n -3 PUFA-Enriched Diet Preserves Skeletal Muscle Mitochondrial Function and Redox State and Prevents Muscle Mass Loss in Mice with Chronic Heart Failure

n -3 PUFA-Enriched Diet Preserves Skeletal Muscle Mitochondrial Function and Redox State and Prevents Muscle Mass Loss in Mice with Chronic Heart Failure

Skeletal muscle derangements, potentially including mitochondrial dysfunction with altered mitochondrial dynamics and high reactive oxygen species (ROS) generation, may lead to protein catabolism and muscle wasting, resulting in low exercise capacity and reduced survival in chronic heart failure (CH...

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Bibliographic Details
Published in:Nutrients Vol. 15; no. 14; p. 3108
Main Authors: Gortan Cappellari, Gianluca, Aleksova, Aneta, Dal Ferro, Matteo, Cannatà, Antonio, Semolic, Annamaria, Guarnaccia, Alberto, Zanetti, Michela, Giacca, Mauro, Sinagra, Gianfranco, Barazzoni, Rocco
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 11-07-2023
MDPI
Subjects:
Animals
chronic heart failure
Chronic illnesses
Coronary vessels
Cytokines
Diet
Ejection fraction
Enzymes
Heart failure
Kinases
Mitochondria
muscle wasting
Musculoskeletal system
n-3 PUFA
Phosphorylation
Proteins
skeletal muscle
United States > US
Italy
chronic heart failure
skeletal muscle
n-3 PUFA
muscle wasting
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Summary:Skeletal muscle derangements, potentially including mitochondrial dysfunction with altered mitochondrial dynamics and high reactive oxygen species (ROS) generation, may lead to protein catabolism and muscle wasting, resulting in low exercise capacity and reduced survival in chronic heart failure (CHF). We hypothesized that 8-week -3-PUFA isocaloric partial dietary replacement (Fat = 5.5% total cal; EPA + DHA = 27% total fat) normalizes gastrocnemius muscle (GM) mitochondrial dynamics regulators, mitochondrial and tissue pro-oxidative changes, and catabolic derangements, resulting in preserved GM mass in rodent CHF [Myocardial infarction (MI)-induced CHF by coronary artery ligation, left-ventricular ejection fraction <50%]. Compared to control animals (Sham), CHF had a higher GM mitochondrial fission-fusion protein ratio, with low ATP and high ROS production, pro-inflammatory changes, and low insulin signalling. -3-PUFA normalized all mitochondrial derangements and the pro-oxidative state (oxidized to total glutathione ratio), associated with normalized GM cytokine profile, and enhanced muscle-anabolic insulin signalling and prevention of CHF-induced GM weight loss (all < 0.05 vs. CHF and = NS vs. S). -3-PUFA isocaloric partial dietary replacement for 8 weeks normalizes CHF-induced derangements of muscle mitochondrial dynamics regulators, ROS production and function. -3-PUFA mitochondrial effects result in preserved skeletal muscle mass, with potential to improve major patient outcomes in clinical settings.
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ISSN:2072-6643
2072-6643
DOI:10.3390/nu15143108