Candidate gene analysis of tooth agenesis identifies novel mutations in six genes and suggests significant role for WNT and EDA signaling and allele combinations.

Sirpa Arte,Pekka Nieminen,Sinikka Pirinen,Satu Parmanen,Satu Alaluusua

doi:10.1371/journal.pone.0073705

Sirpa Arte, Pekka Nieminen + Show 3 more

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https://doi.org/10.1371/journal.pone.0073705

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Journal: PloS one	Publication Date: Aug 22, 2013
Citations: 156	License type: CC BY 4.0

Affiliation: Helsinki University Hospital, University of Helsinki

Abstract

Failure to develop complete dentition, tooth agenesis, is a common developmental anomaly manifested most often as isolated but also as associated with many developmental syndromes. It typically affects third molars or one or few other permanent teeth but severe agenesis is also relatively prevalent. Here we report mutational analyses of seven candidate genes in a cohort of 127 probands with non-syndromic tooth agenesis. 82 lacked more than five permanent teeth excluding third molars, called as oligodontia. We identified 28 mutations, 17 of which were novel. Together with our previous reports, we have identified two mutations in MSX1, AXIN2 and EDARADD, five in PAX9, four in EDA and EDAR, and nine in WNT10A. They were observed in 58 probands (44%), with a mean number of missing teeth of 11.7 (range 4 to 34). Almost all of these probands had severe agenesis. Only few of the probands but several relatives with heterozygous genotypes of WNT10A or EDAR conformed to the common type of non-syndromic tooth agenesis, incisor-premolar hypodontia. Mutations in MSX1 and PAX9 affected predominantly posterior teeth, whereas both deciduous and permanent incisors were especially sensitive to mutations in EDA and EDAR. Many mutations in EDAR, EDARADD and WNT10A were present in several families. Biallelic or heterozygous genotypes of WNT10A were observed in 32 and hemizygous or heterozygous genotypes of EDA, EDAR or EDARADD in 22 probands. An EDARADD variant were in seven probands present together with variants in EDAR or WNT10A, suggesting combined phenotypic effects of alleles in distinct genes.

Highlights

Human dentition consists of different types of deciduous and permanent teeth with unique hard tissues, specific shapes and reproducible timetable of development and eruption
One fourth of us fail to develop all third molars, more than 5% lacks some of the other permanent teeth, and more severe agenesis is relatively common [3,4]
Despite tooth agenesis may express itself in different forms and especially the severe forms may affect any teeth, the most commonly missing teeth are the ones that develop latest in each tooth class [4], suggesting that typically tooth agenesis is explained by quantitative defects affecting the whole tooth class [8]

Summary

Introduction

Human dentition consists of different types of deciduous and permanent teeth with unique hard tissues, specific shapes and reproducible timetable of development and eruption. The complexity of development renders the dentition vulnerable by genetic and environmental factors which may affect the number, eruption or structure of teeth [2]. Failure to develop all teeth, tooth agenesis ( called hypodontia or oligodontia) is the most common dental anomaly. One fourth of us fail to develop all third molars (wisdom teeth), more than 5% lacks some of the other permanent teeth (hypodontia), and more severe agenesis is relatively common [3,4]. Agenesis of six or more permanent teeth apart from third molars ( called oligodontia) happens in 1 in 1000 [5,6,7]. Despite tooth agenesis may express itself in different forms and especially the severe forms may affect any teeth, the most commonly missing teeth are the ones that develop latest in each tooth class [4], suggesting that typically tooth agenesis is explained by quantitative defects affecting the whole tooth class [8]

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