ABSTRACT
We studied the capacity of DOPA-melanin (natural eumelanin analog) to bind chromophore A2E of retinal pigmented epithelial cell lipofuscin granule into complexes. DOPA-melanin bound up to 200 nm A2E per 1 mg polymer; antioxidant activity of the resultant complexes was evaluated. Luminol chemiluminescence quenching in the presence of hydrogen peroxide showed that the chemiluminescence latency/concentration constants were virtually the same for DOPA-melanin and its A2E complexes. Comparison of the inhibitory effects of DOPA-melanin and DOPA-A2E complexes by rate of UV-induced peroxidation of the outer segments of photoreceptor cells showed higher inhibitory activity of the complexes in comparison with pure DOPA-melanin. Antioxidant activity of DOPA-A2E complexes towards Fe(2+)-ascorbate-induced peroxidation of the outer segments of photoreceptor cells was also higher than that of DOPA-melanin. The results indicated that chromophore A2E of lipofuscin granules in the studied concentrations did not attenuate the antioxidant effects of DOPA-melanin and even potentiated it. This suggested that A2E excess in retinal pigmented epithelium cells could be bound by melanosome melanin and lose its toxicity.
Subject(s)
Antioxidants/metabolism , Dihydroxyphenylalanine/analogs & derivatives , Pigment Epithelium of Eye/metabolism , Pyridinium Compounds/metabolism , Retinoids/metabolism , Animals , Antioxidants/chemistry , Cattle , Cells, Cultured , Dihydroxyphenylalanine/chemistry , Dihydroxyphenylalanine/metabolism , Epithelial Cells/chemistry , Epithelial Cells/metabolism , Lipofuscin/chemistry , Melanins/metabolism , Melanosomes/metabolism , Oxidation-Reduction , Retina/cytologyABSTRACT
The ability of melanosomes from human, bovine and frog retinal pigment epithelium cells (RPE) to bind A2E fluorophore of RPE lipofuscin granules and products of A2E photooxidation is investigated. RPE melanosomes are found to bind A2E molecules themselves as well as the molecules formed after A2E irradiation by visible light. In our experiments single melanosome was able to bind up to 0.08 fmol A2E. Antioxidant activity of melanosomes is compared to antioxidant activity of their complexes with A2E. It is shown by luminal chemiluminescence quenching in the presence of hydrogen peroxide that in A2E/melanosomes complex the chemiluminescence quenching is not significantly reduced. Comparison of inhibitory activity of melanosomes and their complexes with A2E on UV-induced (light conditions) and Fe(2+)-ascorbate-induced (dark conditions) peroxidation of photoreceptor outer segments (POS) demonstrated that bound A2E does not affect inhibitory ability of melanosomes in both systems. Thus, binding of A2E to RPE melanosomes in concentrations from 0.01 to 0.1 fmol A2E per melanosome does not significantly alter their antioxidant properties. It is supposed that both A2E and hydrophilic products of its photooxidation could be bound by RPE melanosomes and, thus, it lost the ability to exhibit toxic properties.