi
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引用次数: 26
摘要
在药物发现中,对生物体内的肝细胞进行评估是非常重要的。与2D培养方法相比,肝细胞3D培养技术的发展已经成功地维持了长期的肝脏功能,形成了肝脏特异性结构。进行药物检测的关键是建立稳定的体外评价体系。在这篇文章中,我们报道了一种用于体外培养肝球体的锥形支架(TASCL)装置。TASCL装置将作为药物发现的毒性评价系统。TASCL装置的总尺寸为10 mm × 10 mm,包含400个微孔,每个微孔的顶孔(500µm × 500µm)和底孔(直径300µm的圆形)。我们评估了TASCL装置中HepG2球体的形成、恢复和大小。HepG2球体的形成率和恢复率均接近100%,并且随着初始细胞播种密度的增加,HepG2球体的大小也随之增加。不同微孔中球体的大小无显著差异。此外,使用TASCL装置获得的HepG2球体是活的,并产生白蛋白。利用FE-SEM研究了HepG2球体的形貌。微孔中的球体呈现完美的球形聚集。在本报告中,通过调整TASCL装置的微孔大小,可以创建均匀的HepG2球体,并且该装置可以更精确地测量每个HepG2球体的肝功能。本发明的TASCL装置可作为药物毒性评价系统。
Spheroid Formation and Evaluation of Hepatic Cells in a Three-Dimensional Culture Device.
In drug discovery, it is very important to evaluate liver cells within an organism. Compared to 2D culture methods, the development of 3D culture techniques for liver cells has been successful in maintaining long-term liver functionality with the formation of a hepatic-specific structure. The key to performing drug testing is the establishment of a stable in vitro evaluation system. In this article, we report a Tapered Stencil for Cluster Culture (TASCL) device developed to create liver spheroids in vitro. The TASCL device will be applied as a toxicity evaluation system for drug discovery. The TASCL device was created with an overall size of 10 mm × 10 mm, containing 400 microwells with a top aperture (500 µm × 500 µm) and a bottom aperture (300 µm diameter circular) per microwell. We evaluated the formation, recovery, and size of HepG2 spheroids in the TASCL device. The formation and recovery were both nearly 100%, and the size of the HepG2 spheroids increased with an increase in the initial cell seeding density. There were no significant differences in the sizes of the spheroids among the microwells. In addition, the HepG2 spheroids obtained using the TASCL device were alive and produced albumin. The morphology of the HepG2 spheroids was investigated using FE-SEM. The spheroids in the microwells exhibited perfectly spherical aggregation. In this report, by adjusting the size of the microwells of the TASCL device, uniform HepG2 spheroids were created, and the device facilitated more precise measurements of the liver function per HepG2 spheroid. Our TASCL device will be useful for application as a toxicity evaluation system for drug testing.