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Protection of human retinal pigment epithelial cells from oxidative damage using cysteine prodrugs

Ruvanthi N. Kularatne, Chandima Bulumulla, Timothy Catchpole, Alison Takacs, Abigail H. Christie, Mihaela C. Stefan, Karl G. Csaky

2020Free Radical Biology and Medicine24 citationsDOIOpen Access PDF

Abstract

Age-related macular degeneration (AMD) is one of the major causes of vision loss in the elderly in most developed countries. Among other causes, oxidative stress in the retinal pigment epithelium (RPE) has been hypothesized to be a major driving force of AMD pathology. Oxidative stress could be treated by antioxidant administration into the RPE cells. However, to achieve high in-vivo efficacy of an antioxidant, it is imperative that the agent be able to penetrate the tissues and cells. Evidence suggests that lipophilicity governs cellular penetrance. Out of many antioxidant candidates, N-acetyl-L-cysteine (a prodrug of L-cysteine) (NAC) is a potent antioxidant as the bioavailability of the parent drug, L-cysteine, determines the production of glutathione; the universal antioxidant that regulates ROS. To increase the lipophilicity, four ester derivatives of N-acetylcysteine: N-acetylcysteine methyl ester, N-acetylcysteine ethyl ester, N-acetylcysteine propyl ester, and N-acetylcysteine butyl ester were synthesized. To mimic in vitro AMD conditions, hydroquinone, a component of cigarette smoke, was used as the oxidative insult. Cytosolic and mitochondrial protection against oxidative stress were tested using cytosolic and mitochondrial specific assays. The results provide evidence that these lipophilic cysteine prodrugs provide increased protection against oxidative stress in human RPE cells compared with NAC.

Topics & Concepts

Oxidative stressAcetylcysteineAntioxidantProdrugGlutathioneChemistryPharmacologyLipophilicityCysteineBiochemistryBiologyEnzymeRetinoids in leukemia and cellular processesSulfur Compounds in BiologyRetinal Diseases and Treatments
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