Abstract
Amelogenesis imperfecta (AI) is a group of rare genetic diseases affecting the tooth enamel. AI is characterized by an inadequate quantity and/or quality of tooth enamel and can be divided into three major categories: hypoplastic, hypocalcified and hypomaturation types. Even though there are some overlapping phenotypes, hypomaturation AI enamel typically has a yellow to brown discoloration with a dull appearance but a normal thickness indicating a less mineralized enamel matrix. In this study, we recruited four Turkish families with hypomaturation AI and performed mutational analysis using whole exome sequencing. These analyses revealed two novel homozygous mutations in the KLK4 gene: a nonsense mutation in exon 3 (NM_004917.4:c.170C>A, p.(Ser57*)) was found in families 1, 2 and 3 and a missense mutation in exon 6 (c.637T>C, p.(Cys213Arg)) in family 4. Functional analysis showed that the missense mutation transcript could not translate the mutant protein efficiently or generated an unstable protein that lacked functional activity. The two novel inactivating KLK4 mutations we identified caused a hypomaturation AI phenotype similar to those caused by the four previously described KLK4 nonsense and frameshift mutations. This study improves our understanding of the normal and pathologic mechanisms of enamel formation.
Highlights
Tooth enamel, the hardest tissue in the human body, is the outermost covering of the crown of the teeth
Kallikrein enzymes are serine proteases that are composed of plasma kallikrein (KLKB1, OMIM *229000) and kallikrein related peptidases (KLKs) [30]
A phylogenetic study suggested that the KLK4 gene arose via gene duplication from the KLK5 gene [32]
Summary
The hardest tissue in the human body, is the outermost covering of the crown of the teeth. To achieve an exceptional hardness and beautiful shape, the enamel-forming process (amelogenesis) is under tight control and strict surveillance from start to finish [1]. Minor alterations that might be tolerated during the development of other tissues, result in tooth enamel malformations of a localized or generalized form. Amelogenesis imperfecta (AI) is a collection of rare genetic disorders affecting the tooth enamel [3]. Amelogenesis occurs in discrete but continuous processes: secretion, calcification and maturation [4]. The enamel crystallites become thicker and wider and interlock. A disruption in any step of amelogenesis causes a process-specific form of AI (hypoplastic, hypocalcified and hypomaturation), but sometimes the phenotype can be a mixed type [6]
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