A structural basis for chaperone repression of stress signalling from the endoplasmic reticulum

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Abstract The endoplasmic reticulum (ER) unfolded protein response (UPR) is tuned by the balance between unfolded proteins and chaperones. While reserve chaperones are known to suppress the UPR transducers via their stress-sensing luminal domains, the underlying structural mechanisms remain unclear. Cellular and biophysical analyses established that the ER chaperone AGR2 forms a repressive complex with the luminal domain of the UPR transducer IRE1β. Structural prediction, X-ray crystallography and NMR spectroscopy identify critical interactions between an AGR2 monomer and a regulatory loop in IRE1β’s luminal domain. However, in the repressive complex it is an AGR2 dimer that binds IRE1β. Cryo-EM reconstruction reveals a mechanism of unanticipated simplicity: one AGR2 protomer engages the regulatory loop, while the second asymmetrically binds IRE1β’s luminal domain’s C-terminus, blocking IRE1β-activating dimerization. Molecular dynamic simulations indicate that the second, disruptive AGR2 protomer exploits rare fluctuations in the IRE1β dimer that expose its binding site. Thus, AGR2 actively disrupts IRE1β dimers to suppress the UPR, while chaperone clients compete for AGR2 to trigger UPR signalling. Competing Interest Statement The authors have declared no competing interest. Footnotes Minor wording revisions were made to the introduction and discussion.

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last seen: 2026-05-20T01:45:00.602351+00:00