Photoreceptor degeneration and loss of immunoreactive GABA in the Abyssinian cat retina

Alternative splicing in CEP290 mutant cats results in a milder phenotype than LCACEP290 patients

PURPOSE

The rdAc cat has an intronic mutation in the centrosomal 290 kDa (CEP290) gene resulting in a frameshift and a premature stop codon (c.6960 + 9 T > G, p.Ile2321AlafsTer3) predicted to truncate the protein by 157 amino acids. CEP290 mutations in human patients cause a range or phenotypes including syndromic conditions and severe childhood loss of vision while the rdAc cat has a milder phenotype. We sought to further characterize the effect of rdAc mutation on CEP290 expression.

METHODS

TaqMan quantitative real-time polymerase chain reaction assays were used to compare wildtype and truncated transcript levels. Relative protein abundance was analyzed by Western blot. Immunohistochemistry (IHC) was performed to detect CEP290 protein.

RESULTS

CEP290 mutant cats show low-level (17.4% of wildtype cats) use of the wildtype splice site and usage of the mutant splice site. Western analysis shows retina from cats homozygous for the mutation has CEP290 protein that likely comprises a combination of both wildtype and truncated protein. IHC detects CEP290 in affected and control retina labeling the region of the interconnecting cilium.

CONCLUSIONS

The comparably milder phenotype of CEP290 mutant cats is likely due to the retained production of some full-length CEP290 protein with possible functional contributions from presence of truncated protein.

New GABA modulators protect photoreceptor cells from light-induced degeneration in mouse models

No clinically approved therapies are currently available that prevent the onset of photoreceptor death in retinal degeneration. Signaling between retinal neurons is regulated by the release and uptake of neurotransmitters, wherein GABA is the main inhibitory neurotransmitter. In this work, novel 3-chloropropiophenone derivatives and the clinical anticonvulsants tiagabine and vigabatrin were tested to modulate GABA signaling and protect against light-induced retinal degeneration. Abca4^-/-Rdh8^-/- mice, an accelerated model of retinal degeneration, were exposed to intense light after prophylactic injections of one of these compounds. Imaging and functional assessments of the retina indicated that these compounds successfully protected photoreceptor cells from degeneration to maintain a full-visual-field response. Furthermore, these compounds demonstrated a strong safety profile in wild-type mice and did not compromise visual function or damage the retina, despite repeated administration. These results indicate that modulating inhibitory GABA signaling can offer prophylactic protection against light-induced retinal degeneration.-Schur, R. M., Gao, S., Yu, G., Chen, Y., Maeda, A., Palczewski, K., Lu, Z.-R. New GABA modulators protect photoreceptor cells from light-induced degeneration in mouse models.

Central retinal preservation in rdAc cats

OBJECTIVE

Children with Leber congenital amaurosis (LCA) due to CEP290 mutations show characteristic macular preservation. Spectral domain-optical coherence tomography (SD-OCT) is a noninvasive technique to investigate retinal structural changes. Loss of integrity of the ellipsoid zone (EZ) on OCT in people with retinal disease has been associated with loss of visual function and is a useful measure of retinal disease progression. We hypothesized that rdAc felines with Cep290 mutation would have a similar pattern of degeneration, with relative central retinal preservation associated with maintenance of the EZ.

PROCEDURES

Fundus imaging, confocal scanning laser ophthalmoscopy, and SD-OCT cross-sectional imaging was performed on 11 rdAc cats ranging from 6 months to 10 years of age. Images were collected from the area centralis, visual streak, and the mid-superior and mid-inferior retina. Receptor plus (REC+, encompassing the entire length of photoreceptors) thicknesses were measured. Regional rates of degeneration were determined by regression analysis and compared using unpaired t-tests. The EZ was evaluated for the presence, absence, or loss of definition.

RESULTS

RdAc cats showed REC+ thinning over time in all regions. The area centralis and visual streak had a slower rate of thinning than the mid-peripheral retina. There was loss of integrity of the EZ initially in the more peripheral regions, while its integrity was maintained in the area centralis and visual streak at all ages studied.

CONCLUSIONS

rdAc cats show preservation of the central retina with maintenance of EZ integrity, which recapitulates findings in human patients.

