DNA Is a Target of the Photodynamic Effects Elicited in A2E-Laden RPE by Blue-Light Illumination

doi:10.1167/iovs.02-0746

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DNA Is a Target of the Photodynamic Effects Elicited in A2E-Laden RPE by Blue-Light Illumination

Janet R. Sparrow, Jilin Zhou, and Bolin Cai

From the Department of Ophthalmology, Columbia University, New York, New York.

PURPOSE. When the pyridinium bisretinoid A2E, an age-relatedfluorophore in the retinal pigment epithelium (RPE), is irradiatedwith blue light, photochemical events are initiated that canultimately provoke cell death. This study was designed to determinewhether DNA is a target of the cellular damage.

METHODS. ARPE-19 cells accumulated A2E before exposure to bluelight. DNA damage was assayed in individual cells by alkalinegel electrophoresis (comet assay), with and without the additionof the repair enzymes formamidopyrimidine N-glycosylase (Fpg),endonuclease III (endo III) and T4-endonuclease V (T4-endo V)to characterize DNA lesions. Damage was quantified as comettail moment. The base lesion 8-oxo-deoxyguanosine (8-oxo-dG)was detected by immunoperoxidase and histochemical methods.The singlet oxygen quencher, sodium azide, was tested for itsability to reduce DNA damage, and cell viability was quantified.

RESULTS. DNA damage was induced in A2E-containing RPE exposedto 430-nm illumination. The extent of damage, measured as tailmoment, was proportional to exposure duration and was reducedby preincubation with sodium azide. The detection of FPG- andendo III–sensitive DNA lesions revealed the presence ofoxidized purine and pyrimidine bases, whereas labeling withspecific antibody and binding of fluorescein-labeled avidinindicated that guanine bases were oxidatively modified to 8-oxo-dG.The ability of the cells to repair the DNA damage declined asthe severity was increased, and kinetic studies disclosed rapidand slow stages of repair.

CONCLUSIONS. DNA is one of the cellular constitutents that canbe damaged by the interaction of A2E and blue light. At leastsome of the DNA lesions are oxidative base modifications.

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