Abstract
ObjectiveWe used data from twins and their families to probe the genetic factors contributing to microtia-atresia, in particular, early post-twinning variations that potentially account for the discordant phenotypes of monozygotic twin pairs.MethodsSix families of monozygotic twins discordant for congenital microtia-atresia were recruited for study. The six patients shared a consistent clinical phenotype of unilateral microtia-atresia. Whole-exome sequencing (WES) was performed for all six twin pairs and their parents. Family segregation and multiple bioinformatics methods were applied to identify suspicious mutations in all families. Recurring mutations commonly detected in at least two families were highlighted. All variants were validated via Sanger sequencing. Gene Ontology (GO) analysis was performed to identify candidate gene sets and related pathways. Copy number variation (CNV), linkage analysis, association analysis and machine learning methods were additionally applied to isolate candidate mutations, and comparative genomics and structural modeling tools used to evaluate their potential roles in onset of microtia-atresia.ResultsOur analyses revealed 61 genes with suspected mutations associated with microtia-atresia. Five (HOXA4, MUC6, CHST15, TBX10, and AMER1) contained 7 de novo mutations that appeared in at least two families, which have been previously reported as pathogenic for other diseases. Among these, HOXA4 (c.920A>C, p.H307P) was determined as the most likely pathogenic variant for microtia-atresia. GO analysis revealed four gene sets involving 11 pathways potentially related to underlying pathogenesis of the disease. CNVs in three genes (UGT2B17, OVOS, and KATNAL2) were detected in at least two families. Linkage analysis disclosed 13 extra markers for the disease, of which two (FGFR1 and EYA1) were validated via machine learning analysis as plausible candidate genes for the disease.ConclusionBased on comprehensive genetic and bioinformatic analyses of WES data from six families of discordant monozygotic twins with microtia-atresia, we identified multiple candidate genes that may function in post-twinning onset of the disease. The collective findings provide novel insights into the pathogenesis of congenital microtia-atresia.
Highlights
Microtia-atresia is a rare congenital condition characterized by malformation of the external ear accompanied by atresia of the external ear canal
Monozygotic twins hospitalized at the Department of Otolaryngology, Peking Union Medical College Hospital (PUMCH), between May 2014 and May 2019 showing discordance for congenital microtia-atresia were enrolled for study
A total of 24 subjects including six monozygotic twins showing discordance for congenital microtia-atresia and their parents were enrolled for study (Figure 1)
Summary
Microtia-atresia is a rare congenital condition characterized by malformation of the external ear accompanied by atresia of the external ear canal. The severity of the condition varies, from only a mild dysmorphogenesis to the complete absence of the external ear and ear canal. The reported prevalence of microtia-atresia in different countries ranges from 0.83 to 17.4 per 10,000 births (Deng et al, 2016; Cabrejo et al, 2019). Similar to many other structural birth defects, microtia-atresia can occur as either an isolated symptom or as part of a congenital syndrome. A set of abnormalities, including vertebral anomalies, craniofacial anomalies, renal abnormalities, cardiac defects, holoprosencephaly, and polydactyly, are associated with microtia-atresia (BartelFriedrich, 2015; Stoll et al, 2016). The effectiveness of prenatal ultrasonography in diagnosis of this condition is low due to high phenotypic heterogeneity
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