Dietary Proteins: Metagenomic and Metabolomics Approaches for Human Biomarkers Identification

Not Applicable

Completed

• Conditions: Healthy
• Interventions: Dietary Supplement: Protein supplementation

• Registration Number: NCT05611138
• Lead Sponsor: Örebro University, Sweden

Brief Summary

This project aims to create a methodological framework, including the discovery and validation of novel biomarker panels to decipher the impact of plant-based protein intake on health biomarkers. Moreover, the possibility of predicting biomarkers production will be tested by a colonic in vitro fermentation study using study participants' faecal samples.

Detailed Description

This study consists of a double-blind, randomised, 3-arm parallel trial, consisting of 2-wk baseline measurements, 4-wk intervention period (with weekly sample collection), and 2-wk after-intervention follow-up, with healthy subjects in each arm consuming different protein sources (from plant- or animal-based sources). Subjects that are eligible to take part in this study will be blinded and randomly allocated to consume an isolated pea protein (arm 1), animal protein (arm 2) or more complex protein pea protein powder (arm 3). The isolated plant and animal protein will be used to evaluate the specific effects of the proteins from the different sources. The more complex protein pea protein powder will be used as a more complex food matrix, containing other food components than protein, to assess how other pea components may impact the specific protein effects. Regardless of the differences in their structure, all supplement powders will be adjusted to provide the same amount of protein. The protein calculation will be done exclusively for each participant, based on their body weight (kg). They will consume up to 2 g of protein per body weight per day. Subjects will be asked to maintain their usual diet and their food intake will be accompanied during the intervention.

Participants' compliance will be followed by their food diaries and by clinical markers for protein intake and will collect blood, faeces and 24 h urine samples. A subset of the participants (max. 15 per arm) for visits 2 and 6 will be invited to participate in a postprandial challenge. After the fastening blood sample collection, they will receive the daily protein portion as breakfast. For those, 9 blood sample time points will be taken, being at 0, 15, 30, 60, 90, 120, 150, 180, and 480 min. After the 180 min measurement, they will receive a standard meal as lunch (e.g., pasta with tomato sauce).

Study Timeline

• Study Start: 2022-09-15
• Study First Submitted: 2022-11-02
• Study First Submitted QC: 2022-11-08
• Study First Posted: 2022-11-09
• Status Verified: 2023-04
• Primary Completion: 2023-04-14
• Study Completion: 2023-04-14
• Last Update Submitted: 2023-04-27
• Last Update Posted: 2023-04-28

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 59

Inclusion Criteria

• Age 18-45 years
• Body mass index (BMI) 18,5-30 kg/m2
• Weight stable within the previous 3 months
• Maintenance of the usual physical activity habits during the study
• Intake of fibre between 15 and 25 g per day (evaluated by 3 food diaries or 24-hours recalls)
• Omnivores

Exclusion Criteria

• Acute chronic disease, inflammatory or functional gastrointestinal diseases and any other disease or disorder that could affect the outcome of the study
• Use of a medication that may interfere the study outcome
• Eating disorder
• High protein intake (more than 15% of energy or maximum 1,2 g of protein per kg of body weight per day; evaluated by 3 food diaries or 24-hours recalls)
• Use of antibiotic medication during the last 3 months prior the first visit
• Use of antibiotic medication very early in life (e.g., asthmatic children or ear inflammation)
• Use of laxative or anti-diarrhoea medication within the past 3 months before the study
• Regular consumption of probiotic or prebiotic product for the past 6 weeks before the study
• Special diet that is considered to affect the study participation and/or study results, for example, high protein diets
• More than 5 h of moderate-vigorous exercise per week
• Pregnancy or breastfeeding
• Intolerance to dietary supplements that will be used in the study
• Smoking
• Abuse of alcohol or drugs

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Isolated pea protein	Protein supplementation	Dietary supplementation with isolated pea protein powder. Amount: 0.5 g of protein from the supplement per kilogram of body weight, taken in 3 portions during the day, for 4 weeks.
Isolated whey protein	Protein supplementation	Dietary supplementation with isolated whey protein. Amount: 0.5 g of protein from the supplement per kilogram of body weight, taken in 3 portions during the day, for 4 weeks.
Concentrated pea protein	Protein supplementation	Dietary supplementation with concentrated pea protein Amount: 0.5 g of protein from the supplement per kilogram of body weight, taken in 3 portions during the day, for 4 weeks.

