Title: Disruption of cell cycle kinetics by benzo[a]pyrene: inverse expression patterns of BRCA-1 and p53 in MCF-7 cells arrested in S and G2.

Authors: Jeffy, B D; Chen, E J; Gudas, J M; Romagnolo, D F

Published In Neoplasia, (2000 Sep-Oct)

Abstract: The effects of a ligand of the aromatic hydrocarbon receptor (AhR), benzo[a] pyrene (B[ a]P), and its metabolite, BPDE (7r,8t-dihydroxy-9t,10t-epoxy-7,8,9,10-tetrahydro-benzo[a]pyrene), on BRCA-1 levels and cell cycle kinetics were determined in MCF-7 breast cancer cells. Exposure of asynchronous MCF-7 cells for 72 hours to a non-cytotoxic dose of 0.5 microM B[a]P triggered a three-fold reduction in BRCA-1 protein. In MCF-7 cells resistant (20% to 30%) to genotoxic concentrations of B[a]P (1 to 5 microM), the loss of BRCA-1 protein was coupled with pausing in S-phase and G2/M, and accumulation of p53, mdm2 and p21. Treatment of MCF-7 cells synchronized in S-phase (72%) with B[a]P prolonged the arrest in S-phase, although this checkpoint was transient since cells resumed to G2/M after 12 hours with reduced levels of BRCA-1. In these cells, levels of p53 were increased, whereas the cellular content of p21 remained unaltered. In contrast, the co-treatment with the AhR antagonist, alpha-naphthoflavone (ANF), abrogated the deleterious effects of B[a]P on BRCA-1 expression, while preventing the accumulation of p53 and disruption of cell cycle profile. These findings suggest that the AhR mediated the inverse expression patterns of BRCA-1 and p53 upon exposure to B[a]P. The treatment with BPDE induced S-phase arrest and reduced BRCA-1 mRNA levels. The negative effects of BPDE on BRCA-1 expression were not transient since removal of BPDE did not allow complete reversal of the repression. These cumulative data suggest that the B[a]P metabolite, BPDE, may play a key role in disruption of BRCA-1 expression and cell cycle kinetics in breast epithelial cells.

PubMed ID: 11191113

MeSH Terms: No MeSH terms associated with this publication