Oxyradical-induced GFP damage and loss of fluorescence.

Small amounts of highly reactive oxygen species (oxyradicals) are normal by-products of cellular metabolism. However, under certain conditions large amounts of oxyradicals are generated inside cells which may cause extensive cellular damage. Not surprisingly, a large number of disease states have been linked to oxidative stress, including cancer, diabetes, Parkinson's disease, Alzheimer's disease, and heart disease. Previously, we had shown that fluorescence spectroscopy could be used to study the pH-dependence of GFP denaturation with various agents. In this report, we show that GFP readily loses its auto-fluorescence upon exposure to oxyradicals as measured by fluorescence spectroscopy. We further show that oxyradical scavengers can prevent this loss of GFP fluorescence, thus oxyradical-induced loss of GFP fluorescence could be used to screen for antioxidants. We have evaluated various parameters which could affect the sensitivity of this GFP-based oxyradical scavenging assay, such as concentration H(2)O(2) used to produce oxyradicals, pH of the buffer, as well as UV intensity. Surprisingly we found that pH had a very dramatic effect on oxyradical-induced GFP damage. GFP was found to be most susceptible to oxyradical-induced damage at pH 6.5, and least susceptible at pH 8.5. This is the first demonstration that GFP loses its fluorescence upon exposure to oxyradicals. Furthermore, the data presented here suggest that GFP could be used to develop assays to screen for antioxidants or radical scavengers.