Intermittent intense exercise protects against cognitive decline in a similar manner to moderate exercise in chronically stressed mice

•Regular sessions of intermittent intense exercise prevented stress-induced cognitive function losses in a similar manner to moderate exercise.•Exercise effects on cognitive function may be closely related to survival of the newborn cell proliferation and angiogenesis in the hippocampus.•Intense exe...

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Veröffentlicht in:	Behavioural brain research 2018-06, Vol.345, p.59-64
Hauptverfasser:	Lee, Hyunjin, Nagata, Kazufumi, Nakajima, Sanae, Ohno, Makoto, Ohta, Shigeo, Mikami, Toshio
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Sprache:	eng
Schlagworte:	Angiogenesis Cognition Intermittent intense exercise Newborn cell survival Stress
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creator	Lee, Hyunjin Nagata, Kazufumi Nakajima, Sanae Ohno, Makoto Ohta, Shigeo Mikami, Toshio
description	•Regular sessions of intermittent intense exercise prevented stress-induced cognitive function losses in a similar manner to moderate exercise.•Exercise effects on cognitive function may be closely related to survival of the newborn cell proliferation and angiogenesis in the hippocampus.•Intense exercise helps maintain cognitive function in stressful situations in a similar manner to moderate exercise. It is well known that regular low or mild exercise helps to improve and maintain cognition. On the other hand, ever thought many people prefer high-intensity exercise (e.g., running, swimming, biking, soccer, basketball, etc.) to get rid of stress or improve their health, the previous studies reported that intense exercise either impairs cognition or has no effect on cognitive function. However, we previously showed that intermittent intense exercise prevents stress-induced depressive behavior in mice in a similar manner to moderate exercise. On the basis of this finding, we investigated the effect of intermittent intense exercise on cognitive deficit in chronically stressed mice. A total of forty mice were evenly divided into control, stressed, stressed with moderate exercise, and stressed with intense exercise groups. The stressed mice were chronically exposed a restraint stress (10 h/day, 6 days/week for 7 weeks). The exercised mice were subjected to intermittent intense or endurance moderate running on the treadmill three times a week. Cognition was evaluated using the Morris water maze test and the object recognition test. Chronic stress decreased cognition, and newborn cell survival and blood vessel density in the hippocampus. However, both regular intense and moderate exercise prevented decrease of cognition, improved newborn cell survival and blood vessel density. These findings suggest that intermittent intense exercise may protect against decrease of cognition in a similar manner to moderate exercise and that both exercise-induced protection of decrease of cognition is closely related to newborn cell survival and angiogenesis in the hippocampus.
doi_str_mv	10.1016/j.bbr.2018.01.017
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It is well known that regular low or mild exercise helps to improve and maintain cognition. On the other hand, ever thought many people prefer high-intensity exercise (e.g., running, swimming, biking, soccer, basketball, etc.) to get rid of stress or improve their health, the previous studies reported that intense exercise either impairs cognition or has no effect on cognitive function. However, we previously showed that intermittent intense exercise prevents stress-induced depressive behavior in mice in a similar manner to moderate exercise. On the basis of this finding, we investigated the effect of intermittent intense exercise on cognitive deficit in chronically stressed mice. A total of forty mice were evenly divided into control, stressed, stressed with moderate exercise, and stressed with intense exercise groups. The stressed mice were chronically exposed a restraint stress (10 h/day, 6 days/week for 7 weeks). The exercised mice were subjected to intermittent intense or endurance moderate running on the treadmill three times a week. Cognition was evaluated using the Morris water maze test and the object recognition test. Chronic stress decreased cognition, and newborn cell survival and blood vessel density in the hippocampus. However, both regular intense and moderate exercise prevented decrease of cognition, improved newborn cell survival and blood vessel density. 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subjects	Angiogenesis Cognition Intermittent intense exercise Newborn cell survival Stress
title	Intermittent intense exercise protects against cognitive decline in a similar manner to moderate exercise in chronically stressed mice
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