Deletion of Zic1 and Zic4 in mice produces both cerebellar size and foliation defects similar to human DWM, confirming a requirement for these genes in cerebellar development and providing a model to delineate the developmental basis of this clinically important congenital malformation.
Mutations in ZIC genes in humans have recently been implicated in a wide variety of congenital malformations, including Dandy-Walker malformation, holoprosencephaly, neural tube defects, and heterotaxy.
Development of holoprosencephaly, forebrain anomalies, and cerebellar dysgenesis indicate that region-specific morphogenesis of the CNS is also controlled by Zic genes.
In previous studies, we showed that the homozygous Zic1 null mutation (Zic1-/-) results in cerebellar malformation with severe ataxia and that holoprosencephaly and spina bifida occur in homozygotes for Zic2 knockdown mutation (Zic2kd/kd).