Litcius/Paper detail

Dysfunctional mitochondria trap proteins in the intermembrane space

Tamara Flohr, Markus Räschle, Johannes M. Herrmann

2025The EMBO Journal9 citationsDOIOpen Access PDF

Abstract

The accumulation of mitochondrial precursor proteins in the cytosol due to mitochondrial dysfunction compromises cellular proteostasis and is a hallmark of diseases. Why non-imported precursors are toxic and how eukaryotic cells prevent their accumulation in the cytosol is still poorly understood. Using a proximity labeling-based assay to globally monitor the intramitochondrial location of proteins, we show that, upon mitochondrial dysfunction, many mitochondrial matrix proteins are sequestered in the intermembrane space (IMS); something we refer to as "mitochondrial triage of precursor proteins" (MitoTraP). MitoTraP is not simply the result of a general translocation block at the level of the inner membrane, but specifically directs a subgroup of matrix proteins into the IMS, many of which are constituents of the mitochondrial ribosome. Using the mitoribosomal protein Mrp17 (bS6m) as a model, we found that IMS sequestration prevents its mistargeting to the nucleus, potentially averting interference with assembly of cytosolic ribosomes. Thus, MitoTraP represents a novel, so far unknown mechanism of the eukaryotic quality control system that protects the cellular proteome against the toxic effects of non-imported mitochondrial precursor proteins.

Topics & Concepts

BiologyIntermembrane spaceTrap (plumbing)Mitochondrial intermembrane spaceMitochondrionCell biologySpace (punctuation)BiophysicsBiochemistryBacterial outer membranePhysicsEscherichia coliGeneLinguisticsPhilosophyMeteorologyMitochondrial Function and PathologyATP Synthase and ATPases ResearchUbiquitin and proteasome pathways