Age-Related Changes in Human RPE Cell Density and Apoptosis Proportion In Situ

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Age-Related Changes in Human RPE Cell Density and Apoptosis Proportion In Situ

Lucian V. Del Priore¹, Ya-Hui Kuo² and Tongalp H. Tezel¹

^¹ From the Department of Ophthalmology, Columbia University College of Physicians and Surgeons, New York, New York; and the ^² Department of Ophthalmology, Washington University School of Medicine, St. Louis, Missouri.

PURPOSE. To determine the effect of age on the proportion ofapoptotic cells in the RPE and cellular density in human eyesin situ.

METHODS. RPE flatmounts prepared from 22 adult human cadavereyes (11 pairs; ages 19–87) were stained for apoptoticcells by a TUNEL technique. The density of RPE cells was alsomeasured. The flatmount was divided into four concentric regionscentered on the fovea (zone 1, 0–1.5 mm radius; zone 2,1.5–3.0 mm; zone 3, 3.0–12.5 mm; and zone 4, >12.5mm).

RESULTS. There was a positive correlation between the donor’sage and the proportion of apoptotic RPE cells per eye (r = 0.63;P = 0.04), which increased during the sixth decade and was higherin older (age range, 56–87 years) than in younger (agerange, 19–48 years) eyes (0.56 ± 0.14 vs. 0.07± 0.07 cells per 100,000 cells, respectively; P = 0.03).Apoptotic RPE cells were located mainly in zone 1 in older eyes.Cell density decreased in the RPE as the distance from the foveaincreased (r = 0.66, P < 0.05). The decrease was most prominentin zone 4 (r = -0.76, P = 0.007).

CONCLUSIONS. The proportion of apoptotic human RPE increasedsignificantly with age. Apoptotic RPE cells are confined mainlyto the macula of older human eyes. The observation that RPEcell death occurs in the macula but the density of RPE cellsremains unchanged in the macula and decreases in the peripherysuggests that migration of peripheral RPE cells may compensatefor the death of macular RPE cells.

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