Lipofuscin and melanin of human retinal pigment epithelium. Fluorescence, enzyme cytochemical, and ultrastructural studies

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Lipofuscin and melanin of human retinal pigment epithelium. Fluorescence, enzyme cytochemical, and ultrastructural studies

L Feeney

The life history of melanin and lipofuscin granules of human retinal pigment epithelium (RPE) was studied in 30 human eyes spanning nine decades of life. Autofluorescent granules in the cytoplasm of eye over 30 years of age were shown, ultrastructurally and through lipid solvent extraction, to be lipofuscin granules. Sparse small fluorescent granules in infant eyes were secondary lysosomes containing small droplets of lipid. Flourescent substances in RPE granules of eyes less than 50 years old were more readily extracted with lipid solvents than those in very old eyes (greater than 70). Lipfuscin granules were positive for acid phosphatase and aryl sulfatase activity. Fusions between primary lysosomes and lipofuscin granules were common in older eyes, suggesting that the over-all degradative process involves repeated injection of lysosomal enzymes, i.e., the initial fusion of lysosomes with phagosomes (phagocytized outer segment disks) is only one of several attempts to hydrolyze the membranous material. Some melanin granules showed hydrolytic enzyme reactions. By use of enzyme cytochemistry, fluorescence microscopy, and lipid extraction two types of melanin-containing complex granules were identified: melanin with a cortex of lipofuscin (melanolipofuscin) and melanin with a cortex of nonlipid, enzyme reactive material (melanolysosomes). These findings indicate that melanin commonly becomes incorporated into the lysosomal system of the RPE cell and suggests that it undergoes modification or degradation there. These studies indicate that a dynamic, complex interrelationship exists between the various components of the phagolysosomal system and the melanin granules in the RPE cytoplasm. Also, the observed variation from one human eye to another in the content and lipid extractability of RPE lipofuscin granules suggests that there may be differences in lipid composition of phagocytized photoreceptor disks and/or differences in the degradation of these lipids in the phagolysosomal system of the RPE cell.

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				M B. Parodi, P Iacono, and G Ravalico Fundus autofluorescence in subfoveal choroidal neovascularisation secondary to Pathological Myopia Br J Ophthalmol, June 1, 2009; 93(6): 771 - 774. [Abstract] [Full Text] [PDF]

				J. M. Burke and M. Zareba Sublethal Photic Stress and the Motility of RPE Phagosomes and Melanosomes Invest. Ophthalmol. Vis. Sci., April 1, 2009; 50(4): 1940 - 1947. [Abstract] [Full Text] [PDF]

				C. Vives-Bauza, M. Anand, A. K. Shirazi, J. Magrane, J. Gao, H. R. Vollmer-Snarr, G. Manfredi, and S. C. Finnemann The Age Lipid A2E and Mitochondrial Dysfunction Synergistically Impair Phagocytosis by Retinal Pigment Epithelial Cells J. Biol. Chem., September 5, 2008; 283(36): 24770 - 24780. [Abstract] [Full Text] [PDF]

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				O. Strauss The Retinal Pigment Epithelium in Visual Function Physiol Rev, July 1, 2005; 85(3): 845 - 881. [Abstract] [Full Text] [PDF]

				E. F. Nandrot, Y. Kim, S. E. Brodie, X. Huang, D. Sheppard, and S. C. Finnemann Loss of Synchronized Retinal Phagocytosis and Age-related Blindness in Mice Lacking {alpha}v{beta}5 Integrin J. Exp. Med., December 20, 2004; 200(12): 1539 - 1545. [Abstract] [Full Text] [PDF]

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				N. M. Haralampus-Grynaviski, L. E. Lamb, C. M. R. Clancy, C. Skumatz, J. M. Burke, T. Sarna, and J. D. Simon Spectroscopic and morphological studies of human retinal lipofuscin granules PNAS, March 18, 2003; 100(6): 3179 - 3184. [Abstract] [Full Text] [PDF]

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				T. X. Weng, B. F. Godley, G. F. Jin, N. J. Mangini, B. G. Kennedy, A. S. L. Yu, and N. K. Wills Oxidant and antioxidant modulation of chloride channels expressed in human retinal pigment epithelium Am J Physiol Cell Physiol, September 1, 2002; 283(3): C839 - C849. [Abstract] [Full Text] [PDF]

				C. Bellmann, J. Jorzik, G. Spital, K. Unnebrink, D. Pauleikhoff, and F. G. Holz Symmetry of Bilateral Lesions in Geographic Atrophy in Patients With Age-Related Macular Degeneration Arch Ophthalmol, May 1, 2002; 120(5): 579 - 584. [Abstract] [Full Text] [PDF]

