Biomechanics and Bioengineering, Unité Mixte de Recherche CNRS 7338, University of Technology of Compiègne, Compiègne, France.
Tissue Eng Part A. 2013 Jan;19(1-2):103-13. doi: 10.1089/ten.TEA.2012.0139. Epub 2012 Oct 1.
Three-dimensional (3D) culture systems have been introduced to provide cells with a biomimetic environment that is similar to in vivo conditions. Among the polymeric molecules available, sodium-alginate (Na-alg) salt is a material that is currently employed in different areas of drug delivery and tissue engineering, because it offers biocompatibility and optimal chemical properties, and its gelation with calcium chloride provides calcium-alginate (Ca-alg) scaffolds with mechanical stability and relative permeability. In this work, four different preparations of Ca-alg beads with varying Na-alg viscosity and concentration were used for a human hepatoma cell line (Huh-7) encapsulation. The effects of Ca-alg bead preparation on structural cell organization, liver-specific functions, and the expression of specific receptors implicated in hepatotropic virus permissivity were evaluated. Hepatic cells were cultured in 500 μm diameter Ca-alg beads for 7 days under dynamic conditions. For all culture systems, cell viability reached almost 100% at day 7. Cell proliferation was concomitantly followed by hepatocyte organization in aggregates, which adopted two different morphologies (spheroid aggregates or multicellular channel-like structures), depending on Ca-alg bead preparation. These cellular organizations established a real 3D hepatocyte architecture with cell polarity, cell junctions, and abundant bile canaliculi possessing microvillus-lined channels. The functionality of these 3D cultures was confirmed by the production of albumin and the exhibition of CYP1A activity over culture time, which were variable, according to Ca-alg bead condition. The expression of specific receptors of hepatitis C virus by Huh-7 cells suggests encouraging data for the further development of a new viral culture system in Ca-alg beads. In summary, this 3D hepatic cell culture represents a promising physiologically relevant system for further in vitro studies and demonstrates that an adequate encapsulation condition can be selected for each target application in liver tissue engineering, specifically in viral studies.
三维(3D)培养系统已被引入,以提供类似于体内条件的仿生环境。在可用的聚合分子中,海藻酸钠(Na-alg)盐是一种目前在药物输送和组织工程的不同领域中使用的材料,因为它提供了生物相容性和最佳的化学性质,并且其与氯化钙的凝胶化提供了具有机械稳定性和相对渗透性的海藻酸钙(Ca-alg)支架。在这项工作中,使用了四种不同的 Ca-alg 珠制剂,其 Na-alg 粘度和浓度不同,用于封装人肝癌细胞系(Huh-7)。评估了 Ca-alg 珠制剂对细胞结构组织、肝脏特异性功能以及参与嗜肝病毒易感性的特定受体表达的影响。在动态条件下,将肝实质细胞在 500μm 直径的 Ca-alg 珠中培养 7 天。对于所有的培养系统,在第 7 天,细胞活力几乎达到 100%。细胞增殖伴随着肝细胞在聚集物中的组织化,聚集物采用两种不同的形态(球体聚集物或多细胞通道样结构),这取决于 Ca-alg 珠制剂。这些细胞组织建立了具有细胞极性、细胞连接和丰富的具有微绒毛衬里通道的胆小管的真正的 3D 肝实质细胞结构。通过白蛋白的产生和 CYP1A 活性随培养时间的变化,证实了这些 3D 培养物的功能,这些变化根据 Ca-alg 珠的条件而变化。Huh-7 细胞表达丙型肝炎病毒的特定受体,这表明在 Ca-alg 珠中进一步开发新的病毒培养系统有令人鼓舞的数据。总之,这种 3D 肝实质细胞培养物代表了一个有前途的生理相关系统,可用于进一步的体外研究,并表明可以为肝脏组织工程中的每个目标应用选择适当的封装条件,特别是在病毒研究中。
