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Amino-terminal arginylation targets endoplasmic reticulum chaperone BiP for autophagy through p62 binding.

Authors
Cha-Molstad, H | Sung, KS | Hwang, J | Kim, KA | Yu, JE | Yoo, YD | Jang, JM | Han, DH | Molstad, M | Kim, JG | Lee, YJ | Zakrzewska, A | Kim, SH | Kim, ST | Kim, SY  | Lee, HG | Soung, NK | Ahn, JS | Ciechanover, A | Kim, BY | Kwon, YT
Citation
Nature cell biology, 17(7). : 917-929, 2015
Journal Title
Nature cell biology
ISSN
1465-73921476-4679
Abstract
We show that ATE1-encoded Arg-transfer RNA transferase (R-transferase) of the N-end rule pathway mediates N-terminal arginylation of multiple endoplasmic reticulum (ER)-residing chaperones, leading to their cytosolic relocalization and turnover. N-terminal arginylation of BiP (also known as GRP78), protein disulphide isomerase and calreticulin is co-induced with autophagy during innate immune responses to cytosolic foreign DNA or proteasomal inhibition, associated with increased ubiquitylation. Arginylated BiP (R-BiP) is induced by and associated with cytosolic misfolded proteins destined for p62 (also known as sequestosome 1, SQSTM1) bodies. R-BiP binds the autophagic adaptor p62 through the interaction of its N-terminal arginine with the p62 ZZ domain. This allosterically induces self-oligomerization and aggregation of p62 and increases p62 interaction with LC3, leading to p62 targeting to autophagosomes and selective lysosomal co-degradation of R-BiP and p62 together with associated cargoes. In this autophagic mechanism, Nt-arginine functions as a delivery determinant, a degron and an activating ligand. Bioinformatics analysis predicts that many ER residents use arginylation to regulate non-ER processes.
MeSH

DOI
10.1038/ncb3177
PMID
26075355
Appears in Collections:
Journal Papers > School of Medicine / Graduate School of Medicine > Otolaryngology
Ajou Authors
김, 선용
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