Reactive oxygen species as mediators of photoreceptor apoptosis in vitro

Abstract

Retinitis pigmentosa is a heterogeneous group of retinal degenerations characterized by a progressive loss of photoreceptors through the process of apoptosis. The apoptotic cell death of photoreceptors appears to represent a final common pathway in the pathology of retinitis pigmentosa. Previous studies have reported the ability of antioxidants to ameliorate light-induced retinal degeneration, suggesting a role for oxidative stress in photoreceptor cell death. This study demonstrates an early and sustained increase in intracellular reactive oxygen species accompanied by a rapid depletion of intracellular glutathione in an in vitro model of photoreceptor apoptosis. These early changes in the cellular redox state precede disruption of mitochondrial transmembrane potential, nuclear condensation, DNA nicking, and cell shrinkage, all of which are well-characterized events of apoptotic cell death. The ability of zinc chloride and pyrrolidine dithiocarbamate, two established antioxidants, to inhibit photoreceptor apoptosis through the scavenging of intracellular reactive oxygen species establishes a role for reactive oxygen species as possible mediators of in vitro photoreceptor apoptosis. This study provides a molecular basis for the inhibition of photoreceptor apoptosis by antioxidants.