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Biallelic mutations in human DCC cause developmental split-brain syndrome.

Saumya S JamuarKlaus Schmitz-AbeAlissa M D'GamaMarie DrottarWai-Man ChanMaya PeevaSarah ServattalabAnh-Thu N LamMauricio R DelgadoNancy J CleggZayed Al ZayedMohammad Asif DogarIbrahim A AlorainyAbdullah Abu JameaKhaled Abu-AmeroMay GriebelWendy WardEd S LeinKyriacos MarkianosA James BarkovichCaroline D RobsonP Ellen GrantThomas M BosleyElizabeth C EngleChristopher A WalshTimothy W Yu
Published in: Nature genetics (2017)
Motor, sensory, and integrative activities of the brain are coordinated by a series of midline-bridging neuronal commissures whose development is tightly regulated. Here we report a new human syndrome in which these commissures are widely disrupted, thus causing clinical manifestations of horizontal gaze palsy, scoliosis, and intellectual disability. Affected individuals were found to possess biallelic loss-of-function mutations in the gene encoding the axon-guidance receptor 'deleted in colorectal carcinoma' (DCC), which has been implicated in congenital mirror movements when it is mutated in the heterozygous state but whose biallelic loss-of-function human phenotype has not been reported. Structural MRI and diffusion tractography demonstrated broad disorganization of white-matter tracts throughout the human central nervous system (CNS), including loss of all commissural tracts at multiple levels of the neuraxis. Combined with data from animal models, these findings show that DCC is a master regulator of midline crossing and development of white-matter projections throughout the human CNS.
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