Abstract
Animal model studies of amblyopia have generally concluded that enduring effects of monocular deprivation (MD) on visual behavior (i.e., loss of visual acuity) are limited to the deprived eye, and are restricted to juvenile life. We have previously reported, however, that lasting effects of MD on visual function can be elicited in adulthood by stimulating visuomotor experience through the non-deprived eye. To test whether stimulating experience would also induce interocular plasticity of vision in infancy, we assessed in rats from eye-opening on postnatal day (P) 15, the effect of pairing MD with the daily experience of measuring thresholds for optokinetic tracking (OKT). MD with visuomotor experience from P15 to P25 led to a ~60% enhancement of the spatial frequency threshold for OKT through the non-deprived eye during the deprivation, which was followed by loss-of-function (~60% below normal) through both eyes when the deprived eye was opened. Reduced thresholds were maintained into adulthood with binocular OKT experience from P25 to P30. The ability to generate the plasticity and maintain lost function was dependent on visual cortex. Strictly limiting the period of deprivation to infancy by opening the deprived eye at P19 resulted in a comparable loss-of-function. Animals with reduced OKT responses also had significantly reduced visual acuity, measured independently in a discrimination task. Thus, experience-dependent cortical plasticity that can lead to amblyopia is present earlier in life than previously recognized.
Highlights
Experience-dependent visual plasticity in mammals has long been associated with a “critical” period (CP) in juvenile life, in which monocular deprivation (MD) shifts cortical ocular dominance (OD) away from the deprived eye (Wiesel and Hubel, 1963; Hubel and Wiesel, 1970; Antonini and Stryker, 1993; Hensch, 2004)
We have previously characterized an era of infant plasticity in rats in which visuomotor experience can enable visual function (Prusky et al, 2008)
This work, in combination with evidence of binocular plasticity in infancy (Tagawa et al, 2005; Smith and Trachtenberg, 2007), motivated us to investigate whether effects of MD would be present in infancy if visuomotor experience was actively stimulated through the non-deprived eye
Summary
Experience-dependent visual plasticity in mammals has long been associated with a “critical” period (CP) in juvenile life, in which monocular deprivation (MD) shifts cortical ocular dominance (OD) away from the deprived eye (Wiesel and Hubel, 1963; Hubel and Wiesel, 1970; Antonini and Stryker, 1993; Hensch, 2004). Analogous visual behavior experiments have reported that visual cortex-dependent function through the non-deprived eye is enhanced in adult mice during MD (Prusky et al, 2006), but have revealed that stimulating visuomotor experience through the non-deprived eye during MD enables enhancement to endure after binocular vision is restored (Prusky et al, 2006; Lehmann and Lowel, 2008) Whereas these data show that different forms of OD plasticity exist in juvenile and adult life, they suggest that the nature of visual experience through the non-deprived can dictate whether MD results in enduring behavioral change
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
