Background: Cruciferous vegetables have been associated with the chemoprevention of cancer. Epigenetic regulators have been identified as important targets for prostate cancer chemoprevention. Treatment of human prostate cancer cells with sulforaphane (SFN), a chemical from broccoli and broccoli sprouts, inhibits epigenetic regulators such as histone deacetylase (HDAC) enzymes, but it is not known whether consumption of a diet high in broccoli sprouts impacts epigenetic mechanisms in an in vivo model of prostate cancer. Objective: In the transgenic adenocarcinoma of the mouse prostate (TRAMP) model, we tested the hypothesis that a broccoli sprout diet suppresses prostate cancer, inhibits HDAC expression, alters histone modifications, and changes the expression of genes regulated by HDACs. Methods: TRAMP mice were fed a 15% broccoli sprout, or control AIN93G diet; tissue samples were collected at 12 and 28 weeks of age. Results: Mice fed broccoli sprouts had detectable levels of SFN metabolites in liver, kidney, colon, and prostate tissues. Broccoli sprouts reduced prostate cancer incidence, and progression to invasive cancer by 11- and 2.4-fold at 12 and 28 weeks of age, respectively. There was a significant decline in HDAC3 protein expression in the epithelial cells of prostate ventral and anterior lobes at 12 weeks. Broccoli sprout consumption also decreased histone H3 lysine 9 tri-methylation in the ventral lobe (12 week), and decreased histone H3 lysine 18 acetylation in all prostate lobes (28 weeks). A decline in p16 mRNA levels, a gene regulated by HDAC3, was associated with broccoli sprouts consumption, but no significant changes were noted at the protein level. Conclusions: Broccoli sprout intake caused a decline in prostate cancer occurrence and HDAC3 protein expression in the prostate, extending prior work that implicated loss of HDAC3/corepressor interactions as a key preventive mechanism by SFN in vivo.
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