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Intrinsically disordered region-mediated condensation of IFN-inducible SCOTIN/SHISA-5 inhibits ER-to-Golgi vesicle transportopen access

Authors
Kim, NariKim, Tae-HyeonKim, ChaelimLee, Jee-EunKang, Myeong-GyunShin, SangheeJung, MinkyoKim, Jong-SeoMun, Ji YoungRhee, Hyun-WooPark, Seung-YeolShin, YongdaeYoo, Joo-Yeon
Issue Date
Oct-2023
Publisher
CELL PRESS
Keywords
COPII; ER-to-Golgi; IDP; IDR; SCOTIN; SHISA-5; bimolecular condensates; endoplasmic reticulum; interferon; intrinsically disordered region
Citation
DEVELOPMENTAL CELL, v.58, no.19, pp.1950 - +
Journal Title
DEVELOPMENTAL CELL
Volume
58
Number
19
Start Page
1950
End Page
+
URI
http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/1064
DOI
10.1016/j.devcel.2023.08.030
ISSN
1534-5807
Abstract
Newly synthesized proteins in the endoplasmic reticulum (ER) are sorted by coat protein complex II (COPII) at the ER exit site en route to the Golgi. Under cellular stresses, COPII proteins become targets of regulation to control the transport. Here, we show that the COPII outer coat proteins Sec31 and Sec13 are selectively sequestered into the biomolecular condensate of SCOTIN/SHISA-5, which interferes with COPII vesicle formation and inhibits ER-to-Golgi transport. SCOTIN is an ER transmembrane protein with a cytosolic intrinsically disordered region (IDR), which is required and essential for the formation of condensates. Upon IFN-g stimulation, which is a cellular condition that induces SCOTIN expression and condensation, ER-to-Golgi transport was inhibited in a SCOTIN-dependent manner. Furthermore, cancer-associated mutations of SCOTIN perturb its ability to form condensates and control transport. Together, we propose that SCOTIN impedes the ER-to-Golgi transport through its ability to form biomolecular condensates at the ER membrane.
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