Abstract
Jacob is a recently identified plasticity-related protein that couples N-methyl-d-aspartate receptor activity to nuclear gene expression. An expression analysis by Northern blot and in situ hybridization shows that Jacob is almost exclusively present in brain, in particular in the cortex and the limbic system. Alternative splicing gives rise to multiple mRNA variants, all of which exhibit a prominent dendritic localization in the hippocampus. Functional analysis in primary hippocampal neurons revealed that a predominant cis-acting dendritic targeting element in the 3'-untranslated region of Jacob mRNAs is responsible for dendritic mRNA localization. In the mouse brain, Jacob transcripts are associated with both the fragile X mental retardation protein, a well described trans-acting factor regulating dendritic mRNA targeting and translation, and the kinesin family member 5C motor complex, which is known to mediate dendritic mRNA transport. Jacob is susceptible to rapid protein degradation in a Ca(2+)- and Calpain-dependent manner, and Calpain-mediated clipping of the myristoylated N terminus of Jacob is required for its nuclear translocation after N-methyl-d-aspartate receptor activation. Our data suggest that local synthesis in dendrites may be necessary to replenish dendritic Jacob pools after truncation of the N-terminal membrane anchor and concomitant translocation of Jacob to the nucleus.
Highlights
The link between excitatory neurotransmission and transcriptional and translational regulation has attracted much interest for many years because multiple processes ranging from metabolic homeostasis to learning and memory require activity-driven gene expression in neurons (1, 2)
Jacob transcripts are associated both with KIF5c, a motor implicated in cytoplasmic transport of several dendritic mRNAs, and the fragile X mental retardation protein (FMRP), which is thought to play a central role in both dendritic trafficking (9, 10) and local translation of mRNAs at postsynaptic sites
Whereas the coding region of Jacob transcripts appears to contain sequences promoting dendritic mRNA targeting, the major DTE mediating efficient extrasomatic trafficking resides in the 3Ј-UTR, which is common to all splice variants, in agreement with our previous observations that all Jacob transcripts are present in dendritic fields in the hippocampus
Summary
In conjunction with its dynamic translocation from dendrites to the nucleus, this might impose the necessity of replenishing the cytoplasmic protein pool by the local translation of dendritic mRNAs
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