Pro-oxidative effect of β-carotene and the interaction with flavonoids on UVA-induced DNA strand breaks in mouse fibroblast C3H10T1/2 cells

Abstract

It has been suggested that β-carotene itself is unstable under certain conditions and that a combination of antioxidants may prevent the pro-oxidative effects of β-carotene. Thus, the present study aimed to investigate the interaction of β-carotene with three flavonoids—naringin, rutin and quercetin—on DNA damage induced by ultraviolet A (UVA) in C3H10T1/2 cells, a mouse embryo fibroblast. The cells were preincubated with β-carotene and/or flavonoid for 1 h followed by UVA irradiation, and DNA damage was measured using comet assay. We showed that β-carotene at 20 μM enhanced DNA damage (by 35%; P<.05) induced by UVA (7.6 kJ/m 2), whereas naringin, rutin and quercetin significantly decreased UVA-induced DNA damage. When each flavonoid was combined with β-carotene during preincubation, UVA-induced cellular DNA damage was significantly suppressed and the effects were in the order of naringin≥rutin>quercetin. The flavonoids decreased UVA-induced oxidation of preincorporated β-carotene in the same order. Using electron spin resonance spectroscopy, we showed that the ability of these flavonoids to quench singlet oxygen was consistent with protection against DNA damage and β-carotene oxidation. All three flavonoids had some absorption at the UVA range (320–380 nm), but the effects were opposite to those on DNA damage and β-carotene oxidation. Taken together, this cell culture study demonstrates an interaction between flavonoids and β-carotene in UVA-induced DNA damage, and the results suggest that a combination of β-carotene with naringin, rutin or quercetin may increase the safety of β-carotene.