Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on sleep in brain health

LIVE: Thursday 2nd May 2024, 18:00-19:30 (CEST)

Quality sleep is essential for health. But what happens to our brains when sleep patterns are disturbed? Join our experts to explore the interplay between sleep disruption and neurological diseases, and the questions that you need to be asking your patients to help you prevent the harmful effects of sleep deprivation.
ADVANCED SEARCH
Log in
Top
European Journal of Applied Physiology
Published in: European Journal of Applied Physiology 12/2017

Open Access 01-12-2017 | Original Article

Glutamine supplementation reduces markers of intestinal permeability during running in the heat in a dose-dependent manner

Authors: Jamie N. Pugh, Stephen Sage, Mark Hutson, Dominic A. Doran, Simon C. Fleming, Jamie Highton, James P. Morton, Graeme L. Close

Published in: European Journal of Applied Physiology | Issue 12/2017

Login to get access

Abstract

Purpose

To examine the dose–response effects of acute glutamine supplementation on markers of gastrointestinal (GI) permeability, damage and, secondary, subjective symptoms of GI discomfort in response to running in the heat.

Methods

Ten recreationally active males completed a total of four exercise trials; a placebo trial and three glutamine trials at 0.25, 0.5 and 0.9 g kg−1 of fat-free mass (FFM) consumed 2 h before exercise. Each exercise trial consisted of a 60-min treadmill run at 70% of \(\dot {V}{{\text{O}}_{{\text{2max}}}}\) in an environmental chamber set at 30 °C. GI permeability was measured using ratio of lactulose to rhamnose (L:R) in serum. Plasma glutamine and intestinal fatty acid binding protein (I-FABP) concentrations were determined pre and post exercise. Subjective GI symptoms were assessed 45 min and 24 h post-exercise.

Results

Relative to placebo, L:R was likely lower following 0.25 g kg−1 (mean difference: − 0.023; ± 0.021) and 0.5 g kg−1 (− 0.019; ± 0.019) and very likely following 0.9 g kg− 1 (− 0.034; ± 0.024). GI symptoms were typically low and there was no effect of supplementation.

