Abstract
ObjectivesBiallelic variants in solute carrier family 24 member 4 (SLC24A4) have been previously reported to cause non-syndromic autosomal recessive amelogenesis imperfecta (AI) of the pigmented hypomaturation type (MIM #615887). We here describe a novel variant in SLC24A4 causing mild enamel hypomaturation defects also in heterozygous individuals.Materials and methodsIn the present pedigree analysis, a large consanguineous Syrian family with AI of the hypomaturation type was investigated by clinical and dental evaluation, and exome and Sanger sequencing. Dental histological investigations of seven primary and two permanent teeth were performed.ResultsHomozygous variants in SLC24A4 (c.1604G>A; p.Gly535Asp) were identified in five individuals with brown discolorations and irregular pits and grooves of the teeth. Severe attritions, occlusal abfractions, and the radiological lack of contrast between enamel and dentin point out a mineralization defect. Histological dental investigations confirmed the clinical diagnosis of AI of the hypomaturation type. In two heterozygous individuals, a mild hypomaturation defect was present with white and light brown enamel discolorations.ConclusionsThis is the first report of heterozygous SLC24A4 variants causing mild hypomaturation defects, providing confirmatory evidence that the function of SLC24A4 in calcium transport has a crucial role in the maturation stage of amelogenesis.Clinical relevanceThe present report is expanding the clinical phenotype of SLC24A4 variants to more severe forms of amelogenesis imperfecta. An autosomal-dominant inheritance pattern with mild clinical phenotypes in heterozygotes has to be considered.
Highlights
Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.Dental enamel is the most highly mineralized human tissue
Congenital disorders presenting with aberrations of enamel formation are denoted amelogenesis imperfecta (AI); prevalence ranges from 1:700 to 1:14000 within selected populations [2]
Hypoplastic AI is caused by disorders affecting the first step of amelogenesis, the synthesis of organic matrix
Summary
Dental enamel is the most highly mineralized human tissue. It consists of a crystalline calcium phosphate (hydroxyapatite) and is characterized by the almost total absence of organic matrix [1]. Congenital disorders presenting with aberrations of enamel formation are denoted amelogenesis imperfecta (AI); prevalence ranges from 1:700 to 1:14000 within selected populations [2]. Enamel formation and growth are known to occur in three major developmental phases. Hypoplastic AI is caused by disorders affecting the first step of amelogenesis, the synthesis of organic matrix. Impairment of enamel mineralization leads to hypocalcified AI, which is found only in a small number of AI patients. Disturbance of enamel maturation, the last step of amelogenesis, leads to
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
