Sensitization of skin fibroblasts to UVA by excess iron

Abstract

Human skin chronically exposed to UV light is known to accumulate iron and to have an increased ferritin content as compared to unexposed areas. Iron accumulation is also found in many inflammatory skin diseases. Cultured human fibroblasts loaded with iron by incubation with non-toxic concentrations of the ferric nitrilotriacetate complex have been irradiated with low (up to 15 J/cm 2) and moderate (up to 45 J/cm 2) UVA doses. At low irradiation doses, lipid peroxidation doubles without affecting the viability of iron-loaded cells. At higher irradiation doses (30 J/cm 2) the photocytotoxicity of UVA towards iron-loaded cells increases in a concentration-dependent manner with the iron load. Thus, after exposure to 30 J/cm 2 of UVA, the cytotoxicity is about 3-fold greater for cells incubated for 75 min with 100 μM of the ferric complex as compared to those not treated with the ferric complex. Incubation with desferrioxamine, an extremely efficient chelator of ferric ion or vitamin E, a radical scavenger which blocks the lipid peroxidation radical chain, leads to marked inhibition of the sensitizing effects of iron on lipid peroxidation but is less effective for the survival of cells exposed to UVA. A similar concentration-dependent protective effect of desferrioxamine was observed with cultured fibroblasts not treated with the ferric complex. It is suggested that the photoreduction of ferritin and/or other iron-containing proteins plays a significant role in the UVA-induced photocytotoxicity of skin fibroblasts.