Consequences for enamel development and mineralization resulting from loss of function of ameloblastin or enamelin

Although the nonamelogenin proteins, ameloblastin and enamelin, are both low‐abundance and rapidly degrading components of forming enamel, they seem to serve essential developmental functions, as suggested by findings that an enamel layer fails to appear on teeth of mice genetically engineered to pr...

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Published in:European journal of oral sciences 2009-10, Vol.117 (5), p.485-497
Main Authors: Smith, Charles E., Wazen, Rima, Hu, Yuanyuan, Zalzal, Sylvia F., Nanci, Antonio, Simmer, James P., Hu, Jan C-C.
Format: Article
Language:English
Subjects:
ameloblastin
Ameloblasts - chemistry
Ameloblasts - physiology
Ameloblasts - ultrastructure
Amelogenesis - genetics
Amelogenesis - physiology
Animals
Dental Enamel - chemistry
Dental Enamel - ultrastructure
Dental Enamel Proteins - analysis
Dental Enamel Proteins - genetics
Dental Enamel Proteins - physiology
Dentin - chemistry
Dentin - growth & development
Dentin - ultrastructure
enamel
Enamel Organ - abnormalities
Enamel Organ - chemistry
Enamel Organ - ultrastructure
enamelin
Exons - genetics
Female
Gene Deletion
Genotype
Heterozygote
Homozygote
Incisor - chemistry
Incisor - growth & development
Incisor - ultrastructure
knockout
Male
Mandible - chemistry
Maxilla - chemistry
Mice
Mice, Knockout
Microscopy, Electron, Scanning
mineralization
Minerals - analysis
Molar - chemistry
Molar - growth & development
Molar - ultrastructure
Tooth Calcification - genetics
Tooth Calcification - physiology
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Summary:Although the nonamelogenin proteins, ameloblastin and enamelin, are both low‐abundance and rapidly degrading components of forming enamel, they seem to serve essential developmental functions, as suggested by findings that an enamel layer fails to appear on teeth of mice genetically engineered to produce either a truncated form of ameloblastin (exons 5 and 6 deleted) or no enamelin at all (null). The purpose of this study was to characterize, by direct micro weighing, changes in enamel mineralization occurring on maxillary and mandibular incisors of mice bred for these alterations in nonamelogenin function (Ambn+/+, +/−5,6, −5,6/−5,6, Enam+/+, +/− ,−/−). The results indicated similar changes to enamel‐mineralization patterns within the altered genotypes, including significant decreases by as much as 50% in the mineral content of maturing enamel from heterozygous mice and the formation of a thin, crusty, and disorganized mineralized layer, rather than true enamel, on the labial (occlusal) surfaces of incisors and molars along with ectopic calcifications within enamel organ cells in Ambn−5,6/−5,6 and Enam−/− homozygous mice. These findings confirm that both ameloblastin and enamelin are required by ameloblasts to create an enamel layer by appositional growth as well as to assist in achieving its unique high level of mineralization.
ISSN:0909-8836
1600-0722
DOI:10.1111/j.1600-0722.2009.00666.x