| Cultured Human Retinal Pigment Epithelial Cell Injury Induced by Ultraviolet: Potentiation with Subtoxic Intracellular Zinc Depletion. |
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Dong Wook Ha, Young Hee Yoon |
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Department of Ophthalmology, College of Medicine, University of Ulsan, Asan Medical Center #388-1 Poongnap-dong, Songpa-ku, Seoul, 138-040, Korea. |
| 자외선 조사에 의한 인체 배양 망막색소상피세포 손상 : 세포내 경미한 아연 결핍시 세포고사 촉진 |
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하동욱(Dong Wook Ha),윤영희(Young Hee Yoon) |
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| Abstract |
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We studied the mechanism and inhibition of cell death by exposure to UV alone or combination of UV exposure and intracellular zinc depletion with TPEN in cultured human retinal pigment epithelial cells (RPE). Cell death was quantified by measuring LDH release from injured cells. RPE were exposed to UV at 253.7 nm for 1~20 minutes.The 2~5 minutes UV exposure was duration-dependently cytotoxic, whereas 1minute exposure was minimally so.And exposure to TPEN induced concentration-dependent cell death at 1~4 micrometer range ;0.5 micrometer TPEN was minimally toxic.Then, cultures were exposed to varying exposure durations of UV in the absence or presence of 0.5 micrometer TPEN.At any point, the presence of TPEN markedly increased UV toxicity.In contrast, cell membrane-impermeable zinc chelator showed no toxicity.On the other hand, addition of a protein synthesis inhibitor or caspase inhibitor was markedly protective.In addition, RPE injury with exposure to combination of UV 1 min and TPEN 0.25 micrometer was accompanied by TUNEL and Hoechst staining positivity indicating that the toxicity is mainly apoptosis.Electron microscopic examinations revealed that nuclear fragmentation occurred even in sublethal UV or TPEN exposure, suggesting that the injury process already began at these condition consistently with the death being apoptosis. The present study has shown that combination of known risk factors may act synergistically to induce ARMD etc.The RPE injury induced by low dose UV and minimal intracellular zinc depletion was inhibited with protein synthesis inhibitor or caspase inhibitor, so these results suggested the possibility of prevention or treatment of RPE dysfunction. |
| Key Words:
Apoptosis;RPE;TPEN;Ultraviolet |
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