6shc

Publication Abstract from PubMed

Coupling of endoplasmic reticulum stress to dimerisationdependent activation of the UPR transducer IRE1 is incompletely understood. Whilst the luminal co-chaperone ERdj4 promotes a complex between the Hsp70 BiP and IRE1's stress-sensing luminal domain (IRE1(LD)) that favours the latter's monomeric inactive state and loss of ERdj4 de-represses IRE1, evidence linking these cellular and in vitro observations is presently lacking. We report that enforced loading of endogenous BiP onto endogenous IRE1alpha repressed UPR signalling in CHO cells and deletions in the IRE1alpha locus that de-repressed the UPR in cells, encode flexible regions of IRE1(LD) that mediated BiPinduced monomerisation in vitro. Changes in the hydrogen exchange mass spectrometry profile of IRE1(LD) induced by ERdj4 and BiP confirmed monomerisation and were consistent with active destabilisation of the IRE1(LD) dimer. Together, these observations support a competition model whereby waning ER stress passively partitions ERdj4 and BiP to IRE1(LD) to initiate active repression of UPR signalling.

Unstructured regions in IRE1alpha specify BiP-mediated destabilisation of the luminal domain dimer and repression of the UPR.,Amin-Wetzel N, Neidhardt L, Yan Y, Mayer MP, Ron D Elife. 2019 Dec 24;8. pii: 50793. doi: 10.7554/eLife.50793. PMID:31873072^[4]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.