Randomized parallel study investing the effect of intake of different protein sources (whey, insect and pea) on the muscle protein synthesis. Activation of the signaling pathway leading to muscle protein synthesis is investigated by western blotting and Real time quantitative polymerase chain reaction (qPCR or PCR). Urine, blood and muscle is moreover investigated by metabolomics analysis.
Background: Sarcopenia is a syndrome highly prevalent in the older population, characterized by muscle loss and a decrease in muscle strength. This leads to loss of physical function, decreased life quality and well-being and an increased risk of early death. Research has shown that both ingestion of protein and physical activity is able to diminish the loss of muscle mass during aging and thereby reduce the prevalence of sarcopenia and diminish the consequence of the disease. This study will investigate if more sustainable protein sources of good quality can increase the muscle protein synthesis and thereby prevent sarcopenia. Aim: The aim of this project is to investigate the effects of insect protein on the stimulation of muscle protein synthesis. The effects of protein will both be studied alone and in combination with exercise in perspective of preventing loss of both muscle mass and muscle strength. The potential of insect protein will be elucidated by comparison with other alternative plant-based protein sources in this case pea protein. In addition, whey protein will be included as a positive control as it may be regarded as the most established dietary protein source combatting muscle loss. Method: Young(18-30 years old) healthy men (n=60) are randomized in 3 groups to ingest either insect protein, pea protein or whey protein. Urine are collected 24 hours prior to the experiment while a blood sample and a muscle biopsy is collected at the beginning of the study. The subjects are instructed to perform one-leg exercise (knee extension, 5 sets of 10 repetitions, 10 repetitions-maximum) after which the subjects ingest the assigned protein bolus. Urine and blood samples are collected in the following hours and one muscle biopsy is collected from both the exercised and the non-exercised leg at 3 hours after protein ingestion. The expression of messenger RNA (mRNA) and protein related to the mTORC pathway in the muscle is investigated by qPCR and western blotting. In addition, metabolites in urine, blood plasma and muscle tissue are investigated by metabolomics analysis.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
50
The protein powder is dissolved in 400 mL water and given relative to lean body mass, 0.25 g protein pr kg lean body mass.
Department of Public Health,
Aarhus, Denmark
Expression and phosphorylation of signaling proteins and their mRNA by Western Blotting and PCR
Change in expression and phosphorylation of signaling proteins and the mRNA related the muscle protein synthesis.
Time frame: 4 hours
Blod and urine metabolism by NMR
Both blod and urine are analysed by nuclear magnetic resonance (NMR) metabolomics to enlighten changes in the metabolites.
Time frame: 4 hours
Muscle metabolism by NMR
The muscle metabolites are quantified before intervention, after protein and after protein end exercise.
Time frame: 3 hours
BMI
Control parameter between groups. Measured before the study day.
Time frame: 1 hour
General physical activity
in the last 3 month. Self-reported through a questionnaire.
Time frame: 3 months
Blood glucose
Blood glucose measured at 7 time points over the 4 hour period.
Time frame: 4 hours
Blood Insulin
Blood insulin is measured at 7 time points over the 4 hour period.
Time frame: 4 hours
Food intake, calories and distribution of macro nutrients.
Control parameter between groups. Self-reported diet report.
Time frame: 1 day
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