The RNA-binding protein HuD/ELAVL4 is essential for neuronal development and synaptic plasticity by governing various post-transcriptional processes of target mRNAs, including stability, translation, and localization. We previously showed that the linker region and poly(A)-binding domain of HuD play a pivotal role in promoting translation and inducing neurite outgrowth. In addition, we found that HuD interacts exclusively with the active form of Akt1, through the linker region. Although this interaction is essential for neurite outgrowth, HuD is not a substrate for Akt1, raising questions about the dynamics between HuD-mediated translational stimulation and its association with active Akt1. Here, we demonstrate that active Akt1 interacts with the cap-binding complex via HuD. We identify key amino acids in linker region of HuD responsible for Akt1 interaction, leading to the generation of two point-mutated HuD variants: one that is incapable of binding to Akt1 and another that can interact with Akt1 regardless of its phosphorylation status. In vitro translation assays using these mutants reveal that HuD-mediated translation stimulation is independent of its binding to Akt1. In addition, it is evident that the interaction between HuD and active Akt1 is essential for HuD-induced neurite outgrowth, whereas a HuD mutant capable of binding to any form of Akt1 leads to aberrant neurite development. Collectively, our results revisit the understanding of the HuD-Akt1 interaction in translation and suggest that this interaction contributes to HuD-mediated neurite outgrowth via a unique molecular mechanism distinct from translation regulation.
Keywords: Akt/PKB; HuD/ELAVL4; RNA-Binding protein; Translation.
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