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Multi-level Molecular Profiling of Peak Performance in Endurance Sports

Not Applicable
Conditions
Exercise
Healthy
Physical Fitness
Exercise Test
Interventions
Diagnostic Test: Performance testing
Registration Number
NCT05359744
Lead Sponsor
Paracelsus Medical University
Brief Summary

Physical activity triggers complex molecular responses, including changes in immune-, stress-, and metabolic pathways. For example, autophagy is essential for energy and cellular homeostasis through protein catabolism, and dysregulation results in compromised proteostasis, reduced exercise performance, and excessive secretion of signaling molecules and inflammatory proteins. However, previous research has been limited by the extend of molecules measured and biological processes covered. A better understanding of these processes through multi-omic analysis can improve knowledge of molecular changes in response to exercise. The main purpose of the investigators study is to analyze the effects of acute exercise in correlation to autophagy and other signaling cascades. Specifically, the investigators plan to perform multi-level molecular profiling in a cohort of healthy male elite cyclists and male and female recreational athletes, before, during, and after a bicycle ergometer test. The results will be compared to a control cohort without intervention.

Detailed Description

This is a non-randomized controlled trial performed at the Paracelsus Medical University, Salzburg, Austria. The study will recruit 80 healthy men and women. Subjects who meet the inclusion criteria will be allocated to four arms (n = 20 in all groups): 1. elite cyclists, 2. male recreational athletes, 3. female recreational athletes, 4. male control group.

After overnight fasting and medical check-up, groups 1-3 will undergo a bicycle ergometer-based exercise protocol designed to span low (aerobic) to severe (anaerobic) domains of exercise. The protocol consists of a 15 min aerobic warm-up phase followed by a ramp-bicycle ergometer protocol.

During exercise, performance-relevant data will be continuously monitored. Venous blood specimens will be collected before exercise (baseline), at the end of the warm-up as well as 2 min, 10 min, and 30 min in recovery.

Recruitment & Eligibility

Status
UNKNOWN
Sex
All
Target Recruitment
80
Inclusion Criteria
  • All arms: ability to give written informed consent
  • Arms 1- 3: inconspicuous medical examination (medical history, resting ECG, echocardiography)
  • Elite athletes (arm1, cyclists): maximum oxygen uptake > 65 ml/kg/KG
  • Elite athletes (arm1, cyclists): participation in cycling competitions on a regular basis
  • Recreational athletes (arms 2 and 3): maximum oxygen uptake < 65 ml/kg/KG for male subjects and < 55 ml/kg/KG for female subjects
Exclusion Criteria
  • All arms: unable to communicate adequately by language
  • All arms: regular use of prescription drugs other than thyroxine or antihistamines
  • All arms: alcohol consumption as equivalent doses averaging more than 40 g of pure alcohol per day
  • All arms: use of illicit drugs
  • All arms: known diseases of the cardiovascular system
  • All arms: arterial hypertension over 160/90 mmHg at rest
  • All arms: known pulmonary diseases, especially bronchial asthma
  • All arms: surgery less than 4-6 months ago.
  • All arms: abnormalities in the medical examination (medical history, resting ECG, echocardiography)
  • Arms 1-3: orthopaedic diseases that preclude maximum exercise on a bicycle ergometer
  • Elite athletes (arm1, cyclists): maximum oxygen uptake < 65 ml/kg/KG
  • Recreational athletes (arms 2 and 3): maximum oxygen uptake > 65 ml/kg/KG for male subjects and > 55 ml/kg/KG for female subjects
  • Arm 3: positive urine ß-HCG

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
Elite cyclists, malePerformance testingBicycle ergometer-based exercise testing. 15 min aerobic warm-up phase (2 W/kg) followed by a standardized but individualized ramp-bicycle ergometer protocol to reach maximal exercise capacity after 8 - 12 minutes. The exclusively aerobic energy supply during warm-up will be assessed by constant respiratory quotient and constant arterial lactate concentration (\<0.5 mmol in the last 5 min). During exercise, respiratory gas exchange, heart rate, blood pressure, ECG and ratings of perceived exertion will be continuously monitored. Venous blood specimens will be collected before exercise (baseline), at the end of the warm-up as well as 2 min, 10 min, and 30 min in recovery.
Recreational athletes, femalePerformance testingBicycle ergometer-based exercise testing. 15 min aerobic warm-up phase (1 W/kg) followed by a standardized but individualized ramp-bicycle ergometer protocol to reach maximal exercise capacity after 8 - 12 minutes. The exclusively aerobic energy supply during warm-up will be assessed by constant respiratory quotient and constant arterial lactate concentration (\<0.5 mmol in the last 5 min). During exercise, respiratory gas exchange, heart rate, blood pressure, ECG and ratings of perceived exertion will be continuously monitored. Venous blood specimens will be collected before exercise (baseline), at the end of the warm-up as well as 2 min, 10 min, and 30 min in recovery.
Recreational athletes, malePerformance testingBicycle ergometer-based exercise testing. 15 min aerobic warm-up phase (1 W/kg) followed by a standardized but individualized ramp-bicycle ergometer protocol to reach maximal exercise capacity after 8 - 12 minutes. The exclusively aerobic energy supply during warm-up will be assessed by constant respiratory quotient and constant arterial lactate concentration (\<0.5 mmol in the last 5 min). During exercise, respiratory gas exchange, heart rate, blood pressure, ECG and ratings of perceived exertion will be continuously monitored. Venous blood specimens will be collected before exercise (baseline), at the end of the warm-up as well as 2 min, 10 min, and 30 min in recovery.
Primary Outcome Measures
NameTimeMethod
Proteomics and autophagy processesBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Change in protein levels of autophagy biomarkers (LC3II \& p62) of isolated PBMCs (peripheral blood mononuclear cells) by Western Blotting.

Secondary Outcome Measures
NameTimeMethod
Proteome patternsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Change in protein levels and protein phosphorylation by untargeted mass spectrometry-based proteomics and phosphoproteomics of isolated PBMCs (peripheral blood mononuclear cells).

Metabolic processesBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Targeted and quantitative analysis by mass spectrometry of change in metabolites of Plasma.

Lipid profilingBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Targeted and quantitative analysis by mass spectrometry of change in plasma Lipids.

Phosphoproteome patternsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Change in protein phosphorylation by untargeted mass spectrometry-based phosphoproteomics of isolated PBMCs (peripheral blood mononuclear cells).

Ubiquitinome patternsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Change in protein ubiquitination levels by untargeted mass spectrometry-based proteomics of isolated PBMCs (peripheral blood mononuclear cells).

Epigenetic patternsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Evaluate epigentic methylation patterns through blood based epigenome analysis

Exosomal protein patternsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Evaluate exosomal protein content through mass spectrometry based analysis

Salivary cortisol levelsBefore the exercise test (baseline), at the end of the 15 minute warm-up phase and 2 minutes, 10 minutes and 30 minutes after termination of the exercise test.

Salivary cortisol levels in nmol per Liter (nmol/L) after will be evaluated and compared to the control group

Trial Locations

Locations (1)

Paracelsus Medical University

🇦🇹

Salzburg, Austria

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