Physiological function of S-cone system is not enhanced in rd7 mice

Abstract

The rd7mouse is a mutant mouse with a relatively late development of retinal degeneration. Earlier studies have shown that rd7 mice have a distinctive pattern of retinal dysplasia with an increased number of cone cells, particularly those with S (short wavelength)-opsin immunoreactivity. These alterations of the rd7 retina are caused by a mutation in the photoreceptor cell-specific nuclear receptor gene, Nr2e3, which is involved in the signaling pathway regulating photoreceptor cell differentiation, cell maintenance, and cell–cell interactions. The purpose of this study was to determine the physiological properties of the rd7 retina using electroretinographic (ERG) techniques. We found that the maximal a-wave amplitude of the ERG in rd7 mice was already reduced to half of the congenic controls at 6 weeks of age with normal phototransduction sensitivity. The photopic ERGs of rd7 mice were not supernormal, and the amplitudes of the S-cone ERGs were not significantly different from those recorded in controls. These results suggested that even though the number of cones expressing S-opsin is increased, the physiological function of the S-cone system is not enhanced in rd7 mice.