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RIM-binding protein couples synaptic vesicle recruitment to release sites

Astrid G. Petzoldt, Torsten Götz, J.H. Driller, Janine Lützkendorf, Suneel Reddy‐Alla, Tanja Matkovic-Rachid, Sunbin Liu, Elena Knoche, Sara Mertel, Vladimir Ugorets, Martin Lehmann, Niraja Ramesh, Christine B. Beuschel, Benno Kuropka, Christian Freund, Ulrich Stelzl, Bernhard Loll, Fan Liu, M.C. Wahl, Stephan J. Sigrist

2020The Journal of Cell Biology45 citationsDOIOpen Access PDF

Abstract

At presynaptic active zones, arrays of large conserved scaffold proteins mediate fast and temporally precise release of synaptic vesicles (SVs). SV release sites could be identified by clusters of Munc13, which allow SVs to dock in defined nanoscale relation to Ca2+ channels. We here show in Drosophila that RIM-binding protein (RIM-BP) connects release sites physically and functionally to the ELKS family Bruchpilot (BRP)-based scaffold engaged in SV recruitment. The RIM-BP N-terminal domain, while dispensable for SV release site organization, was crucial for proper nanoscale patterning of the BRP scaffold and needed for SV recruitment of SVs under strong stimulation. Structural analysis further showed that the RIM-BP fibronectin domains form a "hinge" in the protein center, while the C-terminal SH3 domain tandem binds RIM, Munc13, and Ca2+ channels release machinery collectively. RIM-BPs' conserved domain architecture seemingly provides a relay to guide SVs from membrane far scaffolds into membrane close release sites.

Topics & Concepts

Scaffold proteinSynaptic vesicleCell biologyVesicleActive zoneFibronectinBiologyScaffoldBiophysicsChemistryMembraneBiochemistrySignal transductionBiomedical engineeringExtracellular matrixMedicineCellular transport and secretionLipid Membrane Structure and BehaviorEndoplasmic Reticulum Stress and Disease
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