Abstract
Ultraviolet (UV)-induced cataracts are becoming a major environmental health concern because of the possible decrease in the stratospheric ozone layer. Experiments were designed to isolate gene(s) affected by UV irradiation in rabbit cornea tissues using fluorescent differential display-reverse transcription-polymerase chain reaction (FDDRT-PCR). The epithelial cells were grown in standard medium for 2 or 4 hours post treatment. Cornea epithelial cells were irradiated with UVB for 20 minutes. RNA was extracted and amplified by reverse transcriptase-polymerase chain reaction using poly A+ specific anchoring primers and random arbitrary primers. Polyacrylamide gel electrophoresis revealed several differentially expressed genes in untreated versus UV irradiated cells. Complimentary DNA (cDNA) fragments resulting from fluorescent differentially expressed mRNAs were eluted from the gel and re-amplified. The re-amplified PCR products were cloned directly into the PCR-TRAP cloning system. These data showed that FDDRT-PCR is a useful technique to elucidate UV-regulated gene expressions. Future experiments will involve sequence analysis of cloned inserts. The identification of these genes through sequence analysis could lead to a better understanding of cataract formation via DNA damage and mechanisms of prevention.
Highlights
The human eye and skin are the only tissues directly exposed to ultraviolet radiation (UV) and visible radiations
The morphology of the cornea epithelial cells appeared changed after ultraviolet B (UVB) exposure
Corneal epithelial cells were exposed for 45 minutes (Figure 1C), which resulted in more separation with some rounding of the cells
Summary
The human eye and skin are the only tissues directly exposed to ultraviolet radiation (UV) and visible radiations. Over 98% of solar UV radiation exposure is in the form of UVA It penetrates the skin more deeply than UVB or UVC, but is less associated with DNA damage. UVB is responsible for most of the DNA damage within skin cells that might lead to the promotion of cancers [1,2], UVC is considered the most lethal form of UV radiation. UV radiation has been shown to damage ocular tissues [5,6] and UVB is known to reach the cornea. The molecular mechanisms are still unclear and the effects on expression of UV-induced genes involved in DNA damage and cataract formation have not been determined
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