Gene expression profiling of humans under exertional heat stress: Comparisons between persons with and without exertional heat stroke

Gene expression profiling of humans under exertional heat stress: Comparisons between persons with and without exertional heat stroke

Exertional heat stroke (EHS) is a leading cause of preventable morbidity and mortality among both athletes and warfighters. Therefore, it is important to find blood biomarkers to predict susceptibility to EHS. We compared gene expression profiling from blood cells between two groups of participants...

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Veröffentlicht in:Journal of thermal biology 2019-10, Vol.85, p.102423-102423, Article 102423
Hauptverfasser: Ren, Ming Qiang, Kazman, Josh B., Abraham, Preetha A., Atias-Varon, Danit, Heled, Yuval, Deuster, Patricia A.
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Biomarkers
Blood cells
DNA microarrays
Female
Gene expression
Gene Expression Profiling
Genomes
Heat stress
Heat Stroke - genetics
Heat tolerance
Heat-Shock Response
Heatstroke
Humans
Interleukins
Male
Morbidity
Physical Exertion
Relative humidity
Transcriptome
Walking
Young Adult
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container_end_page 102423
container_issue
container_start_page 102423
container_title Journal of thermal biology
container_volume 85
creator Ren, Ming Qiang
Kazman, Josh B.
Abraham, Preetha A.
Atias-Varon, Danit
Heled, Yuval
Deuster, Patricia A.
description Exertional heat stroke (EHS) is a leading cause of preventable morbidity and mortality among both athletes and warfighters. Therefore, it is important to find blood biomarkers to predict susceptibility to EHS. We compared gene expression profiling from blood cells between two groups of participants – those with and those without a history EHS – by using genome-wide microarray analysis. Subjects with a history of EHS (n = 6) and non-EHS controls without a history of EHS (n = 18) underwent a heat tolerance test and a thermoneutral exercise challenge on separate days. The heat tolerance test comprised of 2-h of walking, at 5 km/h and 2% incline, with ambient conditions set at 40 °C, 40% relative humidity; the thermoneutral test was similar, but had ambient conditions set at 22 °C. Next, we examined gene expression profiles, quantified based on arithmetic differences (post minus pre) during the heat test minus changes during the thermoneutral test. Genes related to interleukins and cellular stress were significantly down-regulated in participants with a history of EHS compared to their non-EHS counterparts. Suppression of these genes may be associated with susceptibility to exertional heat injury. Prospective research is required to determine whether similar gene expression profiling can be potentially used as blood biomarkers to predict susceptibility to EHS. •Gene expression profiling may assist in predicting heat tolerance.•Genes for immune/inflammatory and stress responses were suppressed in EHS subjects.•Future research should examine genetic markers to risk-stratify for EHS.
doi_str_mv 10.1016/j.jtherbio.2019.102423
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subjects Adult
Biomarkers
Blood cells
DNA microarrays
Female
Gene expression
Gene Expression Profiling
Genomes
Heat stress
Heat Stroke - genetics
Heat tolerance
Heat-Shock Response
Heatstroke
Humans
Interleukins
Male
Morbidity
Physical Exertion
Relative humidity
Transcriptome
Walking
Young Adult
title Gene expression profiling of humans under exertional heat stress: Comparisons between persons with and without exertional heat stroke
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