Fiche publication


Date publication

juin 2019

Journal

Molecular & cellular proteomics : MCP

Auteurs

Membres identifiés du Cancéropôle Est :
Dr CIANFERANI Sarah , Dr CARAPITO Christine


Tous les auteurs :
Bons J, Macron C, Aude-Garcia C, Alvaro Vaca-Jacome S, Rompais M, Cianférani S, Carapito C, Rabilloud T

Résumé

All but thirteen mammalian mitochondrial proteins are encoded by the nuclear genome, translated in the cytosol and then imported into the mitochondria. For a significant proportion of the mitochondrial proteins, import is coupled with the cleavage of a presequence called the transit peptide, and the formation of a new N-terminus. Determination of the neo N-termini has been investigated by proteomic approaches in several systems, but generally in a static way to compile as many N-termini as possible. In the present study, we have investigated how the mitochondrial proteome and N-terminome react to chemical stimuli that alter mitochondrial metabolism, namely zinc ions and rapamycin. To this end, we have used a strategy that analyzes both internal and N-terminal peptides in a single run, the dN-TOP approach. We used these two very different stressors to sort out what could be a generic response to stress and what is specific to each of these stressors. Rapamycin and zinc induced different changes in the mitochondrial proteome. However, convergent changes to key mitochondrial enzymatic activities such as pyruvate dehydrogenase, succinate dehydrogenase and citrate synthase were observed for both treatments. Other convergent changes were seen in components of the N-terminal processing system and mitochondrial proteases. Investigations into the generation of neo-N-termini in mitochondria showed that the processing system is robust, as indicated by the lack of change in neo N-termini under the conditions tested. Detailed analysis of the data revealed that zinc caused a slight reduction in the efficiency of the N-terminal trimming system and that both treatments increased the degradation of mitochondrial proteins. In conclusion, the use of this combined strategy allowed a detailed analysis of the dynamics of the mitochondrial N-terminome in response to treatments which impact the mitochondria.

Mots clés

Cell biology*, Cellular organelles*, Enzymes*, Mass Spectrometry, Mitochondria function or biology, N-terminomics, rapamycin, zinc

Référence

Mol. Cell Proteomics. 2019 Jun;18(6):1085-1095