Abstract

A bstract : We investigated whether oxidative stress, which contributes to aging, accelerates the telomere shortening in human cultured cells. The terminal restriction fragment (TRF) from WI‐38 fibroblasts irradiated with UVA (365‐nm light) decreased with increasing of the irradiation dose. Furthermore, UVA irradiation dose‐dependently increased the formation of 8‐oxo‐7,8‐dihydro‐2′‐deoxyguanosine (8‐oxodG) in both WI‐38 fibroblasts and HL‐60 cells. In order to clarify the mechanism of the acceleration of telomere shortening, we investigated site‐specific DNA damage induced by UVA irradiation in the presence of endogenous photosensitizers using 32 P 5′ end‐labeled DNA fragments containing telomeric oligonucleotide (TTAGGG) 4 . UVA irradiation with riboflavin induced 8‐oxodG formation in the DNA fragments containing telomeric sequence, and Fpg protein treatment led to chain cleavages at the central guanine of 5′‐GGG‐3′ in telomere sequence. Human 8‐oxodG‐DNA glycosylase introduces a chain break in a double‐stranded oligonucleotide specifically at an 8‐oxodG residue. The amount of 8‐oxodG formation in DNA fragment containing telomere sequence [5′‐CGC(TTAGGG) 7 CGC‐3′] was approximately five times more than that in the DNA fragment containing nontelomere sequence [5′‐CGC(TGTGAG) 7 CGC‐3′]. Furthermore, H 2 O 2 plus Cu(II) caused DNA damage, including 8‐oxodG formation, specifically at the GGG sequence in the telomere sequence (5′‐TTAGGG‐3′). It is concluded that the formation of 8‐oxodG at the GGG triplet in telomere sequence induced by oxidative stress could participate in acceleration of telomere shortening.