| First Author | Ren JC | Year | 2000 |
| Journal | Exp Eye Res | Volume | 70 |
| Issue | 4 | Pages | 467-73 |
| PubMed ID | 10865995 | Mgi Jnum | J:62317 |
| Mgi Id | MGI:1858716 | Doi | 10.1006/exer.1999.0804 |
| Citation | Ren JC, et al. (2000) Retinal degeneration in the nervous mutant mouse. III. Electrophysiological studies of the visual pathway. Exp Eye Res 70(4):467-73 |
| abstractText | The nervous (nr) mutation induces a progressive and severe degeneration of cerebellar Purkinje cells and retinal photoreceptors that is virtually complete within the first few months of life. Previous studies of the retina in nervous (nr/nr) mice have focused primarily on the structural abnormalities seen at the level of the photoreceptor cell bodies and outer segments. Here, we have carried out a series of functional studies of the visual pathway in nervous mice and have quantified the status of the inner retinal cell and plexiform layers. Affected animals were obtained by mating nr/+ heterozygotes and screening the offspring for the ataxia characteristic of nervous animals; phenotypically normal littermates (i.e. nr/+ or +/+) were used as controls. As described previously, there is a substantial loss of photoreceptors cells in the nervous retina and a marked shortening of the inner and outer segments. These changes are accompanied by a more modest decline in the thickness of the inner plexiform and inner nuclear layers. These anatomic abnormalities were accompanied by reproducible changes in visual function, as measured with the electroretinogram (ERG) and visual evoked potential (VEP). The dark-adapted ERGs of nervous and control mice had similar waveforms, although the nervous responses were substantially smaller in amplitude. The reductions in the amplitude of the ERG a-wave corresponded to the loss of photoreceptor cells and shortened outer segments seen histologically. Nevertheless, the kinetics of the leading edge of the a-wave did not differ between nervous and control mice, indicating that the rod outer segments of nervous mice continue to respond to light in a normal fashion. The amplitudes of cone ERGs were also reduced in nervous mice, although the extent of this reduction in any given animal was always less than that for rod-mediated ERG components. Overall, this result is consistent with cone involvement occurring only as a secondary effect of rod photoreceptor degeneration. The peak latencies of VEPs of nervous mice were slower than those of control littermates. These functional abnormalities correspond well to the structural changes induced by the nervous mutation, which does not appear to prevent visual signals from being transmitted centrally, beyond the limitations imposed by the degenerative process. |
