Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins, United States.
Curr Opin Pharmacol. 2009 Aug;9(4):419-26. doi: 10.1016/j.coph.2009.06.002. Epub 2009 Jul 1.
Prostate cancer may be the most common preventable cancer among men in the United States (US) and the rest of the developed world. Emerging insights into the molecular pathogenesis of prostate cancer suggest that damage to the prostate epithelium, potentially inflicted by a variety of exposures, triggers procarcinogenic inflammatory processes to promote disease development. In this milieu, the damaged epithelium may generate proliferative inflammatory atrophy (PIA) lesions, which may progress to prostatic intraepithelial neoplasia (PIN) or to prostate cancer. To attenuate prostatic carcinogenesis driven by chronic or recurrent prostate inflammation, rational chemoprevention has thus far featured anti-inflammatory drugs and antioxidants. Results from clinical trials of these approaches have been mixed, emphasizing the need for mechanistic studies of the contribution of inflammation to prostatic carcinogenesis, more extensive analyses of the pharmacology, including distribution of drugs into target tissue, and, rational development of biomarkers to identify patients that are most likely to respond to anti-inflammatory drugs and antioxidants (targeted chemoprevention), alone, or in combination (combination chemoprevention).
在美国和其他发达国家,前列腺癌可能是男性最常见的可预防癌症。前列腺癌的分子发病机制的新见解表明,前列腺上皮的损伤,可能由各种暴露引起,引发促癌炎症过程,促进疾病的发展。在这种环境下,受损的上皮可能会产生增生性炎症萎缩(PIA)病变,这些病变可能进展为前列腺上皮内瘤变(PIN)或前列腺癌。为了减轻由慢性或复发性前列腺炎症驱动的前列腺癌发生,合理的化学预防迄今为止采用了抗炎药物和抗氧化剂。这些方法的临床试验结果喜忧参半,强调需要对炎症对前列腺癌发生的贡献进行机制研究,更广泛地分析药理学,包括药物在靶组织中的分布,以及开发合理的生物标志物来识别最有可能对抗炎药物和抗氧化剂(靶向化学预防)有反应的患者,单独使用或联合使用(联合化学预防)。