Pea proteins oral supplementation promotes muscle thickness gains during resistance training: a double-blind, randomized, Placebo-controlled clinical trial vs. Whey protein.

BACKGROUND: The effects of protein supplementation on muscle thickness and strength seem largely dependent on its composition. The current study aimed at comparing the impact of an oral supplementation with vegetable Pea protein (NUTRALYS®) vs. Whey protein and Placebo on biceps brachii muscle thickness and strength after a 12-week resistance training program. METHODS: One hundred and sixty one males, aged 18 to 35 years were enrolled in the study and underwent 12 weeks of resistance training on upper limb muscles. According to randomization, they were included in the Pea protein (n = 53), Whey protein (n = 54) or Placebo (n = 54) group. All had to take 25 g of the proteins or placebo twice a day during the 12-week training period. Tests were performed on biceps muscles at inclusion (D0), mid (D42) and post training (D84). Muscle thickness was evaluated using ultrasonography, and strength was measured on an isokinetic dynamometer. RESULTS: Results showed a significant time effect for biceps brachii muscle thickness (P < 0.0001). Thickness increased from 24.9 ± 3.8 mm to 26.9 ± 4.1 mm and 27.3 ± 4.4 mm at D0, D42 and D84, respectively, with only a trend toward significant differences between groups (P = 0.09). Performing a sensitivity study on the weakest participants (with regards to strength at inclusion), thickness increases were significantly different between groups (+20.2 ± 12.3%, +15.6 ± 13.5% and +8.6 ± 7.3% for Pea, Whey and Placebo, respectively; P < 0.05). Increases in thickness were significantly greater in the Pea group as compared to Placebo whereas there was no difference between Whey and the two other conditions. Muscle strength also increased with time with no statistical difference between groups. CONCLUSIONS: In addition to an appropriate training, the supplementation with pea protein promoted a greater increase of muscle thickness as compared to Placebo and especially for people starting or returning to a muscular strengthening. Since no difference was obtained between the two protein groups, vegetable pea proteins could be used as an alternative to Whey-based dietary products. TRIAL REGISTRATION: The present trial has been registered at ClinicalTrials.gov (NCT02128516).

Nutriose, a prebiotic low-digestible carbohydrate, stimulates gut mucosal immunity and prevents TNBS-induced colitis in piglets.

BACKGROUND: We investigated a prebiotic low-digestible carbohydrate (LDC) as a possible food ingredient to stimulate bowel functions in the treatment of inflammatory bowel disease. The study aimed to assess a fermentable dextrin fiber (Nutriose) and its relationship to the immune management of the disease and the microbiota profile in colitis-bearing piglets. METHODS: In a randomized placebo-controlled parallel blind preclinical study, 32 male piglets were fed LDC (4% Nutriose) or dextrose placebo for 44 days before being challenged with trinitrobenzene sulfonic acid (TNBS) to induce colitis. We followed the microbiota profile using real-time polymerase chain reaction (PCR) targeted to 9 bacterial genera. Secretory IgA was evaluated by enzyme-linked immunosorbent assay (ELISA). Inflammatory protein profiles were monitored in blood and colonic tissues. Both histological scoring of biopsy samples and live endoscopic scoring were used to measure colitis development. RESULTS: Prior and continuing LDC supplementation alleviated the symptoms of colitis (body weight loss, bloody stools) induced by a TNBS challenge. This effect was associated with an improvement in endoscopic and histological scores. LDC was shown to selectively downregulate some of the proinflammatory factors and their concomitant pyretic events and to stimulate the Th2-related immune pathway (IL-10 and s-IgA). CONCLUSIONS: At the dose tested, LDC is a well-tolerated prebiotic agent able to not only stimulate butyrogenic bacteria strains and reduce intestinal transit disorders and energy intake, but also to prevent chronic inflammatory intestinal injuries.

Impact of sugar replacers on cognitive performance and function in rats.

