Detrimental effects of branched-chain amino acids in glucose tolerance can be attributed to valine induced glucotoxicity in skeletal muscle

Objective Current data regarding the roles of branched-chain amino acids (BCAA) in metabolic health are rather conflicting, as positive and negative effects have been attributed to their intake. Methods To address this, individual effects of leucine and valine were elucidated in vivo (C57BL/6JRj mic...

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Published in:Nutrition & diabetes 2022-04, Vol.12 (1), p.20-20, Article 20
Main Authors: Bishop, Christopher A., Machate, Tina, Henning, Thorsten, Henkel, Janin, Püschel, Gerhard, Weber, Daniela, Grune, Tilman, Klaus, Susanne, Weitkunat, Karolin
Format: Article
Language:English
Subjects:
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Amino acids
Amino Acids, Branched-Chain
Animals
Clinical Nutrition
Diabetes
Epidemiology
Glucose
Glucose - metabolism
Insulin resistance
Insulin Resistance - physiology
Internal Medicine
Leucine - metabolism
Leucine - pharmacology
Medicine
Medicine & Public Health
Metabolic Diseases
Mice
Mice, Inbred C57BL
Muscle, Skeletal - metabolism
Musculoskeletal system
Obesity - metabolism
Valine - metabolism
Valine - pharmacology
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Summary:Objective Current data regarding the roles of branched-chain amino acids (BCAA) in metabolic health are rather conflicting, as positive and negative effects have been attributed to their intake. Methods To address this, individual effects of leucine and valine were elucidated in vivo (C57BL/6JRj mice) with a detailed phenotyping of these supplementations in high-fat (HF) diets and further characterization with in vitro approaches (C2C12 myocytes). Results Here, we demonstrate that under HF conditions, leucine mediates beneficial effects on adiposity and insulin sensitivity, in part due to increasing energy expenditure—likely contributing partially to the beneficial effects of a higher milk protein intake. On the other hand, valine feeding leads to a worsening of HF-induced health impairments, specifically reducing glucose tolerance/insulin sensitivity. These negative effects are driven by an accumulation of the valine-derived metabolite 3-hydroxyisobutyrate (3-HIB). Higher plasma 3-HIB levels increase basal skeletal muscle glucose uptake which drives glucotoxicity and impairs myocyte insulin signaling. Conclusion These data demonstrate the detrimental role of valine in an HF context and elucidate additional targetable pathways in the etiology of BCAA-induced obesity and insulin resistance.
ISSN:2044-4052
2044-4052
DOI:10.1038/s41387-022-00200-8