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Structures of neurexophilin–neurexin complexes reveal a regulatory mechanism of alternative splicing

    1. [1] Stanford University

      Stanford University

      Estados Unidos

  • Localización: EMBO journal: European Molecular Biology Organization, ISSN 0261-4189, Vol. 38, Nº. 22, 2019
  • Idioma: inglés
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  • Resumen
    • Neurexins are presynaptic, cell‐adhesion molecules that specify the functional properties of synapses via interactions with trans‐synaptic ligands. Neurexins are extensively alternatively spliced at six canonical sites that regulate multifarious ligand interactions, but the structural mechanisms underlying alternative splicing‐dependent neurexin regulation are largely unknown. Here, we determined high‐resolution structures of the complex of neurexophilin‐1 and the second laminin/neurexin/sex‐hormone‐binding globulin domain (LNS2) of neurexin‐1 and examined how alternative splicing at splice site #2 (SS2) regulates the complex. Our data reveal a unique, extensive, neurexophilin–neurexin binding interface that extends the jelly‐roll β‐sandwich of LNS2 of neurexin‐1 into neurexophilin‐1. The SS2A insert of LNS2 augments this interface, increasing the binding affinity of LNS2 for neurexophilin‐1. Taken together, our data reveal an unexpected architecture of neurexophilin–neurexin complexes that accounts for the modulation of binding by alternative splicing, which in turn regulates the competition of neurexophilin for neurexin binding with other ligands.


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