Prevalence of WNT10A gene mutations in non-syndromic oligodontia.

OBJECTIVES:Non-syndromic oligodontia is an infrequent clinical condition whose etiology is not yet completely understood being a wide spectrum of gene mutations described in concomitance with this severe form of tooth agenesis. Recently, multiple observations have linked up to 50% of cases with isolated hypodontia to mutations in the WNT10A gene. Here, we hypothesized that mutations in the WNT10A gene could also be present in families affected by non-syndromic oligodontia. MATERIAL AND METHODS:All available patients with non-syndromic oligodontia (n = 20) treated at the Department of Orthodontics, University of Giessen, Germany between 1986 and 2013 as well as their family members were analyzed for mutations in the WNT10A gene. RESULTS:Mutation screening was positive in 50% of the 20 patients. The analysis revealed that the mutations 2:219755011(c.682T>TA)(p.F228I), 2:219754822(c.493G>GA)(p.G165R), 2:219754816(c.487C>CT)(p.R163W), and 2:219747090(c.321C>CA)(p.C107*), the novel missense mutation 2:219757676(c.937G/GT)(p.G313C), and the novel synonym variant 2:219754854(c.525C>CT)(p.H175H) were present. CONCLUSION:Multiple phenotypes are found in individuals presenting mutations in the WNT10A gene. Among them, the stop codon p.C107* as well as the biallelic p.F228I variants correlate with the most severe oligodontia phenotypes. In addition, we diagnosed the monoallelic mutations p.F228I, p.G165R, and p.G313C in healthy relatives with normal dentitions. CLINICAL RELEVANCE:A correct diagnosis of non-syndromic oligodontia is fundamental to discard a possible underlying pathology in which multiple tooth agenesis could be the most evidential clinical sign. Due to the wide spectrum of pathologies that are associated to mutations in the WNT10A gene, an extended genetic analysis of these individuals' relatives is also essential.

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