TY - JOUR T1 - OTX2 Dosage Sensitivity is Implicated in Hemifacial Microsomia JF - bioRxiv DO - 10.1101/001099 SP - 001099 AU - Dina Zielinski AU - Barak Markus AU - Mona Sheikh AU - Melissa Gymrek AU - Clement Chu AU - Marta Zaks AU - Balaji Srinivasan AU - Jodi D. Hoffman AU - Dror Aizenbud AU - Yaniv Erlich Y1 - 2013/01/01 UR - http://biorxiv.org/content/early/2013/12/03/001099.abstract N2 - Hemifacial microsomia (HFM) is the second most common facial anomaly after cleft lip and palate. The phenotype is highly variable and most cases are sporadic. Here, we investigated the disorder in a large pedigree with five affected individuals spanning eight meioses. We performed whole-exome sequencing and a genome-wide survey of segmental variations. Analysis of the exome sequencing results indicated the absence of a pathogenic coding point mutation. Inspection of segmental variations identified a 1.3Mb duplication of chromosome 14q22.3 in all affected individuals that was absent in more than 1000 chromosomes of ethnically matched controls. The duplication was absent in seven additional sporadic HFM cases, which is concordant with the known heterogeneity of the disorder. To find the critical gene in the duplicated region, we analyzed signatures of human craniofacial disease networks, mouse expression data, and predictions of dosage sensitivity. All of these approaches implicated OTX2 as the most likely causal gene. Moreover, OTX2 is a known oncogenic driver in medulloblastoma, a condition that was diagnosed in the proband during the course of our study. Our findings highlight dosage sensitivity of OTX2 in human craniofacial development and suggest a possible shared etiology between a subtype of hemifacial microsomia and medulloblastoma. ER -