Wu Yuliang, Dai Xiao-Qing, Li Qiang, Chen Carl X, Mai Weiyi, Hussain Zahir, Long Wentong, Montalbetti Nicolás, Li Guochun, Glynne Richard, Wang Shaohua, Cantiello Horacio F, Wu Guanqing, Chen Xing-Zhen
Membrane Protein Research Group, Department of Physiology, University of Alberta, Edmonton, Alberta, Canada.
Hum Mol Genet. 2006 Nov 15;15(22):3280-92. doi: 10.1093/hmg/ddl404. Epub 2006 Sep 28.
Autosomal dominant polycystic kidney disease (ADPKD) is caused by mutations in PKD1, encoding polycystin-1 (PC1), or PKD2 (polycystin-2, PC2). Autosomal recessive PKD (ARPKD) is caused by mutations in PKHD1, encoding fibrocystin/polyductin (FPC). No molecular link between ADPKD and ARPKD has been determined. Here, we demonstrated, by yeast two-hybrid and biochemical assays, that KIF3B, a motor subunit of kinesin-2, associates with PC2 and FPC. Co-immunoprecipitation experiments using Madin-Darby canine kidney (MDCK) and inner medullary collecting duct (IMCD) cells and human kidney revealed that PC2 and KIF3B, FPC and KIF3B and, furthermore, PC2 and FPC are endogenously in the same complex(es), though no direct association between the PC2 and FPC intracellular termini was detected. In vitro binding and Far Western blot experiments demonstrated that PC2 and FPC are in the same complex only if KIF3B is present, presumably by forming a PC2-KIF3B-FPC complex. This was supported by our observation that altering KIF3B level in IMCD cells by over-expression or siRNA significantly affected complexing between PC2 and FPC. Immunofluorescence experiments showed that PC2, FPC and KIF3B partially co-localized in primary cilia of over-confluent and perinuclear regions of sub-confluent cells. Furthermore, KIF3B mediated functional modulation of purified PC2 channels by FPC in a planer lipid bilayer electrophysiology system. The FPC C-terminus substantially stimulated PC2 channel activity in the presence of KIF3B, whereas FPC or KIF3B alone had no effect. Taken together, we discovered that kinesin-2 is a linker between PC2 and FPC and mediates the regulation of PC2 channel function by FPC. Our study may be important for elucidating common molecular pathways for PKD of different genotypes.
常染色体显性多囊肾病(ADPKD)由编码多囊蛋白-1(PC1)的PKD1或PKD2(多囊蛋白-2,PC2)突变引起。常染色体隐性多囊肾病(ARPKD)由编码纤维囊素/多囊导管素(FPC)的PKHD1突变引起。尚未确定ADPKD与ARPKD之间的分子联系。在此,我们通过酵母双杂交和生化分析证明,驱动蛋白-2的运动亚基KIF3B与PC2和FPC相关联。使用犬肾Madin-Darby(MDCK)细胞、肾内髓集合管(IMCD)细胞和人肾进行的免疫共沉淀实验表明,PC2与KIF3B、FPC与KIF3B,此外,PC2与FPC在体内处于同一复合物中,尽管未检测到PC2与FPC细胞内末端之间的直接关联。体外结合和Far Western印迹实验表明,仅当存在KIF3B时,PC2与FPC才处于同一复合物中,推测是通过形成PC2-KIF3B-FPC复合物。我们观察到通过过表达或siRNA改变IMCD细胞中的KIF3B水平会显著影响PC2与FPC之间的复合,这支持了上述观点。免疫荧光实验表明,PC2、FPC和KIF3B在汇合过度细胞的初级纤毛和亚汇合细胞的核周区域部分共定位。此外,在平面脂质双层电生理系统中,KIF3B介导FPC对纯化的PC2通道的功能调节。在存在KIF3B的情况下,FPC的C末端显著刺激PC2通道活性,而单独的FPC或KIF3B则无作用。综上所述,我们发现驱动蛋白-2是PC2与FPC之间的连接物,并介导FPC对PC2通道功能的调节。我们的研究对于阐明不同基因型多囊肾病的共同分子途径可能具有重要意义。
