Lens epithelial cell apoptosis appears to be a common cellular basis for non-congenital cataract development in humans and animals.

WC Li, JR Kuszak, K Dunn, RR Wang, W Ma… - The Journal of cell …, 1995 - rupress.org
WC Li, JR Kuszak, K Dunn, RR Wang, W Ma, GM Wang, A Spector, M Leib, AM Cotliar…
The Journal of cell biology, 1995rupress.org
Cataract is a major ocular disease that causes blindness in many developing countries of
the world. It is well established that various factors such as oxidative stress, UV, and other
toxic agents can induce both in vivo and in vitro cataract formation. However, a common
cellular basis for this induction has not been previously recognized. The present study of
lens epithelial cell viability suggests such a general mechanism. When lens epithelial cells
from a group of 20 cataract patients 12 to 94 years old were analyzed by terminal …
Cataract is a major ocular disease that causes blindness in many developing countries of the world. It is well established that various factors such as oxidative stress, UV, and other toxic agents can induce both in vivo and in vitro cataract formation. However, a common cellular basis for this induction has not been previously recognized. The present study of lens epithelial cell viability suggests such a general mechanism. When lens epithelial cells from a group of 20 cataract patients 12 to 94 years old were analyzed by terminal deoxynucleotidyl transferase (TdT) labeling and DNA fragmentation assays, it was found that all of these patients had apoptotic epithelial cells ranging from 4.4 to 41.8%. By contrast, in eight normal human lenses of comparable age, very few apoptotic epithelial cells were observed. We suggest that cataract patients may have deficient defense systems against factors such as oxidative stress and UV at the onset of the disease. Such stress can trigger lens epithelial cell apoptosis that then may initiate cataract development. To test this hypothesis, it is also demonstrated here that hydrogen peroxide at concentrations previously found in some cataract patients induces both lens epithelial cell apoptosis and cortical opacity. Moreover, the temporal and spatial distribution of induced apoptotic lens epithelial cells precedes development of lens opacification. These results suggest that lens epithelial cell apoptosis may be a common cellular basis for initiation of noncongenital cataract formation.
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