Induction of sister chromatid exchanges in human cells by fluorescent light

Abstract

The Brd-U differential staining technique was utilized to examine the induction of sister-chromatid exchanges (SCE) by fluorescent ligt in human fetal lung fibroblasts (IMR-90). Exposure of these cells in media to fluorescent light resulted in an increase in SCE frequencies from a background level of 8.5 SCE/cell to 20.5 SCE/cell. Cellular replication kinetics were also inhibited by fluorescent light exposure. Exposure of cells to fluorescent light in phosphate buffered saline (PBS) resulted in a two-fold increase in SCE levels and incresed inhibition of cell replication, indicating that culture media may have a protective effect. Determinations of SCE frequencies with blocking filters indicated that the fluorescent light wavelengths responsible for SCE induction were in the near-ultraviolet spectrum between 300 and 390 nm. Culturing cell sin media that had been exposed to fluorescent light resulted in a significant increase in SCE levels, 14.5 ± 1.5 vs. 7.5 ± 0.65, demonstrating the contribution of media photoproducts to SCE induction. The role of media photoproducts was further reinforced by finding a significant decline in fluorescent light induced SCE in cells cultured in medium deficient in three known photosensitizers (phenol red, tetracycline and riboflavin) for 2–3 weeks prior to exposure. Since SCE have been shown to be a sensitive indicator of DNA damage, these results indicate that fluorescent light can induce genetic damage in human cells. These findings are also of importance to investigators culturing cells in laboratories with fluorescent illumination.