Cho E S, Kim K-J, Lee K-E, Lee E-J, Yun C Y, Lee M-J, Shin T J, Hyun H-K, Kim Y-J, Lee S-H, Jung H-S, Lee Z H, Kim J-W
Cluster for Craniofacial Development and Regeneration Research, Institute of Oral Biosciences, School of Dentistry, Chonbuk National University, Jeonju, Korea.
Department of Pediatric Dentistry and Dental Research Institute, School of Dentistry, Seoul National University, Seoul, Korea.
J Dent Res. 2014 Oct;93(10):980-7. doi: 10.1177/0022034514547272. Epub 2014 Aug 12.
Tooth enamel is the most highly mineralized tissue in vertebrates. Enamel crystal formation and elongation should be well controlled to achieve an exceptional hardness and a compact microstructure. Enamel matrix calcification occurs with several matrix proteins, such as amelogenin, enamelin, and ameloblastin. Among them, amelogenin is the most abundant enamel matrix protein, and multiple isoforms resulting from extensive but well-conserved alternative splicing and postsecretional processing have been identified. In this report, we recruited a family with a unique enamel defect and identified a silent mutation in exon 4 of the AMELX gene. We show that the mutation caused the inclusion of exon 4, which is almost always skipped, in the mRNA transcript. We further show, by generating and characterizing a transgenic animal model, that the alteration of the ratio and quantity of the developmentally conserved alternative splicing repertoire of AMELX caused defects in enamel matrix mineralization.
牙釉质是脊椎动物中矿化程度最高的组织。牙釉质晶体的形成和伸长应得到良好控制,以实现非凡的硬度和致密的微观结构。牙釉质基质钙化与多种基质蛋白有关,如釉原蛋白、釉蛋白和成釉细胞蛋白。其中,釉原蛋白是牙釉质基质中含量最丰富的蛋白质,人们已经鉴定出由广泛但保守的可变剪接和分泌后加工产生 的多种异构体。在本报告中,我们招募了一个患有独特牙釉质缺陷的家系,并在 AMELX 基因的第 4 外显子中鉴定出一个沉默突变。我们发现该突变导致几乎总是被跳过的第 4 外显子包含在 mRNA 转录本中。我们通过构建和表征转基因动物模型进一步表明,AMELX 发育保守的可变剪接谱的比例和数量的改变导致了牙釉质基质矿化缺陷。