				M. L. Katz and T. M. Redmond Effect of Rpe65 Knockout on Accumulation of Lipofuscin Fluorophores in the Retinal Pigment Epithelium Invest. Ophthalmol. Vis. Sci., November 1, 2001; 42(12): 3023 - 3030. [Abstract] [Full Text] [PDF]

				J. M. Sandbach, P. E. Coscun, H. E. Grossniklaus, J. E. Kokoszka, N. J. Newman, and D. C. Wallace Ocular Pathology in Mitochondrial Superoxide Dismutase (Sod2)-Deficient Mice Invest. Ophthalmol. Vis. Sci., September 1, 2001; 42(10): 2173 - 2178. [Abstract] [Full Text] [PDF]

				P. Kayatz, G. Thumann, T. T. Luther, J. F. Jordan, K. U. Bartz–Schmidt, P. J. Esser, and U. Schraermeyer Oxidation Causes Melanin Fluorescence Invest. Ophthalmol. Vis. Sci., January 1, 2001; 42(1): 241 - 246. [Abstract] [Full Text]

				N. Lois, A. S Halfyard, A. C Bird, and F. W Fitzke Quantitative evaluation of fundus autofluorescence imaged "in vivo" in eyes with retinal disease Br J Ophthalmol, July 1, 2000; 84(7): 741 - 745. [Abstract] [Full Text]

ARTICLES AND REPORTS

Lipofuscin and melanin of human retinal pigment epithelium. Fluorescence, enzyme cytochemical, and ultrastructural studies

				N. Lois, A. S Halfyard, C. Bunce, A. C Bird, and F. W Fitzke Reproducibility of fundus autofluorescence measurements obtained using a confocal scanning laser ophthalmoscope Br J Ophthalmol, March 1, 1999; 83(3): 276 - 279. [Abstract] [Full Text]

				F. G. Holz, G. Sheraidah, D. Pauleikhoff, and A. C. Bird Analysis of Lipid Deposits Extracted From Human Macular and Peripheral Bruch's Membrane Arch Ophthalmol, March 1, 1994; 112(3): 402 - 406. [Abstract] [PDF]

				T. V. Chirila Melanized Poly(HEMA) Hydrogels: Basic Research and Potential Use J Biomater Appl, January 1, 1993; 8(2): 106 - 144. [Abstract] [PDF]

				I. Nabi, A. Mathews, L Cohen-Gould, D Gundersen, and E Rodriguez-Boulan Immortalization of polarized rat retinal pigment epithelium J. Cell Sci., January 1, 1993; 104(1): 37 - 49. [Abstract] [PDF]

				S. O'Gorman, W. A. Flaherty, G. A. Fishman, and E. L. Berson Histopathologic Findings in Best's Vitelliform Macular Dystrophy Arch Ophthalmol, September 1, 1988; 106(9): 1261 - 1268. [Abstract] [PDF]

				M. A. Lavery, W. R. Green, E. W. Jabs, M. W. Luckenbach, and J. L. Cox Ocular Histopathology and Ultrastructure of Sanfilippo's Syndrome, Type III-B Arch Ophthalmol, August 1, 1983; 101(8): 1263 - 1274. [Abstract] [PDF]

				T. A. Weingeist, J. L. Kobrin, and R. C. Watzke Histopathology of Best's Macular Dystrophy Arch Ophthalmol, July 1, 1982; 100(7): 1108 - 1114. [Abstract] [PDF]

				G. Eldred, G. Miller, W. Stark, and L Feeney-Burns Lipofuscin: resolution of discrepant fluorescence data Science, May 14, 1982; 216(4547): 757 - 759. [Abstract] [PDF]

				L. Feeney-Burns, M. R. Malinow, M. L. Klein, and M. Neuringer Maculopathy in Cynomolgus Monkeys: A Correlated Fluorescein Angiographic and Ultrastructural Study Arch Ophthalmol, April 1, 1981; 99(4): 664 - 672. [Abstract] [PDF]

				M. Suter, C. Reme, C. Grimm, A. Wenzel, M. Jaattela, P. Esser, N. Kociok, M. Leist, and C. Richter Age-related Macular Degeneration. THE LIPOFUSCIN COMPONENT N-RETINYL-N-RETINYLIDENE ETHANOLAMINE DETACHES PROAPOPTOTIC PROTEINS FROM MITOCHONDRIA AND INDUCES APOPTOSIS IN MAMMALIAN RETINAL PIGMENT EPITHELIAL CELLS J. Biol. Chem., December 8, 2000; 275(50): 39625 - 39630. [Abstract] [Full Text] [PDF]