Stewart, M. G.; Davies, H. A.; Sandi, C.; Kraev, I. V.; Rogachevsky, V. V.; Peddie, C. J.; Rodriguez, J. J.; Cordero, M. I.; Donohue, H. S.; Gabbott, P. L. and Popov, V. I.
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|DOI (Digital Object Identifier) Link:||http://doi.org/10.1016/j.neuroscience.2004.10.031|
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Chronic stress and spatial training have been proposed to affect hippocampal structure and function in opposite ways. Previous morphological studies that addressed structural changes after chronic restraint stress and spatial training were based on two-dimensional morphometry which does not allow a complete morphometric characterisation of synaptic features. Here, for the first time in such studies, we examined these issues by using three-dimensional (3-D) reconstructions of electron microscope images taken from thorny excrescences of hippocampal CA3 pyramidal cells. Ultrastructural alterations in postsynaptic densities (PSDs) of thorny excrescences receiving input from mossy fibre boutons were also determined, as were changes in numbers of multivesicular bodies (endosome-like structures) within thorny excrescences and dendrites. Quantitative 3-D data demonstrated retraction of thorny excrescences after chronic restraint stress which was reversed after water maze training, whilst water maze training alone increased thorny excrescence volume and number of thorns per thorny excrescence. PSD surface area was unaffected by restraint stress but water maze training increased both number and area of PSDs per thorny excrescence. In restrained rats that were water maze trained PSD volume and surface area increased significantly. The proportion of perforated PSDs almost doubled after water maze training and restraint stress. Numbers of endosome-like structures in thorny excrescences decreased after restraint stress and increased after water maze training. These findings demonstrate that circuits involving contacts between mossy fibre terminals and CA3 pyramidal cells at stratum lucidum level are affected conversely by water maze training and chronic stress, confirming the remarkable plasticity of CA3 dendrites. They provide a clear illustration of the structural modifications that occur after life experiences noted for their different impact on hippocampal function.
|Item Type:||Journal Article|
|Keywords:||stress; water maze training; dendritic spines; PSDs; endosomes|
|Academic Unit/Department:||Science > Life, Health and Chemical Sciences
Other Departments > Student Services
|Interdisciplinary Research Centre:||Biomedical Research Network (BRN)
Centre for Research in Computing (CRC)
|Depositing User:||Michael Stewart|
|Date Deposited:||06 Jul 2006|
|Last Modified:||23 Feb 2016 21:55|
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