Genetic and Functional Analyses of ZIC 3 Variants in Congenital Heart Disease

Mutations in zinc‐finger in cerebellum 3 ( ZIC 3 ) result in heterotaxy or isolated congenital heart disease ( CHD ). The majority of reported mutations cluster in zinc‐finger domains. We previously demonstrated that many of these lead to aberrant ZIC 3 subcellular trafficking. A relative paucity of N ‐ and C ‐terminal mutations has, however, prevented similar analyses in these regions. Notably, an N ‐terminal polyalanine expansion was recently identified in a patient with VACTERL , suggesting a potentially distinct function for this domain. Here we report ZIC 3 sequencing results from 440 unrelated patients with heterotaxy and CHD , the largest cohort yet examined. Variants were identified in 5.2% of sporadic male cases. This rate exceeds previous estimates of 1% and has important clinical implications for genetic testing and risk‐based counseling. Eight of 11 were novel, including 5 N ‐terminal variants. Subsequent functional analyses included four additional reported but untested variants. Aberrant cytoplasmic localization and decreased luciferase transactivation were observed for all zinc‐finger variants, but not for downstream or in‐frame upstream variants, including both analyzed polyalanine expansions. Collectively, these results expand the ZIC 3 mutational spectrum, support a higher than expected prevalence in sporadic cases, and suggest alternative functions for terminal mutations, highlighting a need for further study of these domains.