Isolation rearing induces recognition memory deficits accompanied by cytoskeletal alterations in rat hippocampus

Social isolation from weaning affects hippocampal structure and function in the rat. The intrinsic dynamic instability of the cytoskeletal microtubular system is essential for neuronal development and organization. Accordingly, the present paper investigated the effects of social isolation on hippoc...

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Published in:The European journal of neuroscience 2006-11, Vol.24 (10), p.2894-2902
Main Authors: Bianchi, M., Fone, K. F. C., Azmi, N., Heidbreder, C. A., Hagan, J. J., Marsden, C. A.
Format: Article
Language:English
Subjects:
Analysis of Variance
Animals
Animals, Newborn
Behavior, Animal
Blotting, Western - methods
Body Weight
Cytoskeleton - metabolism
early stress
Exploratory Behavior - physiology
Hippocampus - metabolism
Male
Memory Disorders - metabolism
Memory Disorders - pathology
Memory Disorders - physiopathology
Microtubule-Associated Proteins - metabolism
microtubules
Motor Activity - physiology
novel object recognition
Rats
Recognition, Psychology - physiology
Social Isolation
Time Factors
Tubulin - metabolism
α-tubulin isoforms
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Summary:Social isolation from weaning affects hippocampal structure and function in the rat. The intrinsic dynamic instability of the cytoskeletal microtubular system is essential for neuronal development and organization. Accordingly, the present paper investigated the effects of social isolation on hippocampal levels of α‐tubulin isoforms associated with microtubule dynamics, the dendritic marker MAP‐2 and alterations in locomotor activity and recognition memory. Male Lister Hooded rats (postnatal day 25–28) were housed either in groups or singly (isolated animals) for 30 days. Locomotor activity in a novel arena and novel object recognition were monitored in activity boxes. The hippocampus was dissected out 18 h after the novel object recognition task. Levels of α‐tubulin isoforms and MAP‐2 were analysed using Western blots. The experiments were conducted in duplicate, using two batches of rats obtained from different suppliers. Isolated animals were hyperactive and showed recognition memory deficits in the novel object recognition task. These behavioural alterations were accompanied by specific alterations in hippocampal α‐tubulin isoforms and decreased MAP‐2 expression. The results confirm that rearing rats in isolation produces hyperactivity and cognitive deficits. The behavioural alterations were accompanied by hippocampal cytoskeletal changes consistent with microtubule stabilization, and by decreased MAP‐2 expression. These findings are indicative of an abnormal development of synaptic connections and/or reductions in neuronal cell number. The developmental structural abnormalities in the hippocampus may contribute to the cognitive impairments which result from isolation rearing in rats.
ISSN:0953-816X
1460-9568
DOI:10.1111/j.1460-9568.2006.05170.x