Shah S, Forbes D J
Department of Biology 0347, University of California at San Diego, La Jolla, California 92093-0347, USA.
Curr Biol. 1998;8(25):1376-86. doi: 10.1016/s0960-9822(98)00018-9.
Proteins generally enter or exit the nucleus as cargo of one of a small family of import and export receptors. These receptors bear distant homology to importin beta, a subunit of the receptor for proteins with classical nuclear localisation sequences (NLSs). To understand the mechanism of nuclear transport, the next question involves identifying the nuclear pore proteins that interact with the different transport receptors as they dock at the pore and translocate through it.
Two pathways of nuclear import were found to intersect at a single nucleoporin, Nup153, localized on the intranuclear side of the nuclear pore. Nup153 contains separate binding sites for importin alpha/beta, which mediates classical NLS import, and for transportin, which mediates import of different nuclear proteins. Strikingly, a Nup153 fragment containing the importin beta binding site acted as a dominant-negative inhibitor of NLS import, with no effect on transportin-mediated import. Conversely, a Nup153 fragment containing the transportin binding site acted as a strong dominant-negative inhibitor of transportin import, with no effect on classical NLS import. The interaction of transportin with Nup153 could be disrupted by a non-hydrolyzable form of GTP or by a GTPase-deficient mutant of Ran, and was not observed if transportin carried cargo. Neither Nup153 fragment affected binding of the export receptor Crm1 at the nuclear rim.
Two nuclear import pathways, mediated by importin beta and transportin, converge on a single nucleoporin, Nup153. Dominant-negative fragments of Nup153 can now be used to distinguish different nuclear import pathways and, potentially, to dissect nuclear export.
蛋白质通常作为一小类输入和输出受体家族之一的货物进出细胞核。这些受体与输入蛋白β具有远缘同源性,输入蛋白β是具有经典核定位序列(NLS)的蛋白质受体的一个亚基。为了理解核运输的机制,下一个问题涉及确定在不同运输受体停靠在核孔并穿过核孔时与之相互作用的核孔蛋白。
发现两条核输入途径在位于核孔核内侧的单个核孔蛋白Nup153处相交。Nup153包含分别用于介导经典NLS输入的输入蛋白α/β和用于介导不同核蛋白输入的运输蛋白的结合位点。引人注目的是,包含输入蛋白β结合位点的Nup153片段作为NLS输入的显性负性抑制剂,对运输蛋白介导的输入没有影响。相反,包含运输蛋白结合位点的Nup153片段作为运输蛋白输入的强显性负性抑制剂,对经典NLS输入没有影响。运输蛋白与Nup153的相互作用可被不可水解形式的GTP或Ran的GTP酶缺陷型突变体破坏,如果运输蛋白携带货物则未观察到这种相互作用。两个Nup153片段均不影响输出受体Crm1在核边缘的结合。
由输入蛋白β和运输蛋白介导的两条核输入途径汇聚在单个核孔蛋白Nup153上。Nup153的显性负性片段现在可用于区分不同的核输入途径,并有可能用于剖析核输出。
