The developmental and experience-dependent expression of IGF-2 in mice visual cortex
•IGF-2 may influence the regulation of ocular dominance plasticity in normal development mice.•Monocular deprivation remarkably reduced IGF-2 expression in the visual cortex.•Although the enriched environment facilitated the restoration of visual acuity in the MD mice, IGF-2 expression levels cortex...
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Veröffentlicht in: | Neuroscience letters 2020-03, Vol.721, p.134828-134828, Article 134828 |
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Sprache: | eng |
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Zusammenfassung: | •IGF-2 may influence the regulation of ocular dominance plasticity in normal development mice.•Monocular deprivation remarkably reduced IGF-2 expression in the visual cortex.•Although the enriched environment facilitated the restoration of visual acuity in the MD mice, IGF-2 expression levels cortex remained unchanged.•Unlike the effect of IGF-1 in the visual system, IGF-2 might play a different role in the modulation of plasticity in the mice visual cortex.
The circuitry associated with the visual cortex is particularly sensitive to experiences during the early stages of life, which are collectively known as critical periods. Critical period of ocular dominance plasticity is regulated by both environmental and genetic factors. Previous studies demonstrated that IGF-1 significantly influenced the regulation of visual cortex synaptic plasticity. IGF-2 can reportedly regulate synapse formation, dendritic spine maturation, and memory consolidation in rodents. Association between IGF-2 and the regulation of visual cortex synaptic plasticity remains unclear. Here, we first aimed to elucidate the normal expression patterns of IGF-2 and its laminar expression pattern during the process of visual cortex development in mice. This confirmed that IGF-2 may influence the regulation of ocular dominance plasticity in mice. We further elucidated the role of IGF-2 in the regulation of visual cortex synaptic plasticity by examining the effect of monocular deprivation (MD) on IGF-2 expression in the visual cortex. Interestingly, we observed that MD remarkably reduced IGF-2 expression in the visual cortex. Rodents reared in an enriched environment, with enhanced sensory, motor, and social experiences, were capable of effectively accelerating the development of the visual system and could restore normal visual acuity. Although the enriched environment facilitated the restoration of normal visual acuity in the MD mice, IGF-2 expression levels in the visual cortex remained unchanged. Therefore, we considered the possibility that IGF-2 may have a different role with regard to the modulation of plasticity in the visual cortex of the mice, which we aim to study in the future. |
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ISSN: | 0304-3940 1872-7972 |
DOI: | 10.1016/j.neulet.2020.134828 |