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RIM‐binding proteins recruit BK‐channels to presynaptic release sites adjacent to voltage‐gated Ca2+‐channels

    1. [1] Stanford University School of Medicine

      Stanford University School of Medicine

      Estados Unidos

    2. [2] Howard Hughes Medical Institute

      Howard Hughes Medical Institute

      Estados Unidos

  • Localización: EMBO journal: European Molecular Biology Organization, ISSN 0261-4189, Vol. 37, Nº. 16, 2018
  • Idioma: inglés
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  • Resumen
    • The active zone of presynaptic nerve terminals organizes the neurotransmitter release machinery, thereby enabling fast Ca2+‐triggered synaptic vesicle exocytosis. BK‐channels are Ca2+‐activated large‐conductance K+‐channels that require close proximity to Ca2+‐channels for activation and control Ca2+‐triggered neurotransmitter release by accelerating membrane repolarization during action potential firing. How BK‐channels are recruited to presynaptic Ca2+‐channels, however, is unknown. Here, we show that RBPs (for RIM‐binding proteins), which are evolutionarily conserved active zone proteins containing SH3‐ and FN3‐domains, directly bind to BK‐channels. We find that RBPs interact with RIMs and Ca2+‐channels via their SH3‐domains, but to BK‐channels via their FN3‐domains. Deletion of RBPs in calyx of Held synapses decreased and decelerated presynaptic BK‐currents and depleted BK‐channels from active zones. Our data suggest that RBPs recruit BK‐channels into a RIM‐based macromolecular active zone complex that includes Ca2+‐channels, synaptic vesicles, and the membrane fusion machinery, thereby enabling tight spatio‐temporal coupling of Ca2+‐influx to Ca2+‐triggered neurotransmitter release in a presynaptic terminal.


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