AI Article Synopsis
- A plastic nervous system needs the ability to acquire, store, and forget memories, and this study reveals that the msi-1 gene is crucial for memory loss in C. elegans.
- Tissue-specific experiments show that MSI-1 functions specifically in the AVA interneuron, and it interacts with mRNAs of key proteins that regulate actin branching, leading to reduced translation of these proteins during associative learning.
- The findings indicate that the GLR-1/MSI-1/Arp2/3 pathway is involved in memory decay by connecting translational control with actin cytoskeleton structure in neurons, suggesting a new way how forgetfulness is biologically managed.
Article Abstract
A plastic nervous system requires the ability not only to acquire and store but also to forget. Here, we report that musashi (msi-1) is necessary for time-dependent memory loss in C. elegans. Tissue-specific rescue demonstrates that MSI-1 function is necessary in the AVA interneuron. Using RNA-binding protein immunoprecipitation (IP), we found that MSI-1 binds to mRNAs of three subunits of the Arp2/3 actin branching regulator complex in vivo and downregulates ARX-1, ARX-2, and ARX-3 translation upon associative learning. The role of msi-1 in forgetting is also reflected by the persistence of learning-induced GLR-1 synaptic size increase in msi-1 mutants. We demonstrate that memory length is regulated cooperatively through the activation of adducin (add-1) and by the inhibitory effect of msi-1. Thus, a GLR-1/MSI-1/Arp2/3 pathway induces forgetting and represents a novel mechanism of memory decay by linking translational control to the structure of the actin cytoskeleton in neurons.
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| http://dx.doi.org/10.1016/j.cell.2014.01.054 | DOI Listing |
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