Functional characterization of RELN missense mutations involved in recessive and dominant forms of Neuronal Migration Disorders

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Abstract

RELN is a large secreted glycoprotein that acts at multiple steps of cerebral cortex development, including neuronal migration. Only recessive mutations of the Reelin gene ( RELN ) have been associated with human cortical malformations and none has been functionally characterized. We identified novel missense RELN mutations in both compound and de novo heterozygous patients exhibiting an array of neuronal migration disorders (NMDs) as diverse as pachygyria, polymicrogyria and heterotopia. Most mutations caused defective RELN secretion in vitro and, when ectopically expressed in the embryonic mouse cortex, affected neuronal aggregation and/or migration in vivo . We determined the de novo heterozygous mutations acted as dominant negative and demonstrated that RELN mutations mediate not only recessive, but also dominant NMDs. This work assesses for the first time the pathogenicity of RELN mutations showing a strong genotype-phenotype correlation. In particular, the behavior of the mutant proteins in vitro and in vivo predicts the severity of cortical malformations and provides valuable insight into the pathogenesis of these disorders.

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  1. Excerpt

    RELN and cortical malformations: Riva et al. assess the impact of novel RELN patient mutations on Reelin’s secretion, processing, and function in the developing cortex