Maine Gabriel N, Burstein Ezra
Department of Internal Medicine, University of Michigan Medical School, Ann Arbor, Michigan 48109, USA.
Cell Cycle. 2007 Mar 15;6(6):672-6. doi: 10.4161/cc.6.6.3989. Epub 2007 Mar 7.
The COMM domain containing (COMMD) family of proteins represents a recently discovered set of evolutionarily conserved factors characterized by the presence of a defining carboxy-terminal motif. In vertebrates, there are ten members of the family, and among their emerging functions the control of the transcription factor NFkappaB has been most extensively studied. NFkappaB plays a critical role in a number of homeostatic processes in multicellular organisms, including the regulation of immunity and cell survival. COMMD proteins inhibit NFkappaB mediated gene expression, and recent mechanistic studies have revealed that COMMD1 controls the ubiquitination of NFkappaB subunits, an event linked to transcriptional termination. COMMD1 binds to a multimeric ubiquitin ligase containing Elongins B/C, Cul2 and SOCS1 (ECS( SOCS1)). In this complex, COMMD1 facilitates the binding of NFkappaB subunits to the ligase, thereby promoting their ubiquitination and degradation. Additional insights gained from these studies indicate that COMMD proteins likely play a broader role in cellular homeostasis through their participation in the ubiquitination pathway.
含COMM结构域(COMMD)的蛋白质家族是一组最近发现的进化保守因子,其特征是存在一个特定的羧基末端基序。在脊椎动物中,该家族有十个成员,在其新出现的功能中,对转录因子NFκB的调控研究最为广泛。NFκB在多细胞生物的许多稳态过程中起关键作用,包括免疫调节和细胞存活。COMMD蛋白抑制NFκB介导的基因表达,最近的机制研究表明,COMMD1控制NFκB亚基的泛素化,这一事件与转录终止有关。COMMD1与一种包含延伸蛋白B/C、Cul2和SOCS1的多聚泛素连接酶(ECS(SOCS1))结合。在这个复合物中,COMMD1促进NFκB亚基与连接酶的结合,从而促进它们的泛素化和降解。这些研究获得的其他见解表明,COMMD蛋白可能通过参与泛素化途径在细胞稳态中发挥更广泛的作用。