Your search keyword '"Monteyne, Alistair J."' showing total 6 results

1. Plant Protein Blend Ingestion Stimulates Postexercise Myofibrillar Protein Synthesis Rates Equivalently to Whey in Resistance-Trained Adults.

Author

VAN DER HEIJDEN, INO, MONTEYNE, ALISTAIR J., WEST, SAM, MORTON, JAMES P., LANGAN-EVANS, CARL, HEARRIS, MARK A., ABDELRAHMAN, DOAA R., MURTON, ANDREW J., STEPHENS, FRANCIS B., and WALL, BENJAMIN T.

Subjects

*SKELETAL muscle physiology, *MUSCLE protein metabolism, *EXERCISE physiology, *PEANUTS, *BRASSICACEAE, *BIOPSY, *FOOD consumption, *MUSCLE proteins, *RESEARCH funding, *COOLDOWN, *STATISTICAL sampling, *BLIND experiment, *RICE, *BLOOD collection, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *PHENYLALANINE, *RESISTANCE training, *CROSSOVER trials, *INTRAVENOUS therapy, *COMPARATIVE studies, *DIETARY proteins, *ESSENTIAL amino acids, *PLANT proteins, *WHEY proteins, *MUSCLES, *ADULTS

Abstract

Purpose: Whey protein ingestion is typically considered an optimal dietary strategy tomaximizemyofibrillar protein synthesis (MyoPS) after resistance exercise. Although single-source plant protein ingestion is typically less effective, at least partly, due to less favorable amino acid profiles, this could theoretically be overcome by blending plant-based proteins with complementary amino acid profiles. We compared the postexercise MyoPS response after the ingestion of a novel plant-derived protein blend with an isonitrogenous bolus of whey protein. Methods: Ten healthy, resistance-trained, young adults (male/female: 8/2; age: 26 ± 6 yr; BMI: 24 ± 3 kg·m-2) received a primed continuous infusion of L-[ring-²H5]-phenylalanine and completed a bout of bilateral leg resistance exercise before ingesting 32 g protein from whey (WHEY) or a plant protein blend (BLEND; 39.5% pea, 39.5% brown rice, 21.0% canola) in a randomized, double-blind crossover fashion. Blood and muscle samples were collected at rest, and 2 and 4 h after exercise and protein ingestion, to assess plasma amino acid concentrations, and postabsorptive and postexercise MyoPS rates. Results: Plasma essential amino acid availability over the 4 h postprandial postexercise period was ~44% higher inWHEY compared with BLEND (P = 0.04). From equivalent postabsorptive values (WHEY, 0.042 ± 0.020%·h-1; BLEND, 0.043 ± 0.015%·h-1) MyoPS rates increased after exercise and protein ingestion (time effect; P < 0.001) over a 0- to 2-h period (WHEY, 0.085 ± 0.037%·h-1; BLEND, 0.080 ± 0.037%·h-1) and 2- to 4-h period (WHEY, 0.085 ± 0.036%·h-1; BLEND, 0.086 ± 0.034%·h-1), with no differences between conditions during either period or throughout the entire (0-4 h) postprandial period (time-condition interactions; all P > 0.05). Conclusions: Ingestion of a novel plant-based protein blend stimulates postexercise MyoPS to an equivalent extent as whey protein, demonstrating the utility of plant protein blends to optimize postexercise skeletal muscle reconditioning. [ABSTRACT FROM AUTHOR]

Published

2024

2. Association of postprandial postexercise muscle protein synthesis rates with dietary leucine: A systematic review.

Author

Wilkinson, Kiera, Koscien, Christopher P., Monteyne, Alistair J., Wall, Benjamin T., and Stephens, Francis B.

