Abstract
Prostate cancer (PCa) is the second most common cancer in men globally. Its growth is driven by oxidative stress associated with inflammation, aging, and environmental factors, including diet and lifestyle. These factors contribute to multiple stages of PCa progression, including progression to castration-resistant prostate cancer (CRPC). Therefore, oxidative stress represents an intriguing target for PCa chemoprevention and treatment. In vivo experimental models are crucial for understanding the mechanisms of PCa development, validating chemopreventive and therapeutic approaches, and translating preclinical results into clinical applications. We established a transgenic rat for adenocarcinoma of the prostate (TRAP) model, a transgenic rat that efficiently develops androgen-dependent adenocarcinoma, pathologically and biologically mimicking human PCa progression, to clarify the mechanisms of tumor progression, including the involvement of oxidative stress, and established a system for screening the chemopreventive effects of agents against PCa. Additionally, we derived a CRPC model from the TRAP model and developed a distant metastasis model, providing a comprehensive multistage rat model of prostate carcinogenesis. This review presents findings on the molecular mechanisms of PCa and the chemopreventive effects of natural compounds with antioxidant properties, such as polyphenols. We additionally described the potential for repositioning existing drugs with antiandrogenic activity for PCa chemoprevention.
Published Version
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