Astrocytic plasticity as a possible mediator of the cognitive improvements after environmental enrichment in aged rats

•EE improved the behavioral performance in aged rats.•EE increased the astrocyte number in the dorsal DG.•EE increased the morphological complexity of the astrocytes.•Astrocytic changes could be a mediator of the cognitive improvements after EE. Currently, little is known about the effect of environ...

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Bibliographic Details
Published in:Neurobiology of learning and memory 2014-10, Vol.114, p.16-25
Main Authors: Sampedro-Piquero, P., De Bartolo, Paola, Petrosini, Laura, Zancada-Menendez, C., Arias, J.L., Begega, A.
Format: Article
Language:English
Subjects:
Aging
Aging - psychology
Animal behavior
Animals
Astrocyte
Astrocytes - cytology
Astrocytes - physiology
Cell Shape - physiology
Cognition & reasoning
Cognition - physiology
Dentate Gyrus - cytology
Dentate Gyrus - physiology
Environment
Environmental enrichment
GFAP
Housing, Animal
Maze Learning - physiology
Rats
Rats, Wistar
Rodents
Spatial memory
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Summary:•EE improved the behavioral performance in aged rats.•EE increased the astrocyte number in the dorsal DG.•EE increased the morphological complexity of the astrocytes.•Astrocytic changes could be a mediator of the cognitive improvements after EE. Currently, little is known about the effect of environmental enrichment (EE) on astrocytic plasticity, especially during aging. Given the newly discovered role of the astrocytes in regulating the synaptic transmission and thereby, the cognitive functions, we aimed to study the impact of EE on the performance in a spatial memory task and on the number and morphology of GFAP immunopositive cells in the dorsal hippocampus. After two months of EE (3h/per day), the animals were tested in the Radial-Arm Water Maze (RAWM) for four days, with six daily trials. Next, we analyzed the changes in the GFAP immunopositive cells in CA1, CA3 and Dentate Gyrus (DG). Behavioral results showed that, even in advanced ages, EE improved the performance in a spatial memory task. Also, we found that aged rats submitted to EE had more GFAP immunopositive cells in the DG and more complex astrocytes, revealed by Sholl analysis, in all hippocampal subfields with respect to the other experimental conditions. Interestingly, the learning of a spatial memory task produced more morphological complexity and higher levels of GFAP immunopositive cells with regard to a standard control group, but not at the same level of the enriched groups. Thus, it is possible that the plastic changes found in the hippocampal astrocytes after EE are involved in a brain reserve to cope with age-related cognitive impairments.
ISSN:1074-7427
1095-9564
DOI:10.1016/j.nlm.2014.04.002