Telomere shortening is associated with cellular senescence. We investigated whether UVA, which contributes to photoaging, accelerates telomere shortening in human cultured cells. The terminal restriction fragment (TRF) from WI-38 fibroblasts irradiated with UVA (365-nm light) decreased with increasing 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. 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 ³²P 5‘-end-labeled DNA fragments containing the 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. The amount of 8-oxodG formation in DNA fragment containing telomere sequence [5‘-CGC(TTAGGG)₇CGC-3‘] was approximately 5 times more than that in DNA fragment containing nontelomere sequence [5‘-CGC(TGTGAG)₇CGC-3‘]. Catalase did not inhibit this oxidative DNA damage, indicating no or little participation of H₂O₂ in DNA damage. These results indicate that the photoexcited endogenous photosensitizer specifically oxidizes the central guanine of 5‘-GGG-3‘ in telomere sequence to produce 8-oxodG probably through an electron-transfer reaction. It is concluded that the site-specific damage in telomere sequence induced by UVA irradiation may participate in the increase of telomere shortening rate.