Subjects

MUSCLE proteins, PROTEIN synthesis, LEUCINE, RESISTANCE training, OLDER people

Abstract

Background: Dietary protein ingestion augments post (resistance) exercise muscle protein synthesis (MPS) rates. It is thought that the dose of leucine ingested within the protein (leucine threshold hypothesis) and the subsequent plasma leucine variables (leucine trigger hypothesis; peak magnitude, rate of rise, and total availability) determine the magnitude of the postprandial postexercise MPS response. Methods: A quantitative systematic review was performed extracting data from studies that recruited healthy adults, applied a bout of resistance exercise, ingested a bolus of protein within an hour of exercise, and measured plasma leucine concentrations and MPS rates (delta change from basal). Results: Ingested leucine dose was associated with the magnitude of the MPS response in older, but not younger, adults over acute (0–2 h, r2 = 0.64, p = 0.02) and the entire postprandial (>2 h, r2 = 0.18, p = 0.01) period. However, no single plasma leucine variable possessed substantial predictive capacity over the magnitude of MPS rates in younger or older adults. Conclusion: Our data provide support that leucine dose provides predictive capacity over postprandial postexercise MPS responses in older adults. However, no threshold in older adults and no plasma leucine variable was correlated with the magnitude of the postexercise anabolic response. [ABSTRACT FROM AUTHOR]

Published

2023

3. Mycoprotein ingestion within or without its wholefood matrix results in equivalent stimulation of myofibrillar protein synthesis rates in resting and exercised muscle of young men.

Author

West, Sam, Monteyne, Alistair J., Whelehan, Gráinne, Abdelrahman, Doaa R., Murton, Andrew J., Finnigan, Tim J. A., Blackwell, Jamie R., Stephens, Francis B., and Wall, Benjamin T.

Subjects

MUSCLE protein metabolism, SKELETAL muscle, PHENYLALANINE, FOOD consumption, EXERCISE, RESEARCH funding, MILK proteins, LEUCINE, BODY mass index, DIETARY proteins

Abstract

Ingestion of mycoprotein stimulates skeletal muscle protein synthesis (MPS) rates to a greater extent than concentrated milk protein when matched for leucine content, potentially attributable to the wholefood nature of mycoprotein. We hypothesised that bolus ingestion of mycoprotein as part of its wholefood matrix would stimulate MPS rates to a greater extent compared with a leucine-matched bolus of protein concentrated from mycoprotein. Twenty-four healthy young (age, 21 ± 2 years; BMI, 24 ± 3 kg.m2) males received primed, continuous infusions of L-[ ring -2H5]phenylalanine and completed a bout of unilateral resistance leg exercise before ingesting either 70 g mycoprotein (MYC; 31·4 g protein, 2·5 g leucine; n 12) or 38·2 g of a protein concentrate obtained from mycoprotein (PCM; 28·0 g protein, 2·5 g leucine; n 12). Blood and muscle samples (vastus lateralis) were taken pre- and (4 h) post-exercise/protein ingestion to assess postabsorptive and postprandial myofibrillar protein fractional synthetic rates (FSR) in resting and exercised muscle. Protein ingestion increased plasma essential amino acid and leucine concentrations (P < 0·0001), but more rapidly (both 60 v. 90 min; P < 0·0001) and to greater magnitudes (1367 v. 1346 μmol·l–1 and 298 v. 283 μmol·l–1, respectively; P < 0·0001) in PCM compared with MYC. Protein ingestion increased myofibrillar FSR (P < 0·0001) in both rested (MYC, Δ0·031 ± 0·007 %·h–1 and PCM, Δ0·020 ± 0·008 %·h–1) and exercised (MYC, Δ0·057 ± 0·011 %·h–1 and PCM, Δ0·058 ± 0·012 %·h–1) muscle, with no differences between conditions (P > 0·05). Mycoprotein ingestion results in equivalent postprandial stimulation of resting and post-exercise myofibrillar protein synthesis rates irrespective of whether it is consumed within or without its wholefood matrix. [ABSTRACT FROM AUTHOR]

Published

2023

4. A mycoprotein-based high-protein vegan diet supports equivalent daily myofibrillar protein synthesis rates compared with an isonitrogenous omnivorous diet in older adults: a randomised controlled trial.

Author

Monteyne, Alistair J., Dunlop, Mandy V., Machin, David J., Coelho, Mariana O. C., Pavis, George F., Porter, Craig, Murton, Andrew J., Abdelrahman, Doaa R., Dirks, Marlou L., Stephens, Francis B., and Wall, Benjamin T.

