Lorène Télot, Elodie Rousseau, Emmanuel Lesuisse, Camille Garcia, Bastien Morlet, Thibaut Léger, Jean-Michel Camadro, Valérie Serre, Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, Available online 9 January 2018, ISSN 0925-4439, doi:10.1016/j.bbadis.2018.01.010.
To better understand the biochemical sequelae of frataxin reduction, global protein expression analysis was performed using quantitative proteomic experiments in Friedreich's ataxia patient-derived B-lymphocytes as compared to controls. We were able to confirm a subset of changes in these cells and importantly, we observed previously unreported signatures of protein expression. Among the novel protein signatures that we have identified, the decrease in CHCHD4 might partly explain some aspects of the molecular pathogenesis of FRDA.
The identification of a core set of proteins changing in the FRDA pathogenesis is a useful tool in trying to decipher the function(s) of frataxin in order to clarify the mitochondrial metabolic disease process.
Quantitative proteomics in Friedreich's ataxia B-lymphocytes: A valuable approach to decipher the biochemical events responsible for pathogenesis