Bassarak Björn, Uzcátegui Nestor L, Schönfeld Caroline, Duszenko Michael
Interfaculty Institute for Biochemistry, University of Tübingen, Tübingen, Germany.
Cell Physiol Biochem. 2011;27(3-4):411-20. doi: 10.1159/000327968. Epub 2011 Apr 1.
Previous studies using bloodstream form Trypanosoma brucei have shown that glycerol transport in this parasite occurs via specific membrane proteins, namely a glycerol transporter and glycerol channels [1]. Later, we cloned, expressed and characterized the transport properties of all three aquaglyceroporins (AQP1-3) [2], which were found permeable for water, glycerol and other small uncharged solutes like dihydroxyacetone [3]. Here, we report on the cellular localization of TbAQP1 and TbAQP3 in bloodstream form trypanosomes. Indirect immunofluorescence analysis showed that TbAQP1 is exclusively localized in the flagellar membrane, whereas TbAQP3 was found in the plasma membrane.In addition, we analyzed the functions of all 3 AQPs, using an inducible inheritable double-stranded RNA interference methodology. All AQP knockdown cell lines were still able to survive hypo-osmotic stress conditions, except AQP2 knockdown parasites. Depleted TbAQP2 negatively impacted cell growth and the regulatory volume recovery, whereas AQP1 und 3 knockdown trypanosomes displayed phenotypes consistent with their localization in external membranes. A simultaneous knockdown of all 3 AQPs showed that the cells were able to substitute the missing glycerol uptake capability through a putative glycerol transporter.
先前使用布氏锥虫血流型的研究表明,该寄生虫中的甘油转运通过特定的膜蛋白进行,即甘油转运体和甘油通道[1]。后来,我们克隆、表达并表征了所有三种水甘油通道蛋白(AQP1 - 3)的转运特性[2],发现它们对水、甘油和其他一些不带电荷的小分子溶质(如二羟基丙酮)具有通透性[3]。在此,我们报告布氏锥虫血流型中TbAQP1和TbAQP3的细胞定位。间接免疫荧光分析表明,TbAQP1仅定位于鞭毛膜,而TbAQP3存在于质膜中。此外,我们使用诱导性可遗传双链RNA干扰方法分析了所有三种水甘油通道蛋白的功能。除了AQP2敲低的寄生虫外,所有水甘油通道蛋白敲低的细胞系仍能够在低渗应激条件下存活。TbAQP2缺失对细胞生长和调节性容积恢复产生负面影响,而AQP1和AQP3敲低的锥虫表现出与其在外膜中的定位一致的表型。同时敲低所有三种水甘油通道蛋白表明,细胞能够通过一种假定的甘油转运体替代缺失的甘油摄取能力。
