Elk-1 interacts with neuronal microtubules and relocalizes to the nucleus upon phosphorylation

Ozlem Demir*, Sirin Korulu, Aysegul Yildiz, Arzu Karabay, Isil Aksan Kurnaz

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

19 Citations (Scopus)

Abstract

ETS domain transcription factor Elk-1 has been primarily studied in the regulation of genes in response to mitogenic stimuli, however the presence of Elk-1 in axonal projections of largely post-mitotic adult hippocampal sections has been reported. This finding has initially led us to a basic question: how is Elk-1 anchored to neuronal projections? To that end, we have investigated the intracellular localization of Elk-1 and its biochemical interactions with neuronal microtubules in model systems. Our results showed co-localization of Elk-1 with microtubules in hippocampal cultures and SH-SY5Y neuroblastoma cell lines, and have further demonstrated that Elk-1 protein can biochemically interact with microtubules in vitro. Analysis of the protein sequence has indicated many putative microtubule binding domains, with the strongest binding prediction in amino acids 314-325, and our results show that Elk-1 can bind to microtubules through most of these regions, but no interaction was observed through the DNA binding domain, where no putative binding motifs were predicted. We further show that upon serum induction, most of the phospho-Elk-1 translocates to the nucleus, which is independent of translation. We propose that Elk-1 is anchored to neuronal microtubules in resting or unstimulated cells, and upon stimulation is phosphorylated, which relocalizes phospho-Elk-1 to the nucleus in neurons.

Original languageEnglish
Pages (from-to)111-119
Number of pages9
JournalMolecular and Cellular Neuroscience
Volume40
Issue number1
DOIs
Publication statusPublished - 5 Jan 2009

Funding

We would like to acknowledge Prof. A.D. Sharrocks for the Elk-1 constructs and critical discussions, as well as Prof. Aziz Sancar for critical reading of the manuscript. We would also like to acknowledge our anonymous reviewers for their valuable contributions towards the improvement of this study. This work was supported by TUBITAK-SBAG project no.106S247 as a partner of the ESF COST B-30 Action (Neural Plasticity and Neuroregeneration, NEREPLAS), and TUBA Young Investigator Award to I.A.K, as well as TUBITAK Career Award (Project no. 104T221) and TWAS grant (04-375 RG/BIO/AS) to A.K.

FundersFunder number
ESF COST B-30 Action
NEREPLAS
TUBA
TUBITAK104T221
TUBITAK-SBAG106S247
The World Academy of Sciences04-375 RG/BIO/AS

    Keywords

    • Elk-1
    • Hippocampal cells
    • Microtubule
    • Neuron
    • Nuclear translocation
    • SH-SY5Y

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