Abstract
We report here that blocking the activity of the 26 S proteasome results in drastic changes in the morphology of the mitochondria and accumulation of intermembrane space (IMS) proteins. Using endonuclease G (endoG) as a model IMS protein, we found that accumulation of wild-type but to a greater extent mutant endoG leads to changes in the morphology of the mitochondria similar to those observed following proteasomal inhibition. Further, we show that wild-type but to a greater extent mutant endoG is a substrate for ubiquitination, suggesting the presence of a protein quality control. Conversely, we also report that wild-type but not mutant endoG is a substrate for the mitochondrial protease Omi but only upon inhibition of the proteasome. These findings suggest that although elimination of mutant IMS proteins is strictly dependent on ubiquitination, elimination of excess or spontaneously misfolded wild-type IMS proteins is monitored by ubiquitination and as a second checkpoint by Omi cleavage when the proteasome function is deficient. One implication of our finding is that in the context of attenuated proteasomal function, accumulation of IMS proteins would contribute to the collapse of the mitochondrial network such as that observed in neurodegenerative diseases. Another implication is that such collapse could be accelerated either by mutations in IMS proteins or by mutations in Omi itself.
Highlights
The elimination of misfolded proteins represents an important mechanism for the maintenance of cellular viability
We report here that inhibition of the proteasome leads to the accumulation of intermembrane space (IMS) proteins in the mitochondria and that a ubiquitin-dependent protein quality control limits the import of mutant IMS proteins
We found that overexpression of endoG-N174 led to the accumulation of electron-dense mitochondria (Fig. 1E) similar to those observed upon treatment with proteasome inhibitor (Fig. 1C)
Summary
Mitochondrial Protein Quality Control by the Proteasome Involves Ubiquitination and the Protease Omi*□S. We report that wild-type but not mutant endoG is a substrate for the mitochondrial protease Omi but only upon inhibition of the proteasome. The elimination of misfolded proteins represents an important mechanism for the maintenance of cellular viability Such protein quality controls (PQC) involve the binding of a chaperone to the misfolded protein and its presentation to the ubiquitin-dependent proteasome degradation pathway [1, 2]. We report here that inhibition of the proteasome leads to the accumulation of IMS proteins in the mitochondria and that a ubiquitin-dependent protein quality control limits the import of mutant IMS proteins. Our results suggest a novel role of the ubiquitin pathway in the maintenance of the mitochondria
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