Abstract
Exhaustive exercise can cause a transient depression of immune function. Data indicate significant effects of immune activation cascades on the biochemistry of monoamines and amino acids such as tryptophan. Tryptophan can be metabolized through different pathways, a major route being the kynurenine pathway, which is often systemically up-regulated when the immune response is activated. The present study was undertaken to examine the effect of exhaustive aerobic exercise on biomarkers of immune activation and tryptophan metabolism in trained athletes. After a standardized breakfast 2 h prior to exercise, 33 trained athletes (17 women, 16 men) performed an incremental cycle ergometer exercise test at 60 rpm until exhaustion. After a 20 min rest phase, the participants performed a 20 min maximal time-trial on a cycle ergometer (RBM Cyclus 2, Germany). During the test, cyclists were strongly encouraged to choose a maximal pedalling rate that could be maintained for the respective test duration. Serum concentrations of amino acids tryptophan, kynurenine, phenylalanine, and tyrosine were determined by HPLC and immune system biomarker neopterin by ELISA at rest and immediately post exercise. Intense exercise was associated with a strong increase in neopterin concentrations (p<0.001), indicating increased immune activation following intense exercise. Exhaustive exercise significantly reduced tryptophan concentrations by 12% (p<0.001) and increased kynurenine levels by 6% (p = 0.022). Also phenylalanine to tyrosine ratios were lower after exercise as compared with baseline (p<0.001). The kynurenine to tryptophan ratio correlated with neopterin (r = 0.560, p<0.01). Thus, increased tryptophan catabolism by indoleamine 2,3-dioxygenase appears likely. Peak oxygen uptake correlated with baseline tryptophan and kynurenine concentrations (r = 0.562 and r = 0.511, respectively, both p<0.01). Findings demonstrate that exhaustive aerobic exercise is associated with increased immune activation and alterations in monoamine metabolism in trained athletes which may play a role in the regulation of mood and cognitive processes.
Highlights
Exhaustive exercise has been associated with a transient depression of immune function [1]
Neopterin concentrations correlated with KYN to TRP ratio (KYN/TRP) levels (r = 0.608, p
Our results indicate an involvement of IDO1 activation in the enhanced TRP catabolism and KYN production following intense exercise, because a strong association was found between neopterin and KYN/TRP levels throughout the study suggestive of IDO1-induced TRP catabolism
Summary
Exhaustive exercise has been associated with a transient depression of immune function [1]. Already moderate physical activity significantly impacts on inflammation cascades that involve several pro-inflammatory cytokines like interferon-y (IFN-y) and down-stream biochemical pathways [2, 3]. Two studies reported detailed insights into the physiological mechanisms involved under extreme conditions [4, 5]. One study noted a significant increase of the reactive oxygen species (ROS) production rate and oxidative damage after a mountain ultramarathon running [4]. This includes changes in the concentrations of urinary neopterin, which is predominantly produced by human monocytes/macrophages, and elevation of which is often linked with conditions of immune activation and inflammation [6]. A second study revealed changes in serum free amino acids during a half-ironman triathlon [5]
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