Ben Greenwood scite author profile

The mechanism(s) for how physically active organisms are resistant to many damaging effects of acute stressor exposure is unknown. Cellular induction of heat-shock proteins (e.g., HSP72) is one successful strategy used by the cell to survive the damaging effects of stress. It is possible, therefore, that the stress-buffering effect of physical activity may be due to an improved HSP72 response to stress. Thus the purpose of the current study was to determine whether prior voluntary freewheel running facilitates the stress-induced induction of HSP72 in central (brain), peripheral, and immune tissues. Adult male Fischer 344 rats were housed with either a mobile running wheel (Active) or a locked, immobile wheel [sedentary (Sed)] for 8 wk before stressor exposure. Rats were exposed to either inescapable tail-shock stress (IS; 100 1.6-mA tail shocks, 5-s duration, 60-s intertrial interval), exhaustive exercise stress (EXS; treadmill running to exhaustion), or no stress (controls). Blood, brain, and peripheral tissues were collected 2 h after stressor termination. The kinetics of HSP72 induction after IS was determined in cultured mesenteric lymph node cells. Activation of the stress response was verified by measuring serum corticosterone (RIA). Tissue and cellular HSP72 content were measured using HSP72 ELISA in cell lysates. Both Active and Sed rats had elevated levels of serum corticosterone after stress. In contrast, Active but not Sed rats exposed to IS and/or EXS had elevated HSP72 in dorsal vagal complex, frontal cortex, hippocampus, pituitary, adrenal, liver, spleen, mesenteric lymph nodes, and heart. In addition, Active rats exposed to IS demonstrated a faster induction of lymphocyte HSP72 compared with Sed rats. Thus Active rats responded to stress with both greater and faster HSP72 responses compared with Sed rats. These results indicate that previous physical activity potentiates HSP72 expression after a wide range of stressors. Facilitated induction of HSP72 may contribute to the increased stress resistance previously reported in physically active organisms.

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Acute stressor exposure facilitates innate immunity more in physically active than in sedentary rats

Fleshner

Campisi

Deak

et al. 2002

American Journal of Physiology-Regulatory, Integrative and Comp

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Most previous stress-immune research focused on the immunosuppressive effects of stress on acquired immunity. More recently, it has become clear that acute stressor exposure can potentiate innate, as well as suppress acquired, immunity. For example, acute stress improves recovery from bacterial inflammation, a classic in vivo measure of innate immunity. The previous work was done in sedentary organisms. Physical activity status can modulate the impact of stress on immune function. The following studies tested the hypothesis that the effect of stress on inflammation after subcutaneous challenge with bacteria ( Escherichia coli) is facilitated by physical activity. The results were that sedentary, stressed rats resolved their inflammation 1–2 days faster and have increased circulating neutrophils compared with their nonstressed, sedentary counterparts. In contrast, physically active, stressed rats resolve their inflammation 3–4 days faster and have increased circulating and inflammatory site neutrophils compared with their nonstressed counterparts. Importantly, the beneficial impact of stress on inflammation recovery and neutrophil migration was greater in the physically active, than sedentary, stressed rats. Thus physical activity status facilitates the positive effect of acute stress on innate immunity.

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Investigation of complex stressor exposure on inflammatory proteins in plasma and white adipose tissue

Speaker

Serebrakian

Herrera

et al. 2011

Brain, Behavior, and Immunity

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150. Disruption of the gut microbiome with oral antibiotic reduces core body temperature and disrupts diurnal rhythms of locomotor activity, but not sleep, in rats

Bowers

Thompson

Mika

et al. 2014

Brain, Behavior, and Immunity

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“The Toy Shop”, a mobile application for detecting and mitigating gender stereotypical thinking in children.

Greenwood

Rubegni

2023

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Data for: Acute exercise augments fear extinction through a mechanism involving central mTOR signaling

Greenwood¹

2021

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Ben Greenwood

Catecholamines mediate stress-induced increases in peripheral and central inflammatory cytokines

Voluntary freewheel running selectively modulates catecholamine content in peripheral tissue and c-fos expression in the central sympathetic circuit following exposure to uncontrollable stress in rats

Habitual physical activity facilitates stress-induced HSP72 induction in brain, peripheral, and immune tissues

Acute stressor exposure facilitates innate immunity more in physically active than in sedentary rats

Investigation of complex stressor exposure on inflammatory proteins in plasma and white adipose tissue

150. Disruption of the gut microbiome with oral antibiotic reduces core body temperature and disrupts diurnal rhythms of locomotor activity, but not sleep, in rats

“The Toy Shop”, a mobile application for detecting and mitigating gender stereotypical thinking in children.

Data for: Acute exercise augments fear extinction through a mechanism involving central mTOR signaling

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