Primary Outcome Measures

Name	Time	Method
Changes in the faecal metabolites using targeted and untargeted metabolomics during the intervention	8 weeks	Difference in faecal metabolites depending on the protein supplementation amount and from colonic in vitro fermentation. Targeted and untargeted metabolomics measurements will be used (e.g., short-chain fatty acids and branched chain fatty acids analyses, and polar and non polar metabolomics). Faecal samples will have their metabolites extracted and quantified by liquid chromatography coupled with high-resolution time-of-flight mass spectrometry (UHPLC-qToF-MS), and gas chromatography coupled with high-resolution mass spectroscopy (GC-Orbitrap). The level of metabolites will be compared throughout the whole study.
Changes in the plasma metabolites using targete and untargeted metabolomics during the intervention	4 weeks	Difference in plasma metabolites (blood obtained fastened state) depending on the protein supplementation amount. Targeted and untargeted metabolomics measurements will be used (e.g., lipids, and polar and non polar metabolomics). Plasma samples will have their metabolites extracted and quantified by liquid chromatography coupled with high-resolution time-of-flight mass spectrometry (UHPLC-qToF-MS), and gas chromatography coupled with high-resolution mass spectroscopy (GC-Orbitrap). The level of metabolites will be compared throughout the whole study.
Colonic in vitro fermentation	4 weeks	Subjects will have their fresh faecal samples used in the colonic in vitro fermentation experiment to evaluate whether and how gut metabolites production can be predicted in vitro. The same proteins used in the dietary intervention study will be digested in vitro and used for the batch in vitro colonic fermentation. Supernatant will be used for metabolomics analysis (outcome 1) and selected fermentation time point pellets will be used for microbiota composition and functional analyses (outcome 3).
Profile/composition of the gut microbiota during the intervention	8 weeks	Difference in the gut microbiota profile/composition because of the protein supplementation and from colonic in vitro fermentation will be assessed by 16s/NGS. Alpha and Beta diversity will be measured and compared throughout the 4 weeks of intervention and baselines. In the case of NGS, the genome sequence will be annotated and the resulting set of genes encoding for metabolic enzymes will be extracted. Data from shotgun metagenomics and metabolomics will be integrated by constructing dependency networks, with a special attempt to infer causal relationships among different variables.
Routinely analysed markers for protein intake/compliance during the intervention - urine	4 weeks	Difference in 24 h urine samples markers due to the protein supplementation (e.g., for 24 h urine: urea nitrogen from 24 h urine, creatinine, uric acid)
Routinely analysed markers for protein intake/compliance during the intervention - blood	4 weeks	Difference in blood (serum) samples markers due to the protein supplementation (e.g., urea and creatinine)
Changes in the plasma metabolites using targeted and untargeted metabolomics during the dietary challenge	4 weeks	Difference in plasma metabolites depending on the protein taken as breaskfast. Targeted and untargeted metabolomics measurements will be used (e.g., polar and non polar metabolomics). Plasma samples will have their metabolites extracted and quantified by liquid chromatography coupled with high-resolution time-of-flight mass spectrometry (UHPLC-qToF-MS), and gas chromatography coupled with high-resolution mass spectroscopy (GC-Orbitrap). The level of metabolites will be compared with those found in the fastening state.

