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Calcium depletion challenges endoplasmic reticulum proteostasis by destabilising BiP-substrate complexes (2020)

Preissler, Steffen ; Rato, Claudia ; Yan, Yahui ; [et al.]

eLife Sciences Publications

In: eLife. 2020; 9: Published 2020 Dec 09. doi: 10.7554/elife.62601.

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Publication Date: 2020-12-09

Description: The metazoan endoplasmic reticulum (ER) serves both as a hub for maturation of secreted proteins and as an intracellular calcium storage compartment, facilitating calcium-release-dependent cellular processes. ER calcium depletion robustly activates the unfolded protein response (UPR). However, it is unclear how fluctuations in ER calcium impact organellar proteostasis. Here, we report that calcium selectively affects the dynamics of the abundant metazoan ER Hsp70 chaperone BiP, by enhancing its affinity for ADP. In the calcium-replete ER, ADP rebinding to post-ATP hydrolysis BiP-substrate complexes competes with ATP binding during both spontaneous and co-chaperone-assisted nucleotide exchange, favouring substrate retention. Conversely, in the calcium-depleted ER, relative acceleration of ADP-to-ATP exchange favours substrate release. These findings explain the rapid dissociation of certain substrates from BiP observed in the calcium-depleted ER and suggest a mechanism for tuning ER quality control and coupling UPR activity to signals that mobilise ER calcium in secretory cells.

Electronic ISSN: 2050-084X

Topics: Biology , Medicine , Natural Sciences in General

Published by eLife Sciences Publications

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Higher-order phosphatase–substrate contacts terminate the integrated stress response (2021)

Yan, Yahui ; Harding, Heather P. ; Ron, David

Springer Nature

In: Nature Structural & Molecular Biology. 2021; 28(10): 835-846. Published 2021 Oct 01. doi: 10.1038/s41594-021-00666-7.

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Publication Date: 2021-10-01

Description: Many regulatory PPP1R subunits join few catalytic PP1c subunits to mediate phosphoserine and phosphothreonine dephosphorylation in metazoans. Regulatory subunits engage the surface of PP1c, locally affecting flexible access of the phosphopeptide to the active site. However, catalytic efficiency of holophosphatases towards their phosphoprotein substrates remains unexplained. Here we present a cryo-EM structure of the tripartite PP1c–PPP1R15A–G-actin holophosphatase that terminates signaling in the mammalian integrated stress response (ISR) in the pre-dephosphorylation complex with its substrate, translation initiation factor 2α (eIF2α). G-actin, whose essential role in eIF2α dephosphorylation is supported crystallographically, biochemically and genetically, aligns the catalytic and regulatory subunits, creating a composite surface that engages the N-terminal domain of eIF2α to position the distant phosphoserine-51 at the active site. Substrate residues that mediate affinity for the holophosphatase also make critical contacts with eIF2α kinases. Thus, a convergent process of higher-order substrate recognition specifies functionally antagonistic phosphorylation and dephosphorylation in the ISR.

Print ISSN: 1545-9993

Electronic ISSN: 1545-9985

Topics: Biology , Medicine

Published by Springer Nature

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