Involvement of and interaction between WNT10A and EDA mutations in tooth agenesis cases in the Chinese population.

[oligodontia]

Dental agenesis is the most common , often heritable , developmental anomaly in humans . Although WNT 10 A gene mutations are known to cause rare syndromes associated with tooth agenesis , including onycho-odontodermal dysplasia (OODD ), Schöpf-Schulz-Passarge syndrome (SSPS ), hypohidrotic ectodermal dysplasia (HED ), and more than half of the cases of isolated oligodontia recently , the genotype-phenotype correlations and the mode of inheritance of WNT 10 A mutations remain unclear . The phenotypic expression with WNT 10 A mutations shows a high degree of variability , suggesting that other genes might function with WNT 10 A in regulating ectodermal organ development . Moreover , the involvement of mutations in other genes , such as EDA , which is also associated with HED and isolated tooth agenesis , is not clear . Therefore , we hypothesized that EDA mutations interact with WNT 10 A mutations to play a role in tooth agenesis . Additionally , EDA , EDAR , and EDARADD encode signaling molecules in the Eda /Edar /NF-κB signaling pathways , we also checked EDAR and EDARADD in this study .W NT 10 A , EDA , EDAR and EDARADD were sequenced in 88 patients with isolated oligodontia and 26 patients with syndromic tooth agenesis . The structure of two mutated WNT 10 A and two mutated EDA proteins was analyzed .Digenic mutations of both WNT 10 A and EDA were identified in 2 of 88 (2 .27 %) isolated oligodontia cases and 4 of 26 (15 .38 %) syndromic tooth agenesis cases . No mutation in EDAR or EDARADD gene was found .W NT 10 A and EDA digenic mutations could result in oligodontia and syndromic tooth agenesis in the Chinese population . Moreover , our results will greatly expand the genotypic spectrum of tooth agenesis .