In the absence of a basal lamina, ameloblasts absorb enamel in a serumless and chemically defined organ culture system.

Tooth organ development was examined in a serumless, chemically defined organ culture system to determine whether morphological and functional development was identical to that in in vivo and serum-supplemented organ cultures. Mouse mandibular first molar tooth organs at 16 days of gestation were cultured for up to 28 days in a Tronwell culture system using a serum-supplemented or serumless, chemically defined medium. After culture, specimens were processed for assessing tooth development using ultrastructural, immunohistochemical, and mRNA expression analyses. In serum-supplemented conditions, inner enamel epithelial cells differentiated into secretory-stage ameloblasts, which formed enamel and reached the maturation stage after 14 and 21 days of culture, respectively. Ameloblasts deposited a basal lamina on immature enamel. Conversely, in serumless conditions, ameloblasts formed enamel on mineralized dentin after 21 days. Moreover, maturation-stage ameloblasts did not form basal lamina and directly absorbed mineralized enamel after 28 days of culture. RT-PCR analysis indicated that tooth organs, cultured in serumless conditions for 28 days, had significantly reduced expression levels of ODAM, amelotin, and laminin-322. These results indicate that several differences were detected compared to the development in serum-supplemented conditions, such as delayed enamel and dentin formation and the failure of maturation-stage ameloblasts to form basal laminae. Therefore, our results suggest that some factors might be required for the steady formation of mineralized dentin, enamel, and a basal lamina. Additionally, our results indicate that a basal lamina is necessary for enamel maturation. Copyright © 2021 Japanese Association for Oral Biology. Published by Elsevier B.V. All rights reserved.

Citation

Retsu Ohki, M Matsuki-Fukushima, K Fujikawa, Mitsuori Mayahara, Kayo Matsuyama, Masanori Nakamura. In the absence of a basal lamina, ameloblasts absorb enamel in a serumless and chemically defined organ culture system. Journal of oral biosciences. 2021 Mar;63(1):66-73

Mesh Tags

PMID: 33493674

search → result