Discussion

Acute oral glutamine consumption attenuates GI permeability relative to placebo even at lower doses of 0.25 g kg−1, although larger doses may be more effective. It remains unclear if this will lead to reductions in GI symptoms. Athletes competing in the heat may, therefore, benefit from acute glutamine supplementation prior to exercise in order to maintain gastrointestinal integrity.
Literature
Altenhoefer A, Oswald S, Sonnenborn U, Enders C, Schulze J, Hacker J, Oelschlaeger TA (2004) The probiotic Escherichia coli strain Nissle 1917 interferes with invasion of human intestinal epithelial cells by different enteroinvasive bacterial pathogens. FEMS Immunol Med Microbiol 40:223–229. doi:10.​1016/​S0928-8244(03)00368-7 CrossRefPubMed
Brock-Utne J et al (1988) Endotoxaemia in exhausted runners after a long-distance race. S Afr Med J 73:533–536PubMed
Brouns F, Beckers E (1993) Is the gut an athletic organ? Sports Med 15:242–257CrossRef
de Oliveira EP, Burini RC (2011) Food-dependent, exercise-induced gastrointestinal distress. J Int Soc Sports Nutr 8:1CrossRef
Fleming SC, Duncan A, Russell RI, Laker MF (1996) Measurement of sugar probes in serum: an alternative to urine measurement in intestinal permeability testing. Clin Chem 42:445–448CrossRef
Fürst P, Stehle P (1995) Glutamine supplemented nutrition in clinical practice—use of glutamine-containing dipeptides. Infusionsther Transfusionsmed 22:317–324PubMed
Gil SM, Yazaki E, Evans DF (1998) Aetiology of running-related gastrointestinal dysfunction. How far is the finishing line? Sports Med 26:365–378CrossRef
Gleeson M (2008) Dosing and efficacy of glutamine supplementation in human exercise and sport training. J Nutr 138:2045S-2049SCrossRef
Gonzalez-Mariscal L, Betanzos A, Nava P, Jaramillo BE (2003) Tight junction proteins Prog. Biophys Mol Biol 81:1–44CrossRef
Hopkins WG (2006) Spreadsheets for analysis of controlled trials with adjustment for a predictor. Sportscience 10:46–50
Howley ET, Bassett DR Jr, Welch HG (1995) Criteria for maximal oxygen uptake: review and commentary. Med Sci Sports Exerc 27:1292–1301CrossRef
Jeukendrup A, Vet-Joop K, Sturk A, Stegen J, Senden J, Saris W, Wagenmakers A (2000) Relationship between gastro-intestinal complaints and endotoxaemia, cytokine release and the acute-phase reaction during and after a long-distance triathlon in highly trained men. Clin Sci 98:47–55. doi:10.​1042/​Cs19990258 CrossRef
Marchbank T, Davison G, Oakes JR, Ghatei MA, Patterson M, Moyer MP, Playford RJ (2011) The nutriceutical bovine colostrum truncates the increase in gut permeability caused by heavy exercise in athletes. Am J Physiol-Gastrointest Liver Physiol 300:G477-G484 doi:10.​1152/​ajpgi.​00281.​2010 CrossRef
Menard S, Cerf-Bensussan N, Heyman M (2010) Multiple facets of intestinal permeability and epithelial handling of dietary antigens Mucosal. Immunology 3:247
Morrison SA, Cheung SS, Cotter JD (2014) Bovine colostrum, training status, and gastrointestinal permeability during exercise in the heat: a placebo-controlled double-blind study. Appl Physiol Nutr Metabol 39:1070–1082. doi:10.​1139/​apnm-2013-0583 CrossRef
Murray R (2006) Training the gut for competition Current. Sports Med Rep 5:161–164CrossRef
Newsholme P, Procopio J, Lima MMR, Pithon-Curi TC, Curi R (2003) Glutamine and glutamate—their central role in cell metabolism and function. Cell Biochem Funct 21:1–9CrossRef
Palma G, Collins SM, Bercik P, Verdu EF (2014) The microbiota–gut–brain axis in gastrointestinal disorders: stressed bugs, stressed brain or both? J Physiol 592:2989–2997CrossRef
Pals KL, Chang R-T, Ryan AJ, Gisolfi CV (1997) Effect of running intensity on intestinal permeability. J Appl Physiol 82:571–576CrossRef
Parry-Billings M et al (1992) Plasma amino acid concentrations in the overtraining syndrome: possible effects on the immune system. Med Sci Sports Exerc 24:1353–1358CrossRef
Pfeiffer B, Cotterill A, Grathwohl D, Stellingwerff T, Jeukendrup AE (2009) The effect of carbohydrate gels on gastrointestinal tolerance during a 16-km run. Int J Sport Nutr Exerc Metab 19:485–503CrossRef
Pires W et al. (2016) Association between exercise-induced hyperthermia and intestinal permeability: a systematic review sports medicine, pp 1–15
Pugh JN, Impey SG, Doran DA, Fleming SC, Morton JP, Close GL (2017) Acute high-intensity interval running increases markers of gastrointestinal damage and permeability but not gastrointestinal symptoms. Appl Physiol Nutr Metabol. doi:10.​1139/​apnm-2016-0646 CrossRef
Rao R, Samak G (2012) Role of glutamine in protection of intestinal epithelial tight junctions. J Epithel Biol Pharm 5:47CrossRef
Riddoch C, Trinick T (1988) Gastrointestinal disturbances in marathon runners Br. J Sports Med 22:71–74
Selkirk GA, McLellan TM, Wright HE, Rhind SG (2008) Mild endotoxemia, NF-kappaB translocation, and cytokine increase during exertional heat stress in trained and untrained individuals. Am J Physiol Regul Integr Comp Physiol 295:R611-623. doi:10.​1152/​ajpregu.​00917.​2007 CrossRef
Shing CM et al (2014) Effects of probiotics supplementation on gastrointestinal permeability, inflammation and exercise performance in the heat European. J Appl Physiol 114:93–103CrossRef
van Deventer SJ, ten Cate JW, Tytgat GN (1988) Intestinal endotoxemia. Clin Signif Gastroenterol 94:825–831
van Wijck K et al (2012) Physiology and pathophysiology of splanchnic hypoperfusion and intestinal injury during exercise: strategies for evaluation and prevention. Am J Physio-Gastrointest Liver Physiol 303:G155-G168. doi:10.​1152/​ajpgi.​00066.​2012 CrossRef
Vargas NT, Marino F (2014) A neuroinflammatory model for acute fatigue during exercise. Sports Med 44:1479–1487CrossRef
Walsh NP, Blannin AK, Robson PJ, Gleeson M (1998) Glutamine, exercise and immune function. Links possible mechanisms Sports Med 26:177–191PubMed
Wischmeyer PE (2002) Glutamine and heat shock. Protein Expr Nutr 18:225–228
Zuhl MN, Lanphere KR, Kravitz L, Mermier CM, Schneider S, Dokladny K, Moseley PL (2014b) Effects of oral glutamine supplementation on exercise-induced gastrointestinal permeability and tight junction protein expression. J Appl Physiol 116:183–191. doi:10.​1152/​japplphysiol.​00646.​2013 CrossRefPubMed
Zuhl M, Dokladny K, Mermier C, Schneider S, Salgado R, Moseley P (2015) The effects of acute oral glutamine supplementation on exercise-induced gastrointestinal permeability and heat shock protein expression in peripheral blood mononuclear cells. Cell Stress Chaperones 20:85–93. doi:10.​1007/​s12192-014-0528-1 CrossRefPubMed
Metadata
Title
Glutamine supplementation reduces markers of intestinal permeability during running in the heat in a dose-dependent manner
Authors
Jamie N. Pugh
Stephen Sage
Mark Hutson
Dominic A. Doran
Simon C. Fleming
Jamie Highton
James P. Morton
Graeme L. Close
Publication date
01-12-2017
Publisher
Springer Berlin Heidelberg
Published in
European Journal of Applied Physiology / Issue 12/2017
Print ISSN: 1439-6319
Electronic ISSN: 1439-6327
DOI
https://doi.org/10.1007/s00421-017-3744-4

Other articles of this Issue 12/2017

European Journal of Applied Physiology 12/2017 Go to the issue

Original Article

Concomitant external pneumatic compression treatment with consecutive days of high intensity interval training reduces markers of proteolysis

Original Article

A random-perturbation therapy in chronic non-specific low-back pain patients: a randomised controlled trial

Original Article

Acute and chronic changes in baroreflex sensitivity in hypobaric vs. normobaric hypoxia

Original Article

Effects of normoxic and hypoxic exercise regimens on lymphocyte apoptosis induced by oxidative stress in sedentary males

Original Article

The effects of muscle blood flow restriction during running training on measures of aerobic capacity and run time to exhaustion

Original Article

Acute effects of repeated cycling sprints in hypoxia induced by voluntary hypoventilation