Diane F. Birt

This investigation studied the effect of topical application of apigenin on skin tumorigenesis initiated by 7,12-dimethylbenz(a)anthracene (DMBA) and promoted by 12-O-tetradecanoylphorbol-13-acetate (TPA) in SENCAR mice. Apigenin was a potent inhibitor of epidermal ornithine decarboxylase induction by TPA in a dose-dependent manner from 1 to 20 mumol. Two tumorigenesis studies were conducted. In the first study, 20 mumol of apigenin was applied topically and no effect on body weight was observed. By week 33 after DMBA initiation, 48% of DMBA/TPA-treated mice developed carcinomas, while none occurred in DMBA/apigenin/TPA-treated groups. In the second study, doses of 5 and 20 mumol of apigenin were used. The papilloma incidence for 0, 5, and 20 mumol apigenin at 26 weeks after DMBA was 93.3, 58, and 39.3%, and papilloma numbers per mouse were 7.5, 2.5, and 1.8, respectively. Apigenin prolonged by 3 weeks the latency period of tumor appearance. In addition, apigenin significantly inhibited the incidence of carcinoma and the numbers of carcinomas. The incidence of carcinomas per tumor-bearing animal and the ratio of carcinomas/papillomas in two apigenin-treated groups decreased although there were no significant differences between the three groups. These data indicate that apigenin inhibited skin papillomas and showed the tendency to decrease conversion of papillomas to carcinomas.

Apigenin, a common dietary flavonoid, has been shown to induce cell cycle arrest in both epidermal and fibroblast cells and inhibit skin tumorigenesis in murine models. The present study assessed the influence of apigenin on cell growth and the cell cycle in the human colon carcinoma cell lines SW480, HT-29, and Caco-2. Treatment of each cell line with apigenin (0-80 microM) resulted in a dose-dependent reduction in both cell number and cellular protein content, compared with untreated control cultures. DNA flow cytometric analysis indicated that treatment with apigenin resulted in G2/M arrest in all three cell lines in a time- and dose-dependent manner. Apigenin treatment (80 microM) for 48 h produced maximum G2/M arrest of 64%, 42%, and 26% in SW480 cells, HT-29 cells, and Caco-2 cells, respectively, in comparison with control cells (15%). The proportion of S-phase cells was not altered by apigenin treatment in each of the three cell lines. The G2/M arrest was reversible after 48 h of apigenin treatment in the most sensitive cell line SW480. The degree of G2/M arrest by apigenin was inversely correlated with the corresponding inhibition of cell growth measurements in all three cell lines (r = -0.626 to -0.917, P</=0. 005). Moreover, an immune complex kinase assay demonstrated an inhibition of p34(cdc2) kinase activity, a critical enzyme in G2/M transition, in each cell line after treatment with apigenin (50-80 microM). Western blot analyses indicated that both p34(cdc2) and cyclin B1 proteins were also decreased after apigenin treatment. These results indicate that apigenin inhibits colon carcinoma cell growth by inducing a reversible G2/M arrest and that this arrest is associated, at least in part, with inhibited activity of p34(cdc2) kinase and reduced accumulation of p34(cdc2) and cyclin B1 proteins. Differences in induction of G2/M arrest by apigenin in the three colon carcinoma cell lines suggest that dietary apigenin may be differentially effective against tumors with specific mutational spectra. Mol. Carcinog. 28:102-110, 2000.

Apigenin, a widely distributed plant flavonoid, was previously found to inhibit chemically induced ornithine decarboxylase (ODC) activity and skin tumor promotion. The purpose of the present research was to determine if apigenin is effective in the prevention of ultraviolet-B light (UVB) induced skin carcinogenesis. Further studies ascertained if apigenin would be expected to absorb UVB light in a manner to prevent DNA damage in a cell free system. ODC activity was induced with 0.45 J/cm2 ultraviolet A and B (UVA/B) light. Apigenin (5 mumoles/200 microliters DMSO:acetone, 1:9) treatment from 12 hours before until 1 hour following UVA/B exposure was effective in inhibition (25-45% inhibition) of ODC activity measured at 28 hours following UVA/B exposure. Mouse skin carcinogenesis was induced by exposure to a total dose of 40 J/cm2 UVB over 11 weeks. Treatment with 10 mumoles apigenin in 200 microliters DMSO:acetone (1:9) prior to each UVB exposure resulted in reduction in cancer incidence (52% inhibition) and an increase in tumor free survival in comparison with control mice (P < 0.01). Apigenin (0-100 microM) did not prevent the in vitro production of photoproducts in salmon sperm DNA suggesting that apigenin did not inhibit UVA/B induced ODC activity or UVB induced skin carcinogenesis by simply absorbing ultraviolet light or decreasing DNA damage.