To establish the relationship between acrolein and 4-ABP exposure and BC, we analyzed acrolein-deoxyguanosine (dG) and 4-ABP-DNA adducts in normal human urothelial mucosa (NHUM) and bladder tumor tissues (BTT), and measured their mutagenicity in human urothelial cells.
These results strongly suggest that the unique binding spectrum of 4-ABP contributes greatly to the unique mutational spectrum in the p53 gene of human bladder cancer, and provide further molecular evidence to directly link 4-ABP to bladder cancer.
These results suggest that both the unique DNA binding specificity of 4-ABP and cytosine methylation contribute to the mutational spectrum of the p53 gene in human bladder cancer.
These results suggest that other sources, in addition to tobacco smoke, may contribute to 4-ABP-DNA adducts formation in bladder tissue and that p53 expression/mutation cannot be considered a prognostic factor in bladder cancer.
Thus, our results suggest that GSTM1 is involved in the detoxification of 3- and 4-ABP and may contribute to the racial variation in bladder cancer incidence among white, black, and Asian males in Los Angeles, CA.