Skeletal muscle type-specific mitochondrial adaptation to high-fat diet relies on differential autophagy modulation

Morales, Pablo E.; Monsalves-Alvarez, Matias; Tadinada, Satya Murthy; Harris, Matthew P.; Ramirez-Sagredo, Andrea; Ortiz-Quintero, Jafet; Francisca Troncoso, Mayarling; De Gregorio, Nicole; Calle, Ximena; Pereira, Renata O.; Lira, Vitor A.; Espinosa, Alejandra; Abel, E. Dale; Lavandero, Sergio

Abstract

In obesity, skeletal muscle mitochondrial activity changes to cope with increased nutrient availability. Autophagy has been proposed as an essential mechanism involved in the regulation of mitochondrial metabolism. Still, the contribution of autophagy to mitochondrial adaptations in skeletal muscle during obesity is unknown. Here, we show that in response to high-fat diet (HFD) feeding, distinct skeletal muscles in mice exhibit differentially regulated autophagy that may modulate mitochondrial activity. We observed that after 4 and 40 weeks of high-fat diet feeding, OXPHOS subunits and mitochondrial DNA content increased in the oxidative soleus muscle. However, in gastrocnemius muscle, which has a mixed fiber-type composition, the mitochondrial mass increased only after 40 weeks of HFD feeding. Interestingly, fatty acid-supported mitochondrial respiration was enhanced in gastrocnemius, but not in soleus muscle after a 4-week HFD feeding. This increased metabolic profile in gastrocnemius was paralleled by preserving autophagy flux, while autophagy flux in soleus was reduced. To determine the role of autophagy in this differential response, we used an autophagy-deficient mouse model with partial deletion of Atg7 specifically in skeletal muscle (SkM-Atg7(+/-) mice). We observed that Atg7 reduction resulted in diminished autophagic flux in skeletal muscle, alongside blunting the HFD-induced increase in fatty acid-supported mitochondrial respiration observed in gastrocnemius. Remarkably, SkM-Atg7(+/-) mice did not present increased mitochondria accumulation. Altogether, our results show that HFD triggers specific mitochondrial adaptations in skeletal muscles with different fiber type compositions, and that Atg7-mediated autophagy modulates mitochondrial respiratory capacity but not its content in response to an obesogenic diet.

Más información

Título según WOS: Skeletal muscle type-specific mitochondrial adaptation to high-fat diet relies on differential autophagy modulation
Título de la Revista: FASEB JOURNAL
Volumen: 35
Número: 10
Editorial: Wiley
Fecha de publicación: 2021
DOI:

10.1096/fj.202001593RR

Notas: ISI