Subjects

MUSCLE protein metabolism, RESISTANCE training, WATER in the body, VEGETARIANISM, MEAT, SALIVA, TREATMENT effectiveness, RANDOMIZED controlled trials, COMPARATIVE studies, DESCRIPTIVE statistics, BODY mass index, COLLECTION & preservation of biological specimens, DIETARY proteins, OLD age

Abstract

Animal-derived dietary protein ingestion and physical activity stimulate myofibrillar protein synthesis rates in older adults. We determined whether a non-animal-derived diet can support daily myofibrillar protein synthesis rates to the same extent as an omnivorous diet. Nineteen healthy older adults (aged 66 (sem 1) years; BMI 24 (sem 1) kg/m2; twelve males, seven females) participated in a randomised, parallel-group, controlled trial during which they consumed a 3-d isoenergetic high-protein (1·8 g/kg body mass per d) diet, where the protein was provided from predominantly (71 %) animal (OMNI; n 9; six males, three females) or exclusively vegan (VEG; n 10; six males, four females; mycoprotein providing 57 % of daily protein intake) sources. During the dietary control period, participants conducted a daily bout of unilateral resistance-type leg extension exercise. Before the dietary control period, participants ingested 400 ml of deuterated water, with 50-ml doses consumed daily thereafter. Saliva samples were collected throughout to determine body water 2H enrichments, and muscle samples were collected from rested and exercised muscle to determine daily myofibrillar protein synthesis rates. Deuterated water dosing resulted in body water 2H enrichments of approximately 0·78 (sem 0·03) %. Daily myofibrillar protein synthesis rates were 13 (sem 8) (P = 0·169) and 12 (sem 4) % (P = 0·016) greater in the exercised compared with rested leg (1·59 (sem 0·12) v. 1·77 (sem 0·12) and 1·76 (sem 0·14) v. 1·93 (sem 0·12) %/d) in OMNI and VEG groups, respectively. Daily myofibrillar protein synthesis rates did not differ between OMNI and VEG in either rested or exercised muscle (P > 0·05). Over the course of a 3-d intervention, omnivorous- or vegan-derived dietary protein sources can support equivalent rested and exercised daily myofibrillar protein synthesis rates in healthy older adults consuming a high-protein diet. [ABSTRACT FROM AUTHOR]

Published

2021

5. Branched-Chain Amino Acid Fortification Does Not Restore Muscle Protein Synthesis Rates following Ingestion of Lower- Compared with Higher-Dose Mycoprotein.

Author

Monteyne, Alistair J, Coelho, Mariana O C, Porter, Craig, Abdelrahman, Doaa R, Jameson, Thomas S O, Finnigan, Tim J A, Stephens, Francis B, Dirks, Marlou L, and Wall, Benjamin T

Subjects

*MUSCLE proteins, *PROTEIN synthesis, *AMINO acids, *BOLUS radiotherapy, *QUADRICEPS muscle, *ISOMETRIC exercise, *AMINO acid metabolism, *PHENYLALANINE metabolism, *PROTEIN metabolism, *MUSCLE protein metabolism, *PROTEINS, *RESEARCH, *PHENYLALANINE, *SKELETAL muscle, *BEVERAGES, *RESEARCH methodology, *EVALUATION research, *MEDICAL cooperation, *COMPARATIVE studies, *BLIND experiment, *GENES

Abstract

Background: We have shown that ingesting a large bolus (70 g) of the fungal-derived, whole food mycoprotein robustly stimulates muscle protein synthesis (MPS) rates.Objective: The aim of this study was to determine if a lower dose (35 g) of mycoprotein enriched with branched-chain amino acids (BCAAs) stimulates MPS to the same extent as 70 g of mycoprotein in resistance-trained young men.Methods: Nineteen men [aged 22 ± 1 y, BMI (kg/m2): 25 ± 1] took part in a randomized, double-blind, parallel-group study. Participants received primed, continuous infusions of l-[ring-2H5]phenylalanine and ingested either 70 g mycoprotein (31.5 g protein; MYCO; n = 10) or 35 g BCAA-enriched mycoprotein (18.7 g protein: matched on BCAA content; ENR; n = 9) following a bout of unilateral resistance exercise. Blood and bilateral quadriceps muscle samples were obtained before exercise and protein ingestion and during a 4-h postprandial period to assess MPS in rested and exercised muscle. Two- and 3-factor ANOVAs were used to detect differences in plasma amino acid kinetics and mixed muscle fractional synthetic rates, respectively.Results: Postprandial plasma BCAA concentrations increased more rapidly and to a larger degree in ENR compared with MYCO. MPS increased with protein ingestion (P ≤ 0.05) but to a greater extent following MYCO (from 0.025% ± 0.006% to 0.057% ± 0.004% · h-1 in rested muscle, and from 0.024% ± 0.007% to 0.072% ± 0.005% · h-1 in exercised muscle; P < 0.0001) compared with ENR (from 0.031% ± 0.003% to 0.043% ± 0.005% · h-1 in rested muscle, and 0.027% ± 0.005% to 0.052% ± 0.005% · h-1 in exercised muscle; P < 0.01) ingestion. Postprandial MPS rates were greater in MYCO compared with ENR (P < 0.01).Conclusions: The ingestion of lower-dose BCAA-enriched mycoprotein stimulates resting and postexercise MPS rates, but to a lesser extent compared with the ingestion of a BCAA-matched 70-g mycoprotein bolus in healthy young men. This trial was registered at clinicaltrials.gov as 660065600. [ABSTRACT FROM AUTHOR]

