Growth of ameloblast-lineage cells in a three-dimensional Matrigel environment.

Autor: Wu Li, Machule, Darren, Cen Gao, DenBesten, Pamela K.
Předmět:
Zdroj: European Journal of Oral Sciences; Feb2006 Supplement, Vol. 114, p159-163, 5p, 2 Color Photographs
Abstrakt: Enamel organ epithelial cells grow in culture as two distinct cell populations – either stellate-shaped or polygonal-shaped cells. The polygonal cells have an ameloblast cell phenotype and are difficult to grow in culture beyond two passages. This study was designed to determine the effects of a Matrigel three-dimensional (3D) environment on polygonal cells, as compared with stellate cells, derived from porcine tooth enamel organ. Enamel organs were dissected free from the unerupted molars of 30-kg pigs and then grown in LCH-8e media, either with or without serum. Cells grown in serum-free media were primarily polygonal shaped, whereas cells grown in media containing serum were stellate shaped. Both types of cells were grown in a 3D Matrigel matrix. In addition, polygonal-shaped cells were mixed with hydroxyapatite powder and transplanted subcutaneously into nude mice. Polygonal-shaped epithelial cells formed cell groups, similar to epithelial pearls, both in vitro and in vivo. The stellate-shaped cells, in contrast, did not form similar structures, but remained suspended in the Matrigel and gradually disappeared from the culture. These results suggest that a Matrigel environment, rich in basement membrane and matrix proteins, selects for polygonal-shaped ameloblast-lineage cells and induces the formation of epithelial pearls. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index