Center for Biomedical Engineering, Massachusetts Institute of Technology, Boston, MA, USA.
J Nanobiotechnology. 2010 Dec 12;8:29. doi: 10.1186/1477-3155-8-29.
Isolated hepatocytes removed from their microenvironment soon lose their hepatospecific functions when cultured. Normally hepatocytes are commonly maintained under limited culture medium supply as well as scaffold thickness. Thus, the cells are forced into metabolic stress that degenerate liver specific functions. This study aims to improve hepatospecific activity by creating a platform based on classical collagen sandwich cultures.
The modified sandwich cultures replace collagen with self-assembling peptide, RAD16-I, combined with functional peptide motifs such as the integrin-binding sequence RGD and the laminin receptor binding sequence YIG to create a cell-instructive scaffold. In this work, we show that a plasma-deposited coating can be used to obtain a peptide layer thickness in the nanometric range, which in combination with the incorporation of functional peptide motifs have a positive effect on the expression of adult hepatocyte markers including albumin, CYP3A2 and HNF4-alpha.
This study demonstrates the capacity of sandwich cultures with modified instructive self-assembling peptides to promote cell-matrix interaction and the importance of thinner scaffold layers to overcome mass transfer problems. We believe that this bioengineered platform improves the existing hepatocyte culture methods to be used for predictive toxicology and eventually for hepatic assist technologies and future artificial organs.
从微环境中分离出来的肝细胞在培养时很快就会失去其肝特异性功能。正常情况下,肝细胞通常在有限的培养基供应和支架厚度下维持。因此,细胞被迫进入代谢应激状态,导致肝脏特异性功能退化。本研究旨在通过创建基于经典胶原三明治培养的平台来提高肝特异性活性。
改良的三明治培养法用自组装肽 RAD16-I 代替胶原,并结合整合素结合序列 RGD 和层粘连蛋白受体结合序列 YIG 等功能肽基序,构建细胞指令性支架。在这项工作中,我们表明,等离子体沉积涂层可用于获得纳米级的肽层厚度,这与功能肽基序的掺入相结合,对成年肝细胞标志物(包括白蛋白、CYP3A2 和 HNF4-alpha)的表达有积极影响。
本研究证明了改良的指令性自组装肽三明治培养法具有促进细胞-基质相互作用的能力,以及较薄支架层克服质量传递问题的重要性。我们相信,这种生物工程平台改进了现有的肝细胞培养方法,可用于预测性毒理学,最终用于肝辅助技术和未来的人工器官。
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