Synapse-to-nucleus signaling is critical for synaptic development and plasticity. In Drosophila, the ligand Wingless causes the C terminus of its Frizzled2 receptor (Fz2-C) to be cleaved and translocated from the postsynaptic density to nuclei. The mechanism of nuclear import is unknown and the developmental consequences of this translocation are uncertain. We found that Fz2-C localization to muscle nuclei required the nuclear import factors Importin-β11 and Importin-α2 and that this pathway promoted the postsynaptic development of the subsynaptic reticulum (SSR), an elaboration of the postsynaptic plasma membrane. importin-β11 (imp-β11) and dfz2 mutants had less SSR, and some boutons lacked the postsynaptic marker Discs Large. These developmental defects in imp-β11 mutants could be overcome by expression of Fz2-C fused to a nuclear localization sequence that can bypass Importin-β11. Thus, Wnt-activated growth of the postsynaptic membrane is mediated by the synapse-to-nucleus translocation and active nuclear import of Fz2-C via a selective Importin-β11/α2 pathway.
Nature Neuroscience 13, 935 - 943 (2010) Published online: 4 July 2010doi:10.1038/nn.2593
http://www.nature.com/neuro/journal/v13/n8/full/nn.2593.html
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ReplyDeleteThank you very much for your ideas to post comments. A nuclear localization signal or sequence is an amino acid sequence, which protein for import into the cell nucleus by nuclear transport....