Hippocampal distribution of parvalbumin neurons in female and male rats submitted to the same volume and intensity of aerobic exercise

•Same volume and intensity of exercise was offer for male and female rats.•Physical exercise increased hippocampal density of parvalbumin neurons.•The hippocampal regions with more parvalbumin neurons were CA1, CA2/3 and hilus.•Such effects occurred in both sexes. Several studies report the influenc...

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Veröffentlicht in:	Neuroscience letters 2019-01, Vol.690, p.162-166
Hauptverfasser:	Placencia, Eduardo Varejão Díaz, Serra, Fernando Tadeu, Henrique, Jessica Salles, Arida, Ricardo Mario, Gomes da Silva, Sérgio
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Sprache:	eng
Schlagworte:	Brain Exercise Gender Hippocampus Parvalbumin
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creator	Placencia, Eduardo Varejão Díaz Serra, Fernando Tadeu Henrique, Jessica Salles Arida, Ricardo Mario Gomes da Silva, Sérgio
description	•Same volume and intensity of exercise was offer for male and female rats.•Physical exercise increased hippocampal density of parvalbumin neurons.•The hippocampal regions with more parvalbumin neurons were CA1, CA2/3 and hilus.•Such effects occurred in both sexes. Several studies report the influence of gender on physical exercise-induced brain plasticity, including neurotrophic factor levels, neurogenesis, and navigation strategies in spatial memory task. However, it has been noted that females are physically more active than males in animal models of physical exercise. With this in mind, we conducted an experimental study to investigate the effect of sex on the brain of rats submitted to same volume and intensity of aerobic exercise. To do so, we used calcium-binding protein parvalbumin as neuroplastic marker to explore the hippocampal formation (a brain neurogenic/mnemonic region) of male and female rats submitted to 4 weeks of aerobic exercise on a treadmill at 12 m/min, 30 min per day. Our results show that, in both sexes, physical exercise increased hippocampal density of parvalbumin neurons in the cornus ammonis (CA1, CA2/3) and hilus subfields, but not in the dentate gyrus and subiculum. No difference in exercise-induced hipocampal parvalbumin density was found between male and female rats. These findings suggest that aerobic exercise promotes similar effects on hippocampal distribution of parvalbumin neurons of male and female rats, especially when they are submitted to the same volume and intensity of physical exercise.
doi_str_mv	10.1016/j.neulet.2018.10.028
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subjects	Brain Exercise Gender Hippocampus Parvalbumin
title	Hippocampal distribution of parvalbumin neurons in female and male rats submitted to the same volume and intensity of aerobic exercise
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