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Dfm1 promotes Ste24-dependent translocon quality control

Created on 10 Jul 2026

Abstract

Proteins stalled during endoplasmic reticulum translocation clog Sec61 channels and require translocon quality control (TQC) mechanisms for clearance. Genetic screens implicated the derlin Dfm1 in TQC; however, its mechanistic role remained unclear. Using engineered and disease-relevant translocon-clogging substrates in Saccharomyces cerevisiae, we show Dfm1 functions in the Ste24-dependent branch of TQC, but not Hrd1- or Ltn1-dependent pathways. Loss of DFM1 increased accumulation and toxicity of translocon-clogging proteins. Increased dosage of wild type or catalytically inactive Hrd1 or Ste24 rescued toxicity, supporting a non-enzymatic buffering function for these factors in TQC. These findings identify Dfm1 as a key TQC factor whose critical role in clearing clogged translocons can be suppressed in multiple ways. Our results suggest enhancing TQC may protect cells from proteotoxic stress caused by disease-relevant translocon-clogging substrates, with potential implications for pancreatic {beta}-cell dysfunction in diabetes. Significance StatementO_LICells rely on translocon quality control (TQC) to clear proteins that clog the Sec61 translocon, but how the derlin Dfm1 contributes to this process has remained unclear. C_LIO_LIWe demonstrate that Dfm1 functions specifically in the Ste24-dependent TQC pathway and show that increased levels of the TQC factors Hrd1 or Ste24 rescues Dfm1 deficiency even without catalytic activity, revealing an unexpected non-enzymatic buffering function. C_LIO_LIThis work defines Dfm1s mechanistic role in TQC, provides new insight into how cells preserve endoplasmic reticulum function during translocation stress, and establishes a framework for investigating conserved pathways that protect against diseases associated with translocon clogging. C_LI

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 10 Jul 2026.

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