Heat acclimation attenuates physiological strain and the HSP72, but not HSP90a, mRNA response to acute normobaric hypoxia

Heat acclimation (HA) attenuates physiological strain in hot conditions via phenotypic and cellular adaptation. The aim of this study was to determine whether HA reduced physiological strain, and heat shock protein (HSP) 72 and HSP90a mRNA responses in acute normobaric hypoxia. Sixteen male particip...

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Bibliographic Details
Published in:Journal of applied physiology (1985) 2015-10, Vol.119 (8), p.889
Main Authors: Gibson, Oliver R, Turner, Gareth, Tuttle, James A, Taylor, Lee, Watt, Peter W, Maxwell, Neil S
Format: Article
Language:English
Subjects:
Exercise
Genotype & phenotype
Heat shock proteins
Hemoglobin
Hypoxia
Ribonucleic acid
RNA
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Summary:Heat acclimation (HA) attenuates physiological strain in hot conditions via phenotypic and cellular adaptation. The aim of this study was to determine whether HA reduced physiological strain, and heat shock protein (HSP) 72 and HSP90a mRNA responses in acute normobaric hypoxia. Sixteen male participants completed ten 90-min sessions of isothermic HA (40°C/40% relative humidity) or exercise training [control (CON); 20°C/40% relative humidity]. HA or CON were preceded (HYP1) and proceeded (HYP2) by a 30-min normobaric hypoxic exposure [inspired O2 fraction = 0.12; 10-min rest, 10-min cycling at 40% peak O2 uptake (Vo2 peak), 10-min cycling at 65% Vo2 peak]. HA induced greater rectal temperatures, sweat rate, and heart rates (HR) than CON during the training sessions. HA, but not CON, reduced resting rectal temperatures and resting HR and increased sweat rate and plasma volume. Hemoglobin mass did not change following HA nor CON. HSP72 and HSP90a mRNA increased in response to each HA session, but did not change with CON. HR during HYP2 was lower and O2 saturation higher at 65% Vo2 peak following HA, but not CON. O2 uptake/HR was greater at rest and 65% Vo2 peak in HYP2 following HA, but was unchanged after CON. At rest, the respiratory exchange ratio was reduced during HYP2 following HA, but not CON. The increase in HSP72 mRNA during HYP1 did not occur in HYP2 following HA. In CON, HSP72 mRNA expression was unchanged during HYP1 and HYP2. In HA and CON, increases in HSP90a mRNA during HYP1 were maintained in HYP2. HA reduces physiological strain, and the transcription of HSP72, but not HSP90a mRNA in acute normobaric hypoxia.
ISSN:8750-7587
1522-1601