Glycaemic responses to the dextrin NUTRIOSE 6 (Dex) and the MALTISORB maltitol (Mal) have been studied previously but their effects on vigilance and cognitive performances are still not known. The present study assesses dose-related glycaemic responses following Dex administration and the hypothesis that Dex and Mal could modulate the glycaemic response, improve vigilance under stress conditions and improve cognitive performances in rats. The glycaemic responses following Dex and corn syrup GLUCIDEX IT 21 (CoS) solutions at 0.3, 0.5 and 1.0 g/kg body weight administered by oral administration (experiment 1) and glycaemic responses to three cereal bars (standard (CoS), Dex or Dex/Mal bar) (experiment 2) were evaluated. Rats having eaten cereal bars were submitted to vigilance and aversive light stimulus avoidance conditioning tests to assess their vigilance and cognitive performances. The first experiment showed that the glycaemic response to both products is dose-related and that CoS induced a glycaemic response three times higher than the Dex response. The second experiment showed the same glycaemic response for the three cereal bar-treated rats. Yet, an increase in the vigilance of Dex/Mal-treated rats as well as a better discrimination between two levers in the cognitive test for Dex- and Dex/Mal-treated rats were noticed. These results suggest that the glycaemic response is not the only factor to be considered in predicting the efficiency of a food ingredient on vigilance and cognitive performances: these behaviours are improved after Dex- and Mal-prepared cereal bar ingestion whereas the glycaemic response does not differ from the CoS-prepared bar.

Expression of the pyranose 2-oxidase from Trametes pubescens in Escherichia coli and characterization of the recombinant enzyme.

cDNA-encoding pyranose 2-oxidase (P2O) from Trametes pubescens was sequenced and cloned into Escherichia coli strain BL21/DE3 on a multicopy plasmid under the control of trc promoter. The synthesis of P2O was studied in a batch culture in M9-based mineral medium: the enzyme was synthesized constitutively at 28 degrees C in amount corresponding to 8% of the cell soluble protein (0.6 Umg(-1)). Only small portion of P2O (11%) was in the form of non-active inclusion bodies. Purified recombinant enzyme has similar physico-chemical and kinetic parameters with other P2Os. When compared to the expression of p2o of Trametes ochracea, a ratio of the mature enzyme to inclusion bodies found in the same E. coli host at 28 degrees C is as much as nine times higher. The finding makes the enzyme from T. pubescens preferable for the large-scale production by recombinant bacteria. The difference in amino acid sequences of the P2O from T. ochracea and T. pubescens may explain the favourable trait of the latter enzyme regarding protein folding.

Dietary supplementation of different doses of NUTRIOSE FB, a fermentable dextrin, alters the activity of faecal enzymes in healthy men.

BACKGROUND: It is well documented that fermentation of carbohydrates that escape digestion exert several effects supposed to be beneficial for (colonic) health, including an increase in stool volume, a shorter intestinal transit time, production of short chain fatty acids and a decrease of colonic pH (Kritchevsky 1988). NUTRIOSE FB is a dextrin that is not completely hydrolysed and absorbed in the small intestine, due to many alpha-1.6 linkages and the presence of non-digestible glucoside linkages (e. g. alpha-1.2 and alpha-1.3). To be beneficial for 'colonic' health effective NUTRIOSE FB must reach the cecum in some form. AIM OF THE STUDY: To estimate how much non digested NUTRIOSE FB is fermented and to determine the fibre-like effect of the wheat dextrin NUTRIOSE((R))FB by analysing enzymatic activity in faeces. METHODS: In a randomized, double-blind,multiple dose, placebo-controlled, combined cross-over and parallel trial, 20 healthy men (age 31.7 +/- 9.1 yrs; BMI 24.5 +/- 2.9 kg.m(-2) received different treatments. One group of ten subjects consumed on top of their diet 10, 30 and 60 g daily of NUTRIOSE FB or maltodextrin (placebo). The other group of 10 subjects consumed 15, 45 and 80 g daily. Each dose was consumed for 7 days. On the last two days of each of the 7-day period, faeces were collected in which the enzymatic activity and NUTRIOSE FB residue were analysed. RESULTS: As expected, the faecal residue of NUTRIOSE FB non-linearly increased with the dose of NUTRIOSE FB to approximately 13% of 80 g/d. Compared with the placebo, 30, 45, 60 and 80 g/d of NUTRIOSE FB increased the concentration of alpha-glucosidase significantly. All daily doses of NUTRIOSE FB (10 g/d to 80 g/d) led to significant changes in concentration of beta-glucosidase. CONCLUSIONS: The small amount of the residue of NUTRIOSE FB in the faeces suggests that approximately 87% or more of NUTRIOSE FB is digested or fermented in the gastrointestinal tract. Fermentation of NUTRIOSE FB led to an increased faecal concentration of alpha- and beta-glucosidase.