Honda Masaki J, Shinmura Yuka, Shinohara Yoshinori
Department of Anatomy, Nihon University School of Dentistry, Tokyo, Japan.
Cells Tissues Organs. 2009;189(1-4):261-7. doi: 10.1159/000151743. Epub 2008 Aug 27.
We describe a strategy for the in vitro engineering of enamel tissue using a novel technique for culturing enamel organ epithelial (EOE) cells isolated from the enamel organ using 3T3-J2 cells as a feeder layer. These subcultured EOE cells retain the capacity to produce enamel structures over a period of extended culture. In brief, enamel organs from 6-month-old porcine third molars were dissociated into single cells and subcultured on 3T3-J2 feeder cell layers. These subcultured EOE cells were then seeded onto a collagen sponge in combination with primary dental pulp cells isolated at an early stage of crown formation, and these constructs were transplanted into athymic rats. After 4 weeks, complex enamel-dentin structures were detected in the implants. These results show that our culture technique maintained ameloblast lineage cells that were able to produce enamel in vivo. This novel subculture technique provides an important tool for tooth tissue engineering.
我们描述了一种利用新型技术在体外构建牙釉质组织的策略,该技术使用3T3-J2细胞作为饲养层培养从牙胚分离出的牙胚上皮(EOE)细胞。这些传代培养的EOE细胞在延长培养期内仍保留产生牙釉质结构的能力。简而言之,将6月龄猪第三磨牙的牙胚解离成单细胞,并在3T3-J2饲养细胞层上传代培养。然后将这些传代培养的EOE细胞与在牙冠形成早期分离的原代牙髓细胞一起接种到胶原海绵上,并将这些构建体移植到无胸腺大鼠体内。4周后,在植入物中检测到复杂的牙釉质-牙本质结构。这些结果表明,我们的培养技术维持了能够在体内产生牙釉质的成釉细胞谱系细胞。这种新型传代培养技术为牙齿组织工程提供了一个重要工具。
