Comparative Profiling of N-Respirasomes Predicts Aberrant Mitochondrial Bioenergetics at Single-Cell Resolution
2020; RELX Group (Netherlands); Linguagem: Inglês
10.2139/ssrn.3717770
ISSN1556-5068
AutoresFabio Bertan, Lena Schmid, Enzo Scifo, Mihaela Guranda, Joshua Jackson, Anaïs Marsal-Cots, Antonia Piazzesi, Miriam Stork, Michael Peitz, Jochen H.M. Prehn, Dan Ehninger, Pierluigi Nicotera, Daniele Bano,
Tópico(s)RNA modifications and cancer
ResumoMitochondria sustain the energy demand of the cell. The composition and functional state of the mitochondrial oxidative phosphorylation system are informative indicators of organelle homeostasis and bioenergetic capacity. Here we describe a highly sensitive and reproducible method for single-cell visualization and quantification of mitochondrial respiratory supercomplexes as a novel means of measuring mitochondrial respiratory chain integrity. We apply a proximity ligation assay (PLA) and perform comparative studies of mitochondrial CI, CIII, CIV-containing supercomplexes (or N-respirasomes) in fixed human and mouse brain tissues, tumorigenic cells, iPSCs and iPSC-derived NPCs and neurons. Our optimized approach enables quantitative in-situ assessments of even subtle mitochondrial lesions associated with aberrant respiration. By combining quantitative proteomics with single cell imaging analysis, we also report the mechanistic contribution of the MICOS complex subunit CHCHD3 in regulating N-respirasomes. Overall, our PLA-based profiling of N-respirasomes establishes a sensitive and complementary technique for detecting cell-type specific mitochondrial perturbations in fixed materials.
Referência(s)