TY - JOUR
T1 - Experience-dependent emergence of fine-scale networks in visual cortex
AU - Ishikawa, Ayako Wendy
AU - Yoshimura, Yumiko
AU - Komatsu, Yukio
AU - Yoshimura, Yumiko
AU - Yoshimura, Yumiko
AU - Yoshimura, Yumiko
N1 - Publisher Copyright:
© 2014 by the Society for Neuroscience. All rights reserved.
PY - 2014/9/10
Y1 - 2014/9/10
N2 - Visual cortical neurons selectively respond to particular features of visual stimuli and this selective responsiveness emerges from specific connectivity in the cortex. Most visual response properties are basically established by eye opening and are thereafter modified or refined by visual experience based on activity-dependent synaptic modifications during an early postnatal period. Visual deprivation during this period impairs development of visual functions, such as visual acuity.Wepreviously demonstrated that fine-scale networks composed of a population of interconnected layer 2/3 (L2/3) pyramidal neurons receiving common inputs from adjacent neurons are embedded in a small area in rat visual cortex. We suggested that this network could be a functional unit for visual information processing. In this study, we investigated the effects of early visual experience on the development of fine-scale networks and individual synaptic connections in rat visual cortical slices. We used two kinds of deprivation, binocular deprivation and dark rearing, which allowed visual inputs with only diffuse light and no visual input, respectively. The probability and strength of excitatory connections to L2/3 pyramidal cells increased during the 2 weeks after eye opening, and these changes were prevented by dark rearing, but not binocular deprivation. Fine-scale networks were absent just after eye opening and established during the following 2 weeks in rats reared with normal visual experience, but not with either type of deprivation. These results indicate that patterned vision is required for the emergence of the fine-scale network, whereas diffuse light stimulation is sufficient for the maturation of individual synapses.
AB - Visual cortical neurons selectively respond to particular features of visual stimuli and this selective responsiveness emerges from specific connectivity in the cortex. Most visual response properties are basically established by eye opening and are thereafter modified or refined by visual experience based on activity-dependent synaptic modifications during an early postnatal period. Visual deprivation during this period impairs development of visual functions, such as visual acuity.Wepreviously demonstrated that fine-scale networks composed of a population of interconnected layer 2/3 (L2/3) pyramidal neurons receiving common inputs from adjacent neurons are embedded in a small area in rat visual cortex. We suggested that this network could be a functional unit for visual information processing. In this study, we investigated the effects of early visual experience on the development of fine-scale networks and individual synaptic connections in rat visual cortical slices. We used two kinds of deprivation, binocular deprivation and dark rearing, which allowed visual inputs with only diffuse light and no visual input, respectively. The probability and strength of excitatory connections to L2/3 pyramidal cells increased during the 2 weeks after eye opening, and these changes were prevented by dark rearing, but not binocular deprivation. Fine-scale networks were absent just after eye opening and established during the following 2 weeks in rats reared with normal visual experience, but not with either type of deprivation. These results indicate that patterned vision is required for the emergence of the fine-scale network, whereas diffuse light stimulation is sufficient for the maturation of individual synapses.
KW - Fine-scale network
KW - Patterned vision
KW - Photostimulation
KW - Synaptic connection
KW - Visual cortex
KW - Visual deprivation
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U2 - 10.1523/JNEUROSCI.1346-14.2014
DO - 10.1523/JNEUROSCI.1346-14.2014
M3 - Article
C2 - 25209295
AN - SCOPUS:84907013310
VL - 34
SP - 12576
EP - 12586
JO - Journal of Neuroscience
JF - Journal of Neuroscience
SN - 0270-6474
IS - 37
ER -