Immunohistochemical studies of the retina following long-term implantation with subretinal microphotodiode arrays

This study evaluates the feline retina following surgical placement of a semiconductor-based microphotodiode array (MPA) into the subretinal space. Post-operative evaluations of implant durability and clinical biocompatibility have been carried out in these animals. Here, we examine the integrity of the implanted retina using anatomical techniques and immunocytochemical metabolic indicators. After appropriate fixation, the retina was divided into strips to compare areas directly over the implant versus those adjacent to the implant or in the opposite, unimplanted eye. In addition to histological analyses, the distribution of glial fibrillary acidic protein (GFAP), Na, K-ATPase, and the neurotransmitters (glutamate, glycine, and GABA) was examined using immunohistochemistry. Directly above the implant there was a near-complete loss of photoreceptor outer and inner segments and the outer nuclear layer. In comparison, the retina immediately adjacent to the implant appeared normal. In the inner nuclear layer overlying the implant, some cellular disorganization was present, however, the content was not significantly reduced. Also GFAP was up-regulated in the Müller cells directly overlying the MPA, but the retina adjacent to the implant showed a normal distribution of GFAP in the astrocytes located in the ganglion cell layer. The distributions of Na, K-ATPase adjacent to and overlying the implant were not different. Glutamate showed a decrease in overall labeling, but no change in the inner retinal layers. Glycine was found to be up-regulated in the inner nuclear layer immediately overlying the implant, while GABA showed decreased labeling over the MPA. Since photoreceptors overlying the implant degenerate, we compared the changes observed in the implanted retina to those in the Abyssinian cat model of photoreceptor degeneration. Generally, the retinal changes observed over the implant were similar to those seen in the Abyssinian cat, indicating that they may be associated with photoreceptor degeneration. Future studies will concentrate on MPAs designed to improve circulation to the outer retina which may decrease cell loss.

Immunohistochemical studies of cone photoreceptors and cells of the inner retina in feline rod-cone degeneration

Previous studies using electroretinography and immunohistochemistry have shown normal cone function and structure in early stages of hereditary rod-cone degeneration of Abyssinian cats. To further investigate the cone photoreceptors and the inner retina of dystrophic cats, antibodies against green- and blue-sensitive cones and specific cell types of inner retina were used in seven cats with the recessively inherited rod-cone degeneration, and three normal European short-haired cats. There was a reduction in number of both types of cones early in the disease. Changes at early stages of disease also occurred among horizontal cells in which there was an extension and a thickening of their lateral processes. The regular configuration of bipolar cells was changed in the more advanced stages of disease and their apical dendrites were lost. Abnormalities were not observed in the amacrine cells and in the ganglion cell layer in any of the present cases. This study shows that the cone system is morphologically abnormal in young cats at an earlier stage of disease than previously shown. The present findings also support the assumption that the inner retina is largely preserved throughout the disease process.

Light-induced retinopathy in the albino rat in long-term studies. An immunohistochemical and quantitative approach

Retinas from male Wistar rats which were housed during a long-term drug safety study at short, medium and long distance from a fluorescent light source were examined. Retinal atrophy was pronounced in the central retina of rats housed closest to the light source, and was characterized by a loss of photoreceptor cells and of S-antigen immunoreactivity in the outer nuclear layer (ONL), absence of synaptophysin immunoreactivity in the outer plexiform layer (OPL), decrease of the number of nuclei in the inner nuclear layer (INL), astrocytic proliferation, and Müller cell activation. The peripheral retina of these rats had a laminated architecture, although the number of photoreceptor cells and nuclei in the INL was reduced. Retinas from rats housed a medium distance from the light source did not have any apparent histological or immunohistochemical changes, except for a lower number of photoreceptor cells and nuclei in the INL. The rats housed a long distance from the light source had the highest number of nuclei in the ONL and INL of the central and peripheral retina, and were used as control group. Our data indicate that retinal atrophy occurs in male Wistar rats maintained under light conditions currently used in long-term toxicity studies, and suggest that photoreceptor cell loss is followed by trans-synaptic anterograde degeneration of neurons in the INL, astrocytic proliferation and Müller cell activation.

Early morphometry of a retinal dystrophy in Labrador retrievers

Retinal morphometry was assessed in 7 dogs from a colony of Labrador Retrievers with dystrophic retinas at 1,2,3,4 and 18 months of age. Rod outer segment length and outer nuclear layer width were measured in the central, midperipheral and peripheral retina at six locations along the vertical meridian. Early striking regional differences in onset and rate of progression were characteristic for this inherited retinal degeneration. Notably, some areas of the retina developed fully and normally before degenerating. The central parts of the vertical meridians showed slightly disorganized rod outer segments already at 1 month of age and they were significantly shorter than those of control animals at 3 and 4 months (p < 0.01 and p < 0.001, respectively). The rod outer segments of the midperipheral and peripheral regions were, however, comparable to control animals as late as at 4 months of age. At 18 months the rod outer segments of dystrophic animals were significantly shorter in all retinal regions (p < 0.0005). At the age the outer nuclear layer of the dystrophic animals had become significantly thinner than that of control animals in all retinal regions (p < 0.001), indicating a clear visual cell loss. It is reasonable to characterize this as a retinal degeneration having a relatively slow progression, which enhances its relevance to conditions of clinical significance.