Abstract

PurposeDark adaptation can induce a rapid functional shift in the retina, and after that, the retinal function is believed to remain stable during the continuous dark exposure. However, we found that electroretinograms (ERG) b-waves gradually shifted during 24 hours’ dark exposure in rodents. Detailed experiments were designed to explore this non-classical dark adaptation.MethodsIn vivo ERG recording in adult and developing rodents after light manipulations.ResultsWe revealed a five-fold decrease in ERG b-waves in adult rats that were dark exposed for 24 hours. The ERG b-waves significantly increased within the first hour’s dark exposure, but after that decreased continuously and finally attained steady state after 1 day’s dark exposure. After 3 repetitive, 10 minutes’ light exposure, the dark exposed rats fully recovered. This recovery effect was eye-specific, and light exposure to one eye could not restore the ERGs in the non-exposed eye. The prolonged dark exposure-induced functional shift was also reflected in the down-regulation on the amplitude of intensity-ERG response curve, but the dynamic range of the responsive light intensity remained largely stable. Furthermore, the ERG b-wave shifts occurred in and beyond classical critical period, and in both rats and mice. Importantly, when ERG b-wave greatly shifted, the amplitude of ERG a-wave did not change significantly after the prolonged dark exposure.ConclusionsThis rapid age-independent ERG change demonstrates a generally existing functional shift in the retina, which is at the entry level of visual system.

Highlights

  • Eyes quickly regain their sensitivity to weak stimulus after being transferred from light to darkness [1]

  • We revealed a five-fold decrease in ERG b-waves in adult rats that were dark exposed for 24 hours

  • The prolonged dark exposure-induced functional shift was reflected in the down-regulation on the amplitude of intensity-ERG response curve, but the dynamic range of the responsive light intensity remained largely stable

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Summary

Introduction

Eyes quickly regain their sensitivity to weak stimulus after being transferred from light to darkness [1]. More than 20 days’ dark rearing after birth can change the visually evoked responses in the retinae of mice [17], and 12–20 days of light deprivation in adult cats can result in a significant decrease in the slope of the darkadapted ERG b-wave amplitude-luminance function [18]. It suggests that the retina may be sensitive to long-term dark exposure [17,18,19,20,21]. It is still questionable whether the scotopic ERG can shift after short-term light manipulation such as hours’ dark exposure

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