Chang Yung-Lung, Huang Chi-Jung, Chan James Yi-Hsin, Liu Pei-Yao, Chang Hui-Ping, Huang Shih-Ming
Department of Biochemistry, National Defense Medical Center, Taipei 114, Taiwan, ROC.
Int J Biochem Cell Biol. 2007;39(5):1035-46. doi: 10.1016/j.biocel.2007.02.002. Epub 2007 Feb 6.
Small ubiquitin-related modifier (SUMO) is a protein moiety that is ligated to lysine residues in a variety of target proteins. The SUMO E2 enzyme ubiquitin-conjugating enzyme 9 (Ubc9) is sufficient for substrate recognition and lysine modification of known SUMO targets. Previous studies have demonstrated that mutated Ubc9 that has lost its SUMO-ligating activity retains its enhancement on transactivation mediated by androgen receptor (AR). In contrast to the binding ability to Ubc9, the sumoylation of AR via the association of SUMO-1 and PIAS1 is able to repress AR-dependent transcription. In the present study, we present several lines of evidence to explain the role of over-expressed Ubc9 as a cofactor in the nuclear receptor and coactivator functions, including (i) activity that is independent of its ability to catalyze SUMO-1 conjugation, (ii) an insight into the protein-protein interaction motif in its eight C-terminal residues, (iii) selective coactivator function in nuclear receptor-relevant transactivation activities, and (iv) a non-trichostatin A-sensitive autonomous transcription repression domain in its far C-terminal region. Taken together, our data suggest that the both the protein-protein interaction through the Ubc9 C-terminus and its sumoylation-modifying activity provide the mechanism for regulating nuclear receptor functions.
小泛素相关修饰物(SUMO)是一种蛋白质部分,可与多种靶蛋白中的赖氨酸残基连接。SUMO E2酶泛素结合酶9(Ubc9)足以识别底物并对已知的SUMO靶标进行赖氨酸修饰。先前的研究表明,已丧失SUMO连接活性的突变型Ubc9仍能增强雄激素受体(AR)介导的反式激活作用。与对Ubc9的结合能力相反,通过SUMO-1与PIAS1的结合实现的AR的SUMO化能够抑制AR依赖性转录。在本研究中,我们提供了几条证据来解释过表达的Ubc9作为核受体和共激活因子功能的辅助因子的作用,包括:(i)与其催化SUMO-1缀合的能力无关的活性;(ii)对其八个C末端残基中蛋白质-蛋白质相互作用基序的深入了解;(iii)在核受体相关反式激活活性中的选择性共激活因子功能;以及(iv)在其远C末端区域存在一个对曲古抑菌素A不敏感的自主转录抑制域。综上所述,我们的数据表明,通过Ubc9 C末端的蛋白质-蛋白质相互作用及其SUMO化修饰活性共同提供了调节核受体功能的机制。