Published

2020

6. Mycoprotein ingestion stimulates protein synthesis rates to a greater extent than milk protein in rested and exercised skeletal muscle of healthy young men: a randomized controlled trial.

Author

Monteyne, Alistair J, Coelho, Mariana O C, Porter, Craig, Abdelrahman, Doaa R, Jameson, Thomas S O, Jackman, Sarah R, Blackwell, Jamie R, Finnigan, Tim J A, Stephens, Francis B, Dirks, Marlou L, and Wall, Benjamin T

Subjects

PROTEIN metabolism, BLOOD collection, COMPARATIVE studies, INGESTION, MEN'S health, MILK proteins, DIETARY proteins, RANDOMIZED controlled trials, TREATMENT effectiveness, BLIND experiment, SKELETAL muscle, RESISTANCE training

Abstract

Background Mycoprotein is a fungal-derived sustainable protein-rich food source, and its ingestion results in systemic amino acid and leucine concentrations similar to that following milk protein ingestion. Objective We assessed the mixed skeletal muscle protein synthetic response to the ingestion of a single bolus of mycoprotein compared with a leucine-matched bolus of milk protein, in rested and exercised muscle of resistance-trained young men. Methods Twenty resistance-trained healthy young males (age: 22 ± 1 y, body mass: 82 ± 2 kg, BMI: 25 ± 1 kg·m−2) took part in a randomized, double-blind, parallel-group study. Participants received primed, continuous infusions of L-[ring-2H5]phenylalanine and ingested either 31 g (26.2 g protein: 2.5 g leucine) milk protein (MILK) or 70 g (31.5 g protein: 2.5 g leucine) mycoprotein (MYCO) following a bout of unilateral resistance-type exercise (contralateral leg acting as resting control). Blood and m. vastus lateralis muscle samples were collected before exercise and protein ingestion, and following a 4-h postprandial period to assess mixed muscle fractional protein synthetic rates (FSRs) and myocellular signaling in response to the protein beverages in resting and exercised muscle. Results Mixed muscle FSRs increased following MILK ingestion (from 0.036 ± 0.008 to 0.052 ± 0.006%·h−1 in rested, and 0.035 ± 0.008 to 0.056 ± 0.005%·h−1 in exercised muscle; P  <0.01) but to a greater extent following MYCO ingestion (from 0.025 ± 0.006 to 0.057 ± 0.004%·h−1 in rested, and 0.024 ± 0.007 to 0.072 ± 0.005%·h−1 in exercised muscle; P  <0.0001) (treatment × time interaction effect; P  <0.05). Postprandial FSRs trended to be greater in MYCO compared with MILK (0.065 ± 0.004 compared with 0.054 ± 0.004%·h−1, respectively; P  = 0.093) and the postprandial rise in FSRs was greater in MYCO compared with MILK (Delta 0.040 ± 0.006 compared with Delta 0.018 ± 0.005%·h−1, respectively; P  <0.01). Conclusions The ingestion of a single bolus of mycoprotein stimulates resting and postexercise muscle protein synthesis rates, and to a greater extent than a leucine-matched bolus of milk protein, in resistance-trained young men. This trial was registered at clinicaltrials.gov as 660065600. [ABSTRACT FROM AUTHOR]

Published

2020