14-3-3epsilon is Important for Neuronal Migration by Binding to NUDEL: a Molecular Explanation for Miller-Dieker Syndrome

Overview

Journal Nat Genet

Specialty Genetics

Date 2003 Jun 11

PMID 12796778

Citations 152

Authors

Kazuhito Toyo-Oka

Aki Shionoya

Michael J Gambello

Carlos Cardoso

Richard Leventer

Heather L Ward

Ramses Ayala

Li-Huei Tsai

William Dobyns

David Ledbetter

Shinji Hirotsune

Anthony Wynshaw-Boris

Affiliations

Soon will be listed here.

Abstract

Heterozygous deletions of 17p13.3 result in the human neuronal migration disorders isolated lissencephaly sequence (ILS) and the more severe Miller-Dieker syndrome (MDS). Mutations in PAFAH1B1 (the gene encoding LIS1) are responsible for ILS and contribute to MDS, but the genetic causes of the greater severity of MDS are unknown. Here, we show that the gene encoding 14-3-3epsilon (YWHAE), one of a family of ubiquitous phosphoserine/threonine-binding proteins, is always deleted in individuals with MDS. Mice deficient in Ywhae have defects in brain development and neuronal migration, similar to defects observed in mice heterozygous with respect to Pafah1b1. Mice heterozygous with respect to both genes have more severe migration defects than single heterozygotes. 14-3-3epsilon binds to CDK5/p35-phosphorylated NUDEL and this binding maintains NUDEL phosphorylation. Similar to LIS1, deficiency of 14-3-3epsilon results in mislocalization of NUDEL and LIS1, consistent with reduction of cytoplasmic dynein function. These results establish a crucial role for 14-3-3epsilon in neuronal development by sustaining the effects of CDK5 phosphorylation and provide a molecular explanation for the differences in severity of human neuronal migration defects with 17p13.3 deletions.

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