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RIBEYE B-Domain Is Essential for RIBEYE A-Domain Stability and Assembly of Synaptic Ribbons

Soni Shankhwar, Karin Schwarz, Rashmi Katiyar, Martin Jung, Stephan Maxeiner, Thomas C. Südhof, Frank Schmitz

2022Frontiers in Molecular Neuroscience14 citationsDOIOpen Access PDF

Abstract

Synaptic ribbons are presynaptic specializations that define eponymous ribbon synapses. Synaptic ribbons are largely composed of RIBEYE, a protein containing an N-terminal A-domain and a carboxyterminal B-domain that is identical with CtBP2, a NAD(H)-binding transcriptional co-repressor. Previously we showed that synaptic ribbons are completely absent in RIBEYE knockout mice in which the RIBEYE A-domain-encoding exon had been deleted, but CtBP2 is still made, demonstrating that the A-domain is required for synaptic ribbon assembly. In the present study, we asked whether the RIBEYE B-domain also has an essential role in the assembly of synaptic ribbons. For this purpose, we made use of RIBEYE knockin mice in which the RIBEYE B-domain was replaced by a fluorescent protein domain, whereas the RIBEYE A-domain was retained unchanged. We found that replacing the RIBEYE B-domain with a fluorescent protein module destabilizes the resulting hybrid protein and causes a complete loss of synaptic ribbons. Our results thus demonstrate an essential role of the RIBEYE B-domain in enabling RIBEYE assembly into synaptic ribbons, reinforcing the notion that RIBEYE is the central organizer of synaptic ribbons.

Topics & Concepts

Ribbon synapseBiophysicsRibbonBiologyDomain (mathematical analysis)Cell biologyChemistryBiochemistryMaterials scienceMembraneSynaptic vesicleMathematicsMathematical analysisComposite materialVesiclePlant Molecular Biology ResearchCellular transport and secretionPhotosynthetic Processes and Mechanisms
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