2022
DOI: 10.1101/2022.01.25.477788
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Derlin Dfm1 Employs a Chaperone Function to Resolve Misfolded Membrane Protein Stress

Abstract: Accumulation of misfolded proteins is a known source of cellular stress and can be detrimental to cellular health. While protein aggregation is a known hallmark of many diseases the mechanisms by which protein aggregates cause toxicity and the molecular machines that prevent this toxicity are not completely understood. Here, we show that the accumulated misfolded membrane proteins form endoplasmic reticulum (ER) localized aggregates, impacting ubiquitin and proteasome homeostasis. Additionally, we have identif… Show more

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Cited by 2 publications
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“…Instead, Dfm1 interacts with Ypk1‐dependent phosphorylated Orm2, which is followed by Orm2 exit from the ER and degradation by EGAD. Our laboratory has recently identified a chaperone‐like Dfm1 function where it influences the solubility of aggregate‐prone misfolded membrane substrates along the ER membrane (preprint: Kandel et al , 2022 ). Similar to Dfm1's function as a mediator in sphingolipid homeostasis, its chaperone‐like role requires Dfm1's substrate‐binding and lipid‐thinning function, but not its Cdc48 recruitment function.…”
Section: Discussionmentioning
confidence: 99%
“…Instead, Dfm1 interacts with Ypk1‐dependent phosphorylated Orm2, which is followed by Orm2 exit from the ER and degradation by EGAD. Our laboratory has recently identified a chaperone‐like Dfm1 function where it influences the solubility of aggregate‐prone misfolded membrane substrates along the ER membrane (preprint: Kandel et al , 2022 ). Similar to Dfm1's function as a mediator in sphingolipid homeostasis, its chaperone‐like role requires Dfm1's substrate‐binding and lipid‐thinning function, but not its Cdc48 recruitment function.…”
Section: Discussionmentioning
confidence: 99%
“…However, we cannot exclude the possibility that Dfm1 may directly participate in Orm2 export in a COPII-independent manner. The former model seems plausible since our laboratory has recently identified a chaperone-like Dfm1 function that is required for disaggregating misfolded membrane substrates along the ER membrane (Kandel et al, 2022). Similar to Dfm1’s function as a mediator in sphingolipid homeostasis, its chaperone-like role requires Dfm1’s substrate and lipid thinning function, but not its Cdc48 recruitment function.…”
Section: Discussionmentioning
confidence: 99%