Your search keyword '"Paola Mantuano"' showing total 2 results

1. Branched-Chain Amino Acids and Di-Alanine Supplementation in Aged Mice: A Translational Study on Sarcopenia

Author

Paola Mantuano, Brigida Boccanegra, Gianluca Bianchini, Ornella Cappellari, Lisamaura Tulimiero, Elena Conte, Santa Cirmi, Francesca Sanarica, Michela De Bellis, Antonietta Mele, Antonella Liantonio, Marcello Allegretti, Andrea Aramini, and Annamaria De Luca

Subjects

sarcopenia, aging, aged C57BL/6J mice, branched-chain amino acids, L-Alanine, L-Alanyl-L-Alanine, Nutrition and Dietetics, Food Science

Abstract

In age-related sarcopenia, the gradual loss of skeletal muscle mass, function and strength is underpinned by an imbalanced rate of protein synthesis/breakdown. Hence, an adequate protein intake is considered a valuable strategy to mitigate sarcopenia. Here, we investigated the effects of a 12-week oral supplementation with branched-chain amino acids (BCAAs: leucine, isoleucine, and valine) with recognized anabolic properties, in 17-month-old (AGED) C57BL/6J male mice. BCAAs (2:1:1) were formulated in drinking water, alone or plus two L-Alanine equivalents (2ALA) or dipeptide L-Alanyl-L-Alanine (Di-ALA) to boost BCAAs bioavailability. Outcomes were evaluated on in/ex vivo readouts vs. 6-month-old (ADULT) mice. In vivo hind limb plantar flexor torque was improved in AGED mice treated with BCAAs + Di-ALA or 2ALA (recovery score, R.S., towards ADULT: ≥20%), and all mixtures significantly increased hind limb volume. Ex vivo, myofiber cross-sectional areas were higher in gastrocnemius (GC) and soleus (SOL) muscles from treated mice (R.S. ≥ 69%). Contractile indices of isolated muscles were improved by the mixtures, especially in SOL muscle (R.S. ≥ 20%). The latter displayed higher mTOR protein levels in mice supplemented with 2ALA/Di-ALA-enriched mixtures (R.S. ≥ 65%). Overall, these findings support the usefulness of BCAAs-based supplements in sarcopenia, particularly as innovative formulations potentiating BCAAs bioavailability and effects.

Published

2023

2. Ergogenic Effect of BCAAs and L-Alanine Supplementation: Proof-of-Concept Study in a Murine Model of Physiological Exercise

Author

Paola Mantuano, Ornella Cappellari, Gianluca Bianchini, Marcello Allegretti, Annamaria De Luca, Elena Conte, Andrea Aramini, Michela De Bellis, Francesca Sanarica, Antonietta Mele, Laura Brandolini, Brigida Boccanegra, and Giulia Maria Camerino

Subjects

0301 basic medicine, Muscle Proteins, lcsh:TX341-641, Performance-Enhancing Substances, Pharmacology, Proof of Concept Study, Article, murine model, dietary supplements, Mice, 03 medical and health sciences, Leucine, preclinical study, Valine, Physical Conditioning, Animal, medicine, Animals, L-Alanine, resistance to fatigue, Isoleucine, branched-chain amino acids, Muscle, Skeletal, Alanine, 030109 nutrition & dietetics, Nutrition and Dietetics, exercise, Catabolism, Chemistry, Skeletal muscle, Metabolism, Bioavailability, Protein catabolism, 030104 developmental biology, medicine.anatomical_structure, Models, Animal, Muscle Fatigue, lcsh:Nutrition. Foods and food supply, Amino Acids, Branched-Chain, Food Science

Abstract

Background: Branched-chain amino acids (BCAAs: leucine, isoleucine, valine) account for 35% of skeletal muscle essential amino acids (AAs). As such, they must be provided in the diet to support peptide synthesis and inhibit protein breakdown. Although substantial evidence has been collected about the potential usefulness of BCAAs in supporting muscle function and structure, dietary supplements containing BCAAs alone may not be effective in controlling muscle protein turnover, due to the rate-limiting bioavailability of other AAs involved in BCAAs metabolism. Methods: We aimed to evaluate the in vivo/ex vivo effects of a 4-week treatment with an oral formulation containing BCAAs alone (2:1:1) on muscle function, structure, and metabolism in a murine model of physiological exercise, which was compared to three modified formulations combining BCAAs with increasing concentrations of L-Alanine (ALA), an AA controlling BCAAs catabolism. Results: A preliminary pharmacokinetic study confirmed the ability of ALA to boost up BCAAs bioavailability. After 4 weeks, mix 2 (BCAAs + 2ALA) had the best protective effect on mice force and fatigability, as well as on muscle morphology and metabolic indices. Conclusion: Our study corroborates the use of BCAAs + ALA to support muscle health during physiological exercise, underlining how the relative BCAAs/ALA ratio is important to control BCAAs distribution.

Published

2020