Cytoplasmic localization is required for the mammalian ELAV‐like protein HuD to induce neuronal differentiation

Background ELAV‐like neuronal RNA‐binding proteins are highly conserved in many neurone‐containing organisms and have been implicated in neuronal development and differentiation. Results Mammalian neurone‐specific ELAV‐like Hu proteins (HuB, HuC and HuD) and Drosophila ELAV, but not HuR, were found...

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Published in:Genes to cells : devoted to molecular & cellular mechanisms 1999-11, Vol.4 (11), p.667-683
Main Authors: Kasashima, Katsumi, Terashima, Kazuhiro, Yamamoto, Koichi, Sakashita, Eiji, Sakamoto, Hiroshi
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Biological Transport
Cell Differentiation - physiology
Cell Division - physiology
Cell Line
Cell Nucleus - physiology
Cytoplasm - metabolism
Cytoplasm - physiology
ELAV Proteins
ELAV-Like Protein 4
HuD protein
Humans
Molecular Sequence Data
Nerve Tissue Proteins
Neurites - metabolism
Neurites - physiology
Neurons - cytology
Neurons - metabolism
Neurons - physiology
PC12 Cells
Rats
Ribonucleoproteins - metabolism
Ribonucleoproteins - physiology
RNA-binding protein
RNA-Binding Proteins - biosynthesis
RNA-Binding Proteins - physiology
Signal Transduction
Subcellular Fractions - metabolism
Transcription, Genetic
Tretinoin - pharmacology
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Summary:Background ELAV‐like neuronal RNA‐binding proteins are highly conserved in many neurone‐containing organisms and have been implicated in neuronal development and differentiation. Results Mammalian neurone‐specific ELAV‐like Hu proteins (HuB, HuC and HuD) and Drosophila ELAV, but not HuR, were found to induce neurite outgrowth when over‐expressed in rat PC12 cells. Functional analysis of HuD deletion mutants demonstrated the importance of two conserved RNA‐binding domains (RBDs 1 and 3) and the indispensability of the linker region between RBDs 2 and 3 for the neurite‐inducing activity. Further analyses suggested the importance of nucleocytoplasmic shuttling of HuD mediated by a novel nuclear export signal (NES) sequence in the linker region for the neurite‐inducing activity. Moreover, two HuD deletion mutants containing the linker region dominantly inhibited the wild‐type neurite‐inducing activity, although they had no neurite‐inducing activity per se, suggesting that saturable intracellular trafficking mediated by the linker region is required for the neurite induction by HuD. Interestingly, the same dominant negative mutants significantly inhibited retinoic acid‐induced neuronal differentiation of mouse embryonal carcinoma P19 cells. Conclusions Our results suggest the presence of a novel NES in neurone‐specific Hu proteins and the importance of their cytoplasmic localization, through nucleocytoplasmic shuttling, for the initiation of neuronal differentiation.
ISSN:1356-9597
1365-2443
DOI:10.1046/j.1365-2443.1999.00292.x