Kim Jayoung, Yanagihara Yutaka, Kikugawa Tadahiko, Ji Mihee, Tanji Nozomu, Masayoshi Yokoyama, Freeman Michael R
Departments of Surgery andBiological Chemistry and Molecular Pharmacology, Harvard Medical School, The Urological Diseases Research Center, Children's Hospital, Boston, Massachusetts 02115, USA.
Endocrinology. 2009 Aug;150(8):3576-83. doi: 10.1210/en.2008-1782. Epub 2009 May 14.
Benign prostatic hyperplasia (BPH) is an age-related disease of unknown etiology characterized by prostatic enlargement and coinciding with distinctive alterations in tissue histomorphology. To identify the molecular mechanisms underlying the development of BPH, we conducted a DNA microarray study using a previously described animal model in which chronic alpha(1)-adrenergic stimulation by repeated administration of phenylephrine evokes histomorphological changes in the rat prostate that resemble human BPH. Bioinformatic tools were applied to microarray data obtained from prostate tissue to construct a network model of potentially relevant signal transduction pathways. Significant involvement of inflammatory pathways was demonstrable, including evidence for activation of a TGF-beta signaling cascade. The heterodimeric protein clusterin (apolipoprotein J) was also identified as a prominent node in the network. Responsiveness of TGF-beta signaling and clusterin gene and protein expression were confirmed independently of the microarray data, verifying some components of the model. This is the first attempt to develop a comprehensive molecular network for histological BPH induced by adrenergic activation. The study also implicated clusterin as a novel biochemical target for therapy.
良性前列腺增生(BPH)是一种病因不明的与年龄相关的疾病,其特征为前列腺肿大,并伴有组织组织形态学的明显改变。为了确定BPH发生发展的分子机制,我们使用先前描述的动物模型进行了一项DNA微阵列研究,在该模型中,通过反复给予去氧肾上腺素进行慢性α(1)-肾上腺素能刺激,可诱发大鼠前列腺出现类似于人类BPH的组织形态学变化。将生物信息学工具应用于从前列腺组织获得的微阵列数据,以构建潜在相关信号转导通路的网络模型。结果表明炎症通路有显著参与,包括TGF-β信号级联激活的证据。异二聚体蛋白聚集素(载脂蛋白J)也被确定为该网络中的一个突出节点。独立于微阵列数据证实了TGF-β信号传导以及聚集素基因和蛋白表达的反应性,从而验证了该模型的一些组成部分。这是首次尝试为肾上腺素能激活诱导的组织学BPH建立一个全面的分子网络。该研究还表明聚集素是一种新的治疗生化靶点。