King Frank W, Shtivelman Emma
Cancer Research Institute, University of California San Francisco, 94115, USA.
Mol Cell Biol. 2004 Aug;24(16):7091-101. doi: 10.1128/MCB.24.16.7091-7101.2004.
We report here that the normal cellular protein CC3/TIP30, when in excess, inhibits nuclear import in vitro and in vivo. CC3 binds directly to the karyopherins of the importin beta family in a RanGTP-insensitive manner and associates with nucleoporins in vivo. CC3 inhibits the nuclear import of proteins possessing either the classical nuclear localization signal or the M9 signal recognized by transportin. CC3 also inhibits nuclear translocation of transportin itself. Cells modified to express higher levels of CC3 have a slower rate of nuclear import and, as described earlier, show an increased sensitivity to death signals. A mutant CC3 protein lacking proapoptotic activity has a lower affinity for transportin, is displaced from it by RanGTP, and fails to inhibit nuclear import in vitro and in vivo. Together, our results support a correlation between the ability of CC3 to form a RanGTP-resistant complex with importins, inhibit nuclear import, and induce apoptosis. Significantly, a dominant-negative form of importin beta1 shown previously to inhibit multiple transport pathways induces rapid cell death, strongly indicating that inhibition of nuclear transport serves as a potent apoptotic signal.
我们在此报告,正常细胞蛋白CC3/TIP30过量时,会在体外和体内抑制核输入。CC3以对RanGTP不敏感的方式直接与输入蛋白β家族的核转运蛋白结合,并在体内与核孔蛋白相关联。CC3抑制具有经典核定位信号或被运输蛋白识别的M9信号的蛋白质的核输入。CC3还抑制运输蛋白自身的核转位。经修饰以表达更高水平CC3的细胞核输入速率较慢,如前所述,对死亡信号的敏感性增加。缺乏促凋亡活性的突变型CC3蛋白对运输蛋白的亲和力较低,会被RanGTP从运输蛋白上取代,并且在体外和体内均无法抑制核输入。总之,我们的结果支持CC3与输入蛋白形成抗RanGTP复合物、抑制核输入和诱导凋亡的能力之间存在关联。重要的是,先前显示可抑制多种运输途径的显性负性形式的输入蛋白β1会诱导细胞快速死亡,这强烈表明抑制核运输是一种有效的凋亡信号。