Koivisto P, Kolmer M, Visakorpi T, Kallioniemi O P
Laboratory of Cancer Genetics, Tampere University Hospital and Institute of Medical Technology, University of Tampere, Finland.
Am J Pathol. 1998 Jan;152(1):1-9.
Androgen receptor (AR) is a nuclear transcription factor that binds male sex steroids and mediates the biological effects of these hormones to the target cells, such as the epithelial cells of the prostate gland, by activating transcription of androgen-dependent genes. Withdrawal of androgens or the peripheral blockade of androgen action remain the critical therapeutic options for the treatment of advanced prostate cancer. However, after initial regression, many prostate cancers become hormone refractory and progress further with eventual fatal outcome. Understanding the mechanisms of tumor progression and endocrine therapy failure is an important goal. A large number of different molecular mechanisms may be responsible for development of hormone-refractory recurrent tumors. Many of these involve the AR gene and its complex downstream signaling pathways. The role of AR mutations and altered transactivational properties of the receptor have received the most attention as causative factors for progression. However, other mechanisms, such as AR gene amplification and overexpression or increased local bioconversion of androgens, may contribute to the development of progression by mechanisms that involve androgen-dependent cell growth. Here we review the role of the AR gene and its putative downstream effector pathways during human prostate cancer progression and endocrine therapy failure.
雄激素受体(AR)是一种核转录因子,它与雄性甾体激素结合,并通过激活雄激素依赖性基因的转录,将这些激素的生物学效应介导至靶细胞,如前列腺上皮细胞。去除雄激素或对外周雄激素作用进行阻断仍然是治疗晚期前列腺癌的关键治疗选择。然而,在最初的病情缓解后,许多前列腺癌会变得激素难治,并进一步进展,最终导致致命后果。了解肿瘤进展和内分泌治疗失败的机制是一个重要目标。大量不同的分子机制可能导致激素难治性复发性肿瘤的发生。其中许多机制涉及AR基因及其复杂的下游信号通路。AR突变以及受体反式激活特性改变作为疾病进展的致病因素受到了最多关注。然而,其他机制,如AR基因扩增和过表达,或雄激素局部生物转化增加,可能通过涉及雄激素依赖性细胞生长的机制促进疾病进展。在此,我们综述了AR基因及其假定的下游效应通路在人类前列腺癌进展和内分泌治疗失败过程中的作用。