Papagerakis P, Lin H-K, Lee K Y, Hu Y, Simmer J P, Bartlett J D, Hu J C-C
Department of Biologic and Materials Sciences, University of Michigan School of Dentistry, Ann Arbor, MI 48109-1078, USA.
J Dent Res. 2008 Jan;87(1):56-9. doi: 10.1177/154405910808700109.
Proteolytic enzymes are necessary for the mineralization of dental enamel during development, and mutations in the kallikrein 4 (KLK4) and enamelysin (MMP20) genes cause autosomal-recessive amelogenesis imperfecta (ARAI). So far, only one KLK4 and two MMP20 mutations have been reported. We have identified an ARAI-causing point mutation (c.102G>A, g.102G>A, and p.W34X) in exon 1 of MMP20 in a proband with autosomal-recessive hypoplastic-hypomaturation amelogenesis imperfecta. The G to A transition changes the tryptophan (W) codon (TGG) at amino acid position 34 into a translation termination (X) codon (TGA). No disease-causing sequence variations were detected in KLK4. The affected enamel is thin, with mild spacing in the anterior dentition. The enamel layer is hypomineralized, does not contrast with dentin on radiographs, and tends to chip away from the underlying dentin. An intrinsic yellowish pigmentation is evident, even during eruption. The phenotype supports current ideas concerning the function of enamelysin.
蛋白水解酶在牙齿发育过程中对牙釉质矿化是必需的,激肽释放酶4(KLK4)和釉质溶解素(MMP20)基因的突变会导致常染色体隐性遗传性牙釉质发育不全(ARAI)。到目前为止,仅报道了1个KLK4突变和2个MMP20突变。我们在一名患有常染色体隐性遗传性发育不全-成熟不全型牙釉质发育不全的先证者中,在MMP20的外显子1中鉴定出一个导致ARAI的点突变(c.102G>A、g.102G>A和p.W34X)。G到A的转变将氨基酸位置34处的色氨酸(W)密码子(TGG)变为翻译终止(X)密码子(TGA)。在KLK4中未检测到致病序列变异。受影响的牙釉质很薄,前牙列有轻度间隙。牙釉质层矿化不足,在X线片上与牙本质无对比,且易于从下方的牙本质上剥落。即使在萌出期,也明显存在内在的淡黄色色素沉着。该表型支持了目前关于釉质溶解素功能的观点。