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  • Manipulating mtDNA in vivo reprograms metabolism via novel response mechanisms.

Manipulating mtDNA in vivo reprograms metabolism via novel response mechanisms.

PLoS genetics (2019-10-05)
Diana Bahhir, Cagri Yalgin, Liina Ots, Sampsa Järvinen, Jack George, Alba Naudí, Tatjana Krama, Indrikis Krams, Mairi Tamm, Ana Andjelković, Eric Dufour, Jose M González de Cózar, Mike Gerards, Mikael Parhiala, Reinald Pamplona, Howard T Jacobs, Priit Jõers
ABSTRACT

Mitochondria have been increasingly recognized as a central regulatory nexus for multiple metabolic pathways, in addition to ATP production via oxidative phosphorylation (OXPHOS). Here we show that inducing mitochondrial DNA (mtDNA) stress in Drosophila using a mitochondrially-targeted Type I restriction endonuclease (mtEcoBI) results in unexpected metabolic reprogramming in adult flies, distinct from effects on OXPHOS. Carbohydrate utilization was repressed, with catabolism shifted towards lipid oxidation, accompanied by elevated serine synthesis. Cleavage and translocation, the two modes of mtEcoBI action, repressed carbohydrate rmetabolism via two different mechanisms. DNA cleavage activity induced a type II diabetes-like phenotype involving deactivation of Akt kinase and inhibition of pyruvate dehydrogenase, whilst translocation decreased post-translational protein acetylation by cytonuclear depletion of acetyl-CoA (AcCoA). The associated decrease in the concentrations of ketogenic amino acids also produced downstream effects on physiology and behavior, attributable to decreased neurotransmitter levels. We thus provide evidence for novel signaling pathways connecting mtDNA to metabolism, distinct from its role in supporting OXPHOS.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Free Glycerol Reagent, used for quantitative enzymatic determination of glycerol
Sigma-Aldrich
Mifepristone, ≥98%