Plasma Endogenous Endotoxin Core Antibody Response to Exercise in Endurance Athletes
Pascale Young, Christopher Rauch, Isabella Russo, Stephanie K. Gaskell, Zoe E. Davidson, Ricardo J. S. Costa
Abstract
Abstract The study aimed to investigate the impact of laboratory-controlled exertional and exertional-heat stress on concentrations of plasma endogenous endotoxin core antibody (EndoCAb). Forty-four (males n=26 and females n=18) endurance trained (V̇ O 2max 56.8min/kg/min) participants completed either: P1–2h high intensity interval running in 23°C ambient temperature (Tamb), P2–2h running at 60% V̇ O2max in 35°C Tamb, or P3–3h running at 60% V̇ O2max in 23°C Tamb. Blood samples were collected pre- and post-exercise to determine plasma IgM, IgA, and IgG concentrations. Overall resting pre-exercise levels for plasma Ig were 173MMU/ml, 37AMU/ml, and 79GMU/ml, respectively. Plasma IgM concentration did not substantially change pre- to post-exercise in all protocols, and the magnitude of pre- to post-exercise change for IgM was not different between protocols (p=0.135). Plasma IgA and IgG increased pre- to post-exercise in P2 only (p=0.017 and p=0.016, respectively), but remained within normative range (35–250MU/ml). P2 resulted in greater disturbances to plasma IgA (p=0.058) and IgG (p=0.037), compared with P1 and P3. No substantial differences in pre-exercise and exercise-associated change was observed for EndoCAb between biological sexes. Exertional and exertional-heat stress resulted in modest disturbances to systemic EndoCAb responses, suggesting EndoCAb biomarkers presents a low sensitivity response to controlled-laboratory experimental designs within exercise gastroenterology.