Sex differences in chronic stress effects on cognition in rodents

Chronic stress causes deleterious changes in physiological function in systems ranging from neural cells in culture to laboratory rodents, sub-human primates and humans. It is notable, however, that the vast majority of research in this area has been conducted in males. In this review, we provide in...

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Veröffentlicht in:	Pharmacology, biochemistry and behavior biochemistry and behavior, 2017-01, Vol.152, p.13-19
Hauptverfasser:	Luine, Victoria, Gomez, Juan, Beck, Kevin, Bowman, Rachel
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Sprache:	eng
Schlagworte:	Animals Cognition Learning Memory Resilience Rodentia - physiology Rodentia - psychology Sex Characteristics Sex differences Spatial memory Stress Stress, Psychological - psychology
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creator	Luine, Victoria Gomez, Juan Beck, Kevin Bowman, Rachel
description	Chronic stress causes deleterious changes in physiological function in systems ranging from neural cells in culture to laboratory rodents, sub-human primates and humans. It is notable, however, that the vast majority of research in this area has been conducted in males. In this review, we provide information about chronic stress effects on cognition in female rodents and contrast it with responses in male rodents. In general, females show cognitive resilience to chronic stressors which impair male cognitive function using spatial tasks including the radial arm maze, radial arm water maze, Morris water maze, Y-maze and object placement. Moreover, stress often enhances female performance in some of these cognitive tasks. Memory in females is not affected by stress in non-spatial memory tasks like recognition memory and temporal order recognition memory while males show impaired memory following stress. We discuss possible bases for these sex-dependent differences including the use of different strategies by the sexes to solve cognitive tasks. Whether the sex differences result from changes in non-mnemonic factors is also considered. Sex-dependent differences in alcohol and drug influences on stress responses are also described. Finally, the role of neurally derived estradiol in driving sex differences and providing resilience to stress in females is shown. The importance of determining the nature and extent of sex differences in stress responses is that such differences may provide vital information for understanding why some stress related diseases have different incidence rates between the sexes and for developing novel therapeutic treatments. •Chronic stress impairs cognition in male rodents.•Chronic stress does not affect or enhances female cognition depending on contingencies of the task.•Estrogens provide cognitive resilience to stress in females.•Cognitive sex differences may contribute to differential incidences of stress-related diseases.
doi_str_mv	10.1016/j.pbb.2016.08.005
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Sex-dependent differences in alcohol and drug influences on stress responses are also described. Finally, the role of neurally derived estradiol in driving sex differences and providing resilience to stress in females is shown. 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Sex-dependent differences in alcohol and drug influences on stress responses are also described. Finally, the role of neurally derived estradiol in driving sex differences and providing resilience to stress in females is shown. 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subjects	Animals Cognition Learning Memory Resilience Rodentia - physiology Rodentia - psychology Sex Characteristics Sex differences Spatial memory Stress Stress, Psychological - psychology
title	Sex differences in chronic stress effects on cognition in rodents
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