Gerlitz Gabi, Darhin Enbal, Giorgio Giovanna, Franco Brunella, Reiner Orly
The Department of Molecular Genetics, The Weizmann Institute of Science, Rehovot, Israel.
Cell Cycle. 2005 Nov;4(11):1632-40. doi: 10.4161/cc.4.11.2151. Epub 2005 Nov 7.
The presence of a conserved protein motif usually implies common functional features. Here, we focused on the LisH (LIS1 homology) domain, which is found in multiple proteins, and have focused on three involved in human genetic diseases; LIS1, Transducin beta-like 1X (TBL1) and Oral-facial-digital type 1 (OFD1). The recently solved structure of the LisH domain in the N-terminal region of LIS1 depicted it as a novel dimerization motif. Our findings indicated that the LisH domain of both LIS1 and TBL1 is essential for in vitro oligomerization. Furthermore, our study disclosed novel in vivo features of the LisH motif. Mutations in conserved LisH amino acids significantly reduced both the protein half-life of LIS1, TBL1, and OFD1, and dramatically affected specific intracellular localizations of these proteins. LIS1 mutated in the LisH domain induced its localization to the actin filaments. TBL1 mutated in the LisH domain was not imported into the nucleus. Mutations in OFD1 modified its localization to the Golgi apparatus and in some cases also to the nucleus. In summary, the LisH domain may participate in protein dimerization, affect protein half-life, and may influence specific cellular localizations. Our results allow the prediction that mutations within the LisH motif are likely to result in pathogenic consequences in genes associated with genetic diseases.
保守蛋白基序的存在通常意味着具有共同的功能特征。在此,我们聚焦于LisH(LIS1同源性)结构域,该结构域存在于多种蛋白质中,并且我们重点研究了三种与人类遗传疾病相关的蛋白质;LIS1、转导素β样蛋白1X(TBL1)和口面指综合征1型(OFD1)。最近解析的LIS1 N端区域LisH结构域的结构将其描绘为一种新型的二聚化基序。我们的研究结果表明,LIS1和TBL1的LisH结构域对于体外寡聚化至关重要。此外,我们的研究揭示了LisH基序新的体内特征。LisH保守氨基酸的突变显著缩短了LIS1、TBL1和OFD1的蛋白质半衰期,并显著影响了这些蛋白质在细胞内的特定定位。LisH结构域发生突变的LIS1诱导其定位于肌动蛋白丝。LisH结构域发生突变的TBL无法进入细胞核。OFD1的突变改变了其在高尔基体的定位,在某些情况下还改变了其在细胞核的定位。总之,LisH结构域可能参与蛋白质二聚化,影响蛋白质半衰期,并可能影响特定的细胞定位。我们的结果表明,LisH基序内的突变很可能在与遗传疾病相关的基因中导致致病后果。
