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Serafim 2021 Eur J Clin Invest

From Bioblast
Publications in the MiPMap
Serafim TL, Cunha-Oliveira T, Deus CM, Sardão VA, Cardoso IM, Yang S, Odhiambo JF, Ghnenis AB, Smith AM, Li J, Nathanielsz PW, Ford SP, Oliveira PJ (2021) Maternal obesity in sheep impairs foetal hepatic mitochondrial respiratory chain capacity. Eur J Clin Invest 51:e13375.

» PMID:32780417

Serafim TL, Cunha-OliveiraT, Deus CM, Sardão VA, Cardoso IM, Yang S, Odhiambo JF, Ghnenis AB, Smith AM, Li J, Nathanielsz PW, Ford SP, Oliveira PJ (2021) Eur J Clin Invest

Abstract: Background: Changes in the nutritional environment in utero induced by maternal obesity (MO) lead to foetal metabolic dysfunction predisposing offspring to later-life metabolic diseases. Since mitochondria play a crucial role in hepatic metabolism and function, we hypothesized that MO prior to conception and throughout pregnancy programmes foetal sheep liver mitochondrial phenotype.

Material and methods: Ewes ate an obesogenic diet (150% requirements; MO), or 100% requirements (CTR), from 60 days prior to conception. Foetal livers were removed at 0.9 gestation. We measured foetal liver mitochondrial DNA copy number, activity of superoxide dismutase, cathepsins B and D and selected protein content, total phospholipids and cardiolipin and activity of mitochondrial respiratory chain complexes.

Results: A significant decrease in activities of mitochondrial complexes I, II-III and IV, but not aconitase, was observed in MO. In the antioxidant machinery, there was a significant increase in activity of total superoxide dismutase (SOD) and SOD2 in MO. However, no differences were found regarding autophagy-related protein content (p62, beclin-I, LC3-I, LC3-II and Lamp2A) and cathepsin B and D activities. A 21.5% decrease in total mitochondrial phospholipid was observed in MO.

Conclusions: The data indicate that MO impairs foetal hepatic mitochondrial oxidative capacity and affects total mitochondrial phospholipid content. In addition, MO affects the regulation of foetal liver redox pathways, indicating metabolic adaptations to the higher foetal lipid environment. Consequences of in utero programming of foetal hepatic metabolism may persist and compromise mitochondrial bioenergetics in later life, and increase susceptibility to metabolic diseases.

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