Secondary Outcome Measures

Name	Time	Method
Food intake using food diaries	8 weeks	Food diaries 3 times a week.
Assessment of the bowel movement using the Bristol scale diary	8 weeks	The bowel movement will be assessed during the baseline and protein supplementation period by the Bristol scale diary. In the diary they write down the type of stool based on the scale which shows 7 pictures of different forms of stool, from watery diarrhea to compact. Participants are asked to choose the form of stool they have every day during the study.
Assessment of physical activity level	8 weeks	To assess the maintenance or difference of physical activity level during the baseline and dietary intervention by the AKTIVITETSVANOR questionnaire (Swedish questionnaire to assess physical activity frequency for 7 days).
Assessment of the Gastrointestinal Symptom rating scale (GSRS) during the study	8 weeks	The gastrointestinal symptoms will be assessed during the baseline and protein supplementation period. Difference in the frequency and severity of gastrointestinal symptoms during the study will be assessed (15 questions with a scale of 1-7, minimum value 1, maximum 7, higher score correspond to a worse outcome)
Assessment of height	4 weeks	The height will be assessed in meters.
Assessment of body weight during the study	4 weeks	Participants will be weighted in order to have information of their body weight changes in kilograms during the study.
Assessment of body composition	4 weeks	Participants will be have their body composition measured using Tanita® full body scale. The obtained results by Tanita are: weight (kg), muscle mass (%) and kg), body water content (% and kg), fat mass (% and kg), basal energy expenditure (kcal and kJ) and BMI in kg/m\^2.
Fasting blood glucose level	4 weeks	Measurement of glucose in blood samples
Concentration of glucose - dietary challenge	4 weeks	Measurement of glucose in blood samples after the dietary challenge to check its level, compare with the fastening state and evaluate the area under the curve.
Concentration of insulin - dietary challenge	4 weeks	Measurement of insulin in blood samples after the dietary challenge to check its level, compare with the fastening state and evaluate the area under the curve.
Concentrations of faecal calprotectin	4 weeks	Difference in faecal levels of calprotectin during the study intervention
Fasting blood insulin level	4 weeks	Measurement of insulin in blood samples
Fasting blood C-reactive protein level	4 weeks	Measurement of C-reactive protein in blood samples
Fasting blood cholesterol (total, LDL, and HDL) level	4 weeks	Measurement of cholesterol (total, LDL, and HDL) in blood samples (fasting state)
Fasting blood triglycerides level	4 weeks	Measurement of triglycerides in blood samples (fasting state)
Changes in the faecal metabolites using targeted and untargeted metabolomics after the intervention	2 weeks	Difference in faecal metabolites levels after the intervention will be measured. Targeted and untargeted metabolomics measurements will be used (e.g., short-chain fatty acids and branched chain fatty acids analyses, and polar and non polar metabolomics). Faecal samples will have their metabolites extracted and quantified by liquid chromatography coupled with high-resolution time-of-flight mass spectrometry (UHPLC-qToF-MS), and gas chromatography coupled with high-resolution mass spectroscopy (GC-Orbitrap). The level of metabolites will be compared after 1 and 2 weeks of taking the protein supplements.
Breath test	4 weeks	From the subset of the participants, a breath sample will be collected by having them breathe into a breath sample collecting device (ReCIVA, Owlstone, UK), in order to measure volatile organic compounds by thermal desorption-gas chromatography coupled to ultra-resolution mass spectrometry (TD-GC-HRMS-Orbitrap).
Profile/composition of the gut microbiota after the intervention	2 weeks	Difference in the gut microbiota profile/composition 1 and 2 after the protein supplementation will be assessed by 16s/NGS. Alpha and Beta diversity will be measured and compared throughout these 2 weeks after the intervention. In the case of NGS, the genome sequence will be annotated and the resulting set of genes encoding for metabolic enzymes will be extracted. Data from shotgun metagenomics and metabolomics will be integrated by constructing dependency networks, with a special attempt to infer causal relationships among different variables.

Trial Locations

Locations (1)

Campus USÖ, Örebro University; 🇸🇪 Örebro, Sweden