Litcius/Paper detail

Nutritional considerations to counteract gastrointestinal permeability during exertional heat stress

Michelle A. King, Ian Rollo, Lindsay B. Baker

2021Journal of Applied Physiology30 citationsDOIOpen Access PDF

Abstract

Intestinal barrier integrity and function are compromised during exertional heat stress (EHS) potentially leading to consequences that range from minor gastrointestinal (GI) disturbances to fatal outcomes in exertional heat stroke or septic shock. This mini-review provides a concise discussion of nutritional interventions that may protect against intestinal permeability during EHS and suggests physiological mechanisms responsible for this protection. Although diverse nutritional interventions have been suggested to be protective against EHS-induced GI permeability, the ingestion of certain amino acids, carbohydrates, and fluid per se is potentially effective strategy, whereas evidence for various polyphenols and pre/probiotics is developing. Plausible physiological mechanisms of protection include increased blood flow, epithelial cell proliferation, upregulation of intracellular heat shock proteins, modulation of inflammatory signaling, alteration of the GI microbiota, and increased expression of tight junction (TJ) proteins. Further clinical research is needed to propose specific nutritional candidates and recommendations for their application to prevent intestinal barrier disruption and elucidate mechanisms during EHS.

Topics & Concepts

Intestinal permeabilityHeat shock proteinIngestionBarrier functionMedicineTight junctionMembrane permeabilityHeat shockIntracellularGastrointestinal functionPathophysiologyDownregulation and upregulationEndocrinologyImmunologyInternal medicineCell biologyBiologyBiochemistryGeneMembraneMuscle metabolism and nutritionThermoregulation and physiological responsesExercise and Physiological Responses