Activation of Multiple Pathways during Photoreceptor Apoptosis in the rd Mouse

doi:10.1167/iovs.05-0248

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Activation of Multiple Pathways during Photoreceptor Apoptosis in the rd Mouse

Francesca Doonan, Maryanne Donovan, and Thomas G. Cotter

From the Tumour Biology Laboratory, Department of Biochemistry, Biosciences Institute, University College Cork, Cork, Ireland.

PURPOSE. The primary purpose of this study was to characterizephotoreceptor apoptosis in the rd mouse. Given that apoptosisis the final common pathway in many cases of retinal degeneration,the ability to retard or even arrest this process may ameliorateretinal disorders such as retinitis pigmentosa (RP). The absenceof any recognized therapy emphasizes the fact that a detailedknowledge of the molecular events involved is necessary to identifyrational targets for therapeutic intervention.

METHODS. Flow cytometry was used to measure physical and chemicalcharacteristics in the photoreceptor population. Individualcells flow in suspension past one or more lasers, scatteringlight and emitting fluorescence. Western blot techniques demonstratedcleavage of calpain-specific substrates. Retinal explant cultureswere used for inhibitor studies. Postnatal day 10 (P₁₀) rd retinaswere cultured without retinal pigment epithelium (RPE) attachedup to P₁₇.

RESULTS. This study demonstrated calcium overload in the cytosoland subsequently in mitochondria. Mitochondrial membrane depolarizationand reactive oxygen species (ROS) were detected later, duringthe peak of cell death. Analysis of downstream events indicatedearly activation of calcium-activated calpains. Treatment ofrd retinal explants with the calpain inhibitor N-acetyl-Leu-Leu-Nle-CHO(ALLN) successfully inhibited calpain-induced ${alpha}$ -fodrin cleavage,yet it did not protect against photoreceptor degeneration. Finally,the results demonstrate an increase in the levels of both precursorand processed forms of the aspartate protease cathepsin D.

CONCLUSIONS. Excessive calcium influx is an early event thatinitiates the activation of calcium-activated proteases. However,these proteases are not singularly the cause of death, becausetheir inhibition does not prevent apoptosis. Indeed, the resultspresented herein suggest that multiple pathways are involvedand that each of these components may have to be addressed forcell death to be successfully inhibited.

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