Journal ArticleDOI
14-3-3ε is important for neuronal migration by binding to NUDEL: a molecular explanation for Miller–Dieker syndrome
Kazuhito Toyo-oka,Aki Shionoya,Michael J. Gambello,Michael J. Gambello,Carlos Cardoso,Carlos Cardoso,Richard J. Leventer,Richard J. Leventer,Heather L. Ward,Ramses Ayala,Li-Huei Tsai,William B. Dobyns,David H. Ledbetter,Shinji Hirotsune,Anthony Wynshaw-Boris +14 more
TLDR
A crucial role is established for 14-3-3ε in neuronal development by sustaining the effects of CDK5 phosphorylation and providing a molecular explanation for the differences in severity of human neuronal migration defects with 17p13.3 deletions.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 14-3-3e (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. 14-3-3e binds to CDK5/p35-phosphorylated NUDEL and this binding maintains NUDEL phosphorylation. Similar to LIS1, deficiency of 14-3-3e results in mislocalization of NUDEL and LIS1, consistent with reduction of cytoplasmic dynein function. These results establish a crucial role for 14-3-3e 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.read more
Citations
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A developmental and genetic classification for malformations of cortical development
TL;DR: A revised classification based on the stage of development at which cortical development was first affected is proposed, using genotype, rather than phenotype, as the basis for classifying disorders wherever the genotype–phenotype relationship is adequately understood.
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Trekking across the Brain: The Journey of Neuronal Migration
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The DISC locus in psychiatric illness
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Journal ArticleDOI
Dynamic interactions between 14-3-3 proteins and phosphoproteins regulate diverse cellular processes.
TL;DR: This work indicates that the cellular complement of 14-3-3 proteins may integrate the specificity and strength of signalling through to different cellular responses, and linking specific 14- 3-3 isoforms to genetic disorders and cancers, and the cellular effects of 13.3-2 agonists and antagonists, indicate that this role is important.
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Mitochondrial Disorders in the Nervous System
Salvatore DiMauro,Eric A. Schon +1 more
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References
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Journal ArticleDOI
The structural basis for 14-3-3:phosphopeptide binding specificity.
Michael B. Yaffe,Katrin Rittinger,Stefano Volinia,Paul R. Caron,Alastair Aitken,Henrik Leffers,Steven J. Gamblin,Stephen J. Smerdon,Lewis C. Cantley,Lewis C. Cantley +9 more
TL;DR: It is shown that the 14-3-3 dimer binds tightly to single molecules containing tandem repeats of phosphoserine motifs, implicating bidentate association as a signaling mechanism with molecules such as Raf, BAD, and Cbl.
Journal ArticleDOI
14-3-3 Proteins: Structure, Function, and Regulation
TL;DR: This review examines the structural basis for 14-3- 3-ligand interactions, proposed functions of 14-1-3 in various signaling pathways, and emerging views of mechanisms that regulate 14-2-3 actions.
Journal ArticleDOI
Interaction of 14-3-3 with signaling proteins is mediated by the recognition of phosphoserine.
TL;DR: The results suggest that the interactions of 14-3-3 with signaling proteins are critical for the activation of signaling proteins and suggest novel roles for serine/threonine phosphorylation in the assembly of protein-protein complexes.
Journal ArticleDOI
Isolation of a Miller-Dieker lissencephaly gene containing G protein beta-subunit-like repeats
Orly Reiner,Romeo Carrozzo,Ying Shen,Manfred Wehnert,Fabrizia Faustinella,William B. Dobyns,C. Thomas Caskey,David H. Ledbetter +7 more
TL;DR: The cloning of a gene (LIS-1, lissencephaly-1) in 17p13.3 that is deleted in Miller–Dieker patients is reported, identifying LIS-l as the disease gene and the deduced amino-acid sequence shows significant homology to β-subunits of heterotrimeric G proteins, suggesting that it could possibly be involved in a signal transduction pathway crucial for cerebral development.
Journal ArticleDOI
Targeted disruption of the cyclin-dependent kinase 5 gene results in abnormal corticogenesis, neuronal pathology and perinatal death.
Toshio Ohshima,Jerrold M. Ward,Chang Goo Huh,Glenn Longenecker,Veeranna,Harish C. Pant,Roscoe O. Brady,Lee J. Martin,Ashok B. Kulkarni +8 more
TL;DR: Cdk5(-/-) mice exhibit unique lesions in the central nervous system associated with perinatal mortality and also suggest that Cdk5 may play critical roles in neuronal cytoskeleton structure and organization.