Photochemical Reactions and Phototoxicity of Sterols: Novel Self‐perpetuating Mechanism for Lipid Photooxidation

Abstract

— Sterols are important lipid components that may contribute to phototoxicity. We have found that phototoxic response in earthworms is related to sterols extractable with lipophilic solvents. The photochemically active compounds in worm lipids are 5,7,9(11),22‐ergostatetraen‐3bT‐ol (9‐DHE) and 5,7,9(11)‐cholestatrien‐3bT‐ol (9‐DDHC), respectively. Human skin lipids are known to contain 9‐DHE. We have also found 9‐DDHC in human skin, which is reported here for the first time. In the presence of an excess of the corresponding 5,7‐dienes (ergosterol or 7‐dehydrocholesterol), these photoactive sterols constitute a self‐regenerating source of singlet molecular oxygen (₁O₂) during irradiation in vivo or in vitro with UVA bT15‐400 nm). The quantum yield for photosensitization of ₁O₂ by 9‐DHE was estimated to be 0.09. The ₁O₂ is scavenged by the dienes and the rate constant for ₁O₂ quenching by ergosterol was found to be 1.2 times 10₇M‐₁ s_‐1 in methyl t‐butyl ether (MTBE). This scavenging ultimately leads to the production of 5,8‐endo‐peroxide and hydrogen peroxide. Photochemically induced superoxide radical was also produced on irradiation of sterol 5,7,9‐trienes and trapped with the spin trap 5,5‐dimeth‐yl‐1‐pyrroline W‐oxide (DMPO). The production of singlet oxygen, peroxides and radicals by the sterols may be significant in the cell damaging and tumor promoting action of UVA light on skin.