家族性 Y458X 无义突变导致的低矿化型牙釉质发育不全患者乳牙的超微结构分析
Ultrastructural analyses of deciduous teeth affected by hypocalcified amelogenesis imperfecta from a family with a novel Y458X FAM83H nonsense mutation.
机构信息
Leeds Dental Institute, University of Leeds, UK.
出版信息
Cells Tissues Organs. 2010;191(3):235-9. doi: 10.1159/000252801. Epub 2009 Oct 22.
BACKGROUND
Nonsense mutations in FAM83H are a recently described underlying cause of autosomal dominant (AD) hypocalcified amelogenesis imperfecta (AI).
OBJECTIVE
This study aims to report a novel c.1374C>A p.Y458X nonsense mutation and describe the associated ultrastructural phenotype of deciduous teeth.
METHODS
A family of European origin from the Iberian Peninsula with AD-inherited AI was ascertained. Family members were assessed through clinical examination and supporting investigations. Naturally exfoliated deciduous teeth from 2 siblings were investigated by scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDX) and transverse microradiography (TMR).
RESULTS
On clinical and radiographic investigation the appearances of the affected deciduous and permanent teeth were consistent with hypocalcified AI with small focal areas of more normal looking enamel. DNA sequencing identified a novel c.1374C>A p.Y458X FAM83H nonsense mutation in affected, but not in either unaffected family members or unrelated controls. Exfoliated teeth were characterised by substantial post-eruptive enamel loss on gross examination. Irregular, poor quality enamel prisms were observed on SEM. These were coated in amorphous material. TMR and EDX confirmed reduced mineral and increased organic content in enamel, respectively.
CONCLUSIONS
FAM83H nonsense mutations have recently been recognised as a cause of AD hypocalcified AI. We report a novel nonsense FAM83H mutation and describe the associated preliminary ultrastructural phenotype in deciduous teeth. This is characterised by poorly formed enamel rods with inappropriate retention of amorphous material, which is likely to represent retained organic matrix that contributes to the overall hypomineralised phenotype.
背景
FAM83H 的无意义突变是最近描述的常染色体显性(AD)低钙性牙釉质不全(AI)的潜在原因。
目的
本研究旨在报告一种新型 c.1374C>A p.Y458X 无意义突变,并描述脱落乳牙的相关超微结构表型。
方法
从伊比利亚半岛具有 AD 遗传性 AI 的欧洲血统家族中确定了一个家族。通过临床检查和辅助检查评估家族成员。对 2 个兄弟姐妹的自然脱落乳牙进行扫描电子显微镜(SEM)、能谱 X 射线分析(EDX)和横向显微放射摄影(TMR)检查。
结果
临床和影像学检查显示,受累乳牙和恒牙的表现与低钙性 AI 一致,有小的、更正常的釉质局灶性区域。DNA 测序在受累者中发现了一种新型 c.1374C>A p.Y458X FAM83H 无意义突变,但在未受影响的家族成员或无关对照中均未发现。脱落的牙齿在大体检查时表现出大量釉质脱落后的牙釉质丧失。SEM 观察到不规则、质量差的釉质棱柱体。这些棱柱体被无定形物质覆盖。TMR 和 EDX 分别证实了釉质中矿物质减少和有机含量增加。
结论
最近已认识到 FAM83H 无意义突变是 AD 低钙性 AI 的原因之一。我们报告了一种新型的 FAM83H 无意义突变,并描述了相关的乳牙超微结构表型。其特征是釉质棱柱体形成不良,无定形物质保留不当,这可能代表保留的有机基质,有助于整体低矿化表型。
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