Ferdous Anwarul, Sikder Devanjan, Gillette Thomas, Nalley Kip, Kodadek Thomas, Johnston Stephen Albert
Center for Biomedical Inventions and Department of Microbiology, University of Texas-Southwestern Medical Center, Dallas, Texas 75390, USA.
Genes Dev. 2007 Jan 1;21(1):112-23. doi: 10.1101/gad.1493207. Epub 2006 Dec 13.
Recent studies have shown that the intersection between transcription and proteins involved in the ubiquitin-proteasome pathway encompasses both proteolytic and nonproteolytic functions. Examples of the latter type include evidence that monoubiquitylation of some transcriptional activators stimulates their activity. In addition, the proteasomal ATPases are recruited to many active promoters through binding to activators and play an important, nonproteolytic role in promoter escape and elongation. In this study, we report the discovery of a new nonproteolytic activity of the proteasome (specifically the proteasomal ATPases): the active destabilization of activator-promoter complexes. This reaction depends on the presence of an activation domain and ATP. Destabilization is inhibited in vitro and in vivo if the protein is monoubiquitylated or if ubiquitin is genetically fused to the activator. The fact that monoubiquitylated activator is resistant to the "stripping" activity of the proteasomal ATPases may explain, in part, why some activators require this modification in order to function efficiently.
最近的研究表明,转录与泛素 - 蛋白酶体途径中涉及的蛋白质之间的交叉包含蛋白水解和非蛋白水解功能。后一种类型的例子包括一些转录激活因子的单泛素化刺激其活性的证据。此外,蛋白酶体ATP酶通过与激活因子结合被招募到许多活跃的启动子上,并在启动子逃逸和延伸中发挥重要的非蛋白水解作用。在本研究中,我们报告了蛋白酶体(特别是蛋白酶体ATP酶)一种新的非蛋白水解活性的发现:激活因子 - 启动子复合物的主动去稳定化。该反应依赖于激活结构域和ATP的存在。如果蛋白质被单泛素化或泛素与激活因子进行基因融合,那么在体外和体内去稳定化都会受到抑制。单泛素化激活因子对蛋白酶体ATP酶的“剥离”活性具有抗性这一事实,可能部分解释了为什么一些激活因子需要这种修饰才能有效发挥作用。