RESUMO
Carcinogens, such as benzo[a]pyrene (B[a]P), allow cells to evade G(1) arrest (the stealth property), thus increasing the chance that DNA damage will ultimately result in transformation. In this study we have investigated the effects of B[a]P in MCF-7 cells incubated in the presence or absence of oestrogens (beta-oestradiol, oestrone or oestriol). The cytokinesis block micronucleus assay was used to examine cells for chromosomal damage. Micronuclei were scored in 500 binucleate cells per treatment. Increased micronucleus formation (3-fold) occurred following 24 h treatment with 10(-6) M B[a]P alone. Following co-treatment with either 10(-9) M beta-oestradiol, 10(-8) M oestrone or 10(-8) M oestriol, 2- to 3-fold increases in micronuclei were observed with 10(-8) M B[a]P. When MCF-7 cells were pre-incubated for 96 h with 10(-9) M beta-oestradiol, 10(-8) M oestrone or 10(-8) M oestriol prior to the addition of B[a]P for 24 h, up to a 5-fold enhanced sensitivity to micronucleus formation was observed with beta-oestradiol and oestrone, while oestriol appeared to reduce levels of micronucleus formation. B[a]P-induced decreases in cell proliferation (per cent binucleate cells) and plating efficiency were reversed by all three oestrogens. Analysis of cell cycle distributions revealed that treatment with oestrogens or B[a]P alone did not induce marked effects on cell cycle distributions. However, in combination oestrogen and B[a]P induced increases in G(0)/G(1), decreases in S phase and increases in G(2)/M. This work suggests that whilst oestrogens appear to enhance carcinogen-induced DNA damage, they also appear, paradoxically, to trigger mechanisms that facilitate clonogenic survival, which may be relevant to breast cancer initiation.
