PUBLICATION

Scaf1 promotes respiratory supercomplexes and metabolic efficiency in zebrafish

Authors
García-Poyatos, C., Cogliati, S., Calvo, E., Hernansanz-Agustín, P., Lagarrigue, S., Magni, R., Botos, M., Langa, X., Amati, F., Vázquez, J., Mercader, N., Enríquez, J.A.
ID
ZDB-PUB-200606-11
Date
2020
Source
EMBO reports   21(7): e50287 (Journal)
Registered Authors
Amati, Francesca, Lagarrigue, Silviane, Mercader Huber, Nadia
Keywords
OXPHOS super-assembly, SCAF1/COX7A2L, metabolism, mitochondria, zebrafish
Datasets
GEO:GSE133487
MeSH Terms
  • Animals
  • Electron Transport Complex IV*/metabolism
  • Energy Metabolism/genetics
  • Female
  • Mice
  • Mitochondrial Membranes/metabolism
  • Oxidative Phosphorylation
  • Serine-Arginine Splicing Factors/metabolism*
  • Zebrafish*/genetics
  • Zebrafish*/metabolism
PubMed
32496654 Full text @ EMBO Rep.
Abstract
The oxidative phosphorylation (OXPHOS) system is a dynamic system in which the respiratory complexes coexist with super-assembled quaternary structures called supercomplexes (SCs). The physiological role of SCs is still disputed. Here, we used zebrafish to study the relevance of respiratory SCs. We combined immunodetection analysis and deep data-independent proteomics to characterize these structures and found similar SCs to those described in mice, as well as novel SCs including III2  + IV2 , I + IV, and I + III + IV2 . To study the physiological role of SCs, we generated two null allele zebrafish lines for supercomplex assembly factor 1 (scaf1). scaf1-/- fish displayed altered OXPHOS activity due to the disrupted interaction of complexes III and IV. scaf1-/- fish were smaller in size and showed abnormal fat deposition and decreased female fertility. These physiological phenotypes were rescued by doubling the food supply, which correlated with improved bioenergetics and alterations in the metabolic gene expression program. These results reveal that SC assembly by Scaf1 modulates OXPHOS efficiency and allows the optimization of metabolic resources.
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