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Homotypic SCOTIN assemblies form ER‐endosome membrane contacts and regulate endosome dynamics

Authors
Yun, HyeriJung, MinkyoLee, HojinJung, SungjinKim, TaehyeonKim, NariPark, Seung‐YeolKim, Won Jong문지영Yoo, Joo‐Yeon
Issue Date
Aug-2023
Publisher
Nature Publishing Group
Keywords
endoplasmic reticulum; endosome; membrane contact; SCOTIN; self-assembly
Citation
EMBO Reports, v.24, no.8
Journal Title
EMBO Reports
Volume
24
Number
8
URI
http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/120
DOI
10.15252/embr.202256538
ISSN
1469-221X
Abstract
The ER regulates the spatiotemporal organization of endolysosomal systems by membrane contact. In addition to tethering via heterotypic interactions on both organelles, we present a novel ER-endosome tethering mechanism mediated by homotypic interactions. The single-pass transmembrane protein SCOTIN is detected in the membrane of the ER and endosomes. In SCOTIN-knockout (KO) cells, the ER-late endosome contacts are reduced, and the perinuclear positioning of endosomes is disturbed. The cytosolic proline-rich domain (PRD) of SCOTIN forms homotypic assemblies in vitro and is necessary for ER-endosome membrane tethering in cells. A region of 28 amino acids spanning 150-177 within the SCOTIN PRD is essential to elicit membrane tethering and endosomal dynamics, as verified by reconstitution in SCOTIN-KO cells. The assembly of SCOTIN (PRD) is sufficient to mediate membrane tethering, as purified SCOTIN (PRD), but not SCOTIN (PRD & UDelta;150-177), brings two different liposomes closer in vitro. Using organelle-specific targeting of a chimeric PRD domain shows that only the presence on both organellar membranes enables the ER-endosome membrane contact, indicating that the assembly of SCOTIN on heterologous membranes mediates organelle tethering.
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