2016
DOI: 10.1523/jneurosci.1787-15.2016
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Experience Affects Critical Period Plasticity in the Visual Cortex through an Epigenetic Regulation of Histone Post-Translational Modifications

Abstract: During an early phase of enhanced sensitivity called the critical period (CP), monocular deprivation causes a shift in the response of visual cortex binocular neurons in favor of the nondeprived eye, a process named ocular dominance (OD) plasticity. While the time course of the CP for OD plasticity can be modulated by genetic/pharmacological interventions targeting GABAergic inhibition, whether an increased sensory-motor experience can affect this major plastic phenomenon is not known. We report that exposure … Show more

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Cited by 47 publications
(41 citation statements)
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“…(83) Other mechanisms are also involved, including changes in epigenetic regulation,(84) although we do not review those mechanisms here.…”
Section: Neurodevelopmental Mechanism Of Environmental Deprivationmentioning
confidence: 99%
“…(83) Other mechanisms are also involved, including changes in epigenetic regulation,(84) although we do not review those mechanisms here.…”
Section: Neurodevelopmental Mechanism Of Environmental Deprivationmentioning
confidence: 99%
“…EE may also induce changes at other levels of the visual pathway, including the retina (Landi et al, 2007) and V1 (Ciucci et al, 2007;Sale et al, 2007;Levine et al, 2017), which may contribute to the behavioral recovery. In V1, exposure to EE has been shown to accelerate, in juvenile rodents (Cancedda et al, 2004;Baroncelli et al, 2016), as well as re-activate, in adult (Sale et al, 2007;Baroncelli et al, 2010) and even-aged rodents (Scali et al, 2012;Greifzu et al, 2016), the capacity for ocular dominance plasticity. EE may be exerting a similar effect in V1 in our mice which could be contributing to the observed recovery improvement in flight responses.…”
Section: Ee From Birth Induces the Recovery Of An Ethologically-appromentioning
confidence: 99%
“…In the visual cortex, EE has been shown to extend the usual juvenile period of cortical plasticity which enables recovery from amblyopia into adulthood (Sale et al, 2007;Baroncelli et al, 2010Baroncelli et al, , 2016Scali et al, 2012;Greifzu et al, 2016), as well as accelerating the maturation of neural circuits in young mice (Cancedda et al, 2004;Ciucci et al, 2007). Benefits of EE on hippocampal function have also been demonstrated (Bernstein, 1973;van Praag et al, 2000;Speisman et al, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…Typically, critical periods open with the onset of sensory experience and close after a defined period of refinement, during which neural circuitry is modified to better respond to the sensory environment (Hensch, 2005). Although initial studies painted a stark black-and-white picture regarding opening and closing of critical periods, it is now known that numerous factors can reopen critical period-like states in mature animals (McGee et al, 2005;Maya Vetencourt et al, 2008;Morishita et al, 2010;Hensch and Bilimoria, 2012;Baroncelli et al, 2016). Critical period work has focused primarily on vertebrate systems, but there are excellent examples of critical periods in invertebrate models (Fielde, 1904;Remy and Hobert, 2005;Doll and Broadie, 2015;Jin et al, 2016).…”
Section: Introductionmentioning
confidence: 99%