ISSN:
1432-1106
Keywords:
Deprivation
;
Rat
;
Visual cortex
;
Development
;
Synapse morphometry
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Summary The quantitative effects of dark-rearing and light exposure on the ultrastructural characteristics of synapses and synaptic boutons in layer 4 of the rat visual cortex (area 17) have been investigated using stereological techniques. Two experimental groups (each containing 5 animals) were investigated i) animals dark-reared upto weaning at 21 days post natum (21DPN) and then light exposed until 52DPN (Group 21/31), and ii) littermate animals totally dark-reared until 52DPN (Group 52dD). The results indicate a significantly higher mean density of synapses in the neuropil of layer 4 in group 21/31 (3.58×108 · mm-3) compared with group 52dD (2.68×108 · mm-3). Although the density per unit volume of synapses with identified asymmetrical synaptic membrane specialisations was not significantly different in group 21/31 than in group 52dD (but was significantly lower than animals reared normally), the density of synapses with identified symmetrical synaptic membrane specialisations was about 200% higher in group 21/31 versus group 52dD. However, significant differences were detected in the number of asymmetrical synapses established by single synaptic boutons in group 21/31 (1.21 ± 0.11) compared with group 52dD (1.10 ± 0.09). On the basis of the numbers of post-synaptic targets contacted by an individual synaptic bouton, a significantly higher density of synaptic boutons was found in group 21/31 (2.32×108 · mm-3) compared with group 52dD (1.82×108 · mm-3). Furthermore, planar quantitative data indicated significant inter-group differences in the ultrastructure of asymmetrical and symmetrical synaptic boutons. The results of this study provide evidence indicating marked structural alterations in the synaptic connectivity of layer 4 of the rat visual cortex following the light exposure of rats dark-reared upto weaning. Indeed visual deprivation severely affected the ‘inhibitory’ circuitry in the major thalamorecipient territory of the visual cortex.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00255237
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