Department of Biochemistry, Graduate School of Pharmaceutical Sciences, Hokkaido University, Sapporo, Japan.
Biol Pharm Bull. 2012;35(9):1539-45. doi: 10.1248/bpb.b12-00330.
B-cell translocation gene 1 and 2 (BTG1 and BTG2) are members of the BTG/Tob antiproliferative protein family, which is able to regulate the cell cycle and cell proliferation. We previously reported that BTG1, BTG2, Tob, and Tob2 are degraded via the ubiquitin-proteasome pathway. In this study, we investigated the mechanism of polyubiquitination of BTG1 and BTG2. Since the Skp1-Cdc53/Cullin 1-F-box protein (SCF) complex functions as one of the major ubiquitin ligases for cell cycle regulation, we first examined interactions between BTG proteins and components of the SCF complex, and found that BTG1 and BTG2 were capable of interacting with the SCF complex containing Cullin-1 (a scaffold protein) and Skp1 (a linker protein). As the SCF complex can ubiquitinate various target proteins by substituting different F-box proteins as subunits that recognize different target proteins, we next examined which F-box proteins could bind the two BTG proteins, and found that Skp2, β-transducin repeat-containing protein 1 (βTrCP1), and βTrCP2 were able to associate with both BTG1 and BTG2. Furthermore, we obtained evidence showing that βTrCP1 enhanced the polyubiquitination of both BTG1 and BTG2 more efficiently than Skp2 did, and that an F-box truncated mutant of βTrCP1 had a dominant negative effect on this polyubiquitination. Thus, we propose that BTG1 and BTG2 are subjected to polyubiquitination, more efficiently when it is mediated by SCFβTrCP than by SCFSkp2.
B 细胞易位基因 1 和 2(BTG1 和 BTG2)是 BTG/Tob 抗增殖蛋白家族的成员,能够调节细胞周期和细胞增殖。我们之前报道过 BTG1、BTG2、Tob 和 Tob2 通过泛素蛋白酶体途径降解。在这项研究中,我们研究了 BTG1 和 BTG2 多泛素化的机制。由于 Skp1-Cdc53/Cullin 1-F-box 蛋白(SCF)复合物作为细胞周期调节的主要泛素连接酶之一发挥作用,我们首先检查了 BTG 蛋白与 SCF 复合物成分之间的相互作用,并发现 BTG1 和 BTG2 能够与含有 Cullin-1(支架蛋白)和 Skp1(连接蛋白)的 SCF 复合物相互作用。由于 SCF 复合物可以通过取代不同的 F-box 蛋白作为识别不同靶蛋白的亚基来泛素化各种靶蛋白,我们接下来检查了哪些 F-box 蛋白可以与这两种 BTG 蛋白结合,发现 Skp2、β-转导重复蛋白 1(βTrCP1)和 βTrCP2 能够与 BTG1 和 BTG2 结合。此外,我们获得了证据表明,βTrCP1 比 Skp2 更有效地增强了 BTG1 和 BTG2 的多泛素化,并且 βTrCP1 的 F-box 截断突变体对这种多泛素化具有显性负效应。因此,我们提出 BTG1 和 BTG2 受到多泛素化的影响,当由 SCFβTrCP 介导时比由 SCFSkp2 介导时更有效。
