Dráberová Eduarda, Sulimenko Vadym, Vinopal Stanislav, Sulimenko Tetyana, Sládková Vladimíra, D'Agostino Luca, Sobol Margaryta, Hozák Pavel, Křen Leoš, Katsetos Christos D, Dráber Pavel
Department of Biology of Cytoskeleton, Academy of Sciences of the Czech Republic, Prague, Czech Republic.
Department of Pediatrics, Drexel University College of Medicine, St. Christopher's Hospital for Children and Hahnemann University Hospital, Philadelphia, Pennsylvania, USA.
FASEB J. 2017 May;31(5):1828-1846. doi: 10.1096/fj.201600846RR. Epub 2017 Jan 24.
γ-Tubulins are highly conserved members of the tubulin superfamily essential for microtubule nucleation. Humans possess 2 γ-tubulin genes. It is thought that γ-tubulin-1 represents a ubiquitous isotype, whereas γ-tubulin-2 is found predominantly in the brain, where it may be endowed with divergent functions beyond microtubule nucleation. The molecular basis of the purported functional differences between γ-tubulins is unknown. We report discrimination of human γ-tubulins according to their electrophoretic and immunochemical properties. mutagenesis revealed that the differences in electrophoretic mobility originate in the C-terminal regions of the γ-tubulins. Using epitope mapping, we discovered mouse monoclonal antibodies that can discriminate between human γ-tubulin isotypes. Real time quantitative RT-PCR and 2-dimensional-PAGE showed that γ-tubulin-1 is the dominant isotype in fetal neurons. Although γ-tubulin-2 accumulates in the adult brain, γ-tubulin-1 remains the major isotype in various brain regions. Localization of γ-tubulin-1 in mature neurons was confirmed by immunohistochemistry and immunofluorescence microscopy on clinical samples and tissue microarrays. Differentiation of SH-SY5Y human neuroblastoma cells by all- retinoic acid, or oxidative stress induced by mitochondrial inhibitors, resulted in upregulation of γ-tubulin-2, whereas the expression of γ-tubulin-1 was unchanged. Fractionation experiments and immunoelectron microscopy revealed an association of γ-tubulins with mitochondrial membranes. These data indicate that in the face of predominant γ-tubulin-1 expression, the accumulation of γ-tubulin-2 in mature neurons and neuroblastoma cells during oxidative stress may denote a prosurvival role of γ-tubulin-2 in neurons.-Dráberová, E., Sulimenko, V., Vinopal, S., Sulimenko, T., Sládková, V., D'Agostino, L., Sobol, M., Hozák, P., Křen, L., Katsetos, C. D., Dráber, P. Differential expression of human γ-tubulin isotypes during neuronal development and oxidative stress points to γ-tubulin-2 prosurvival function.
γ-微管蛋白是微管蛋白超家族中高度保守的成员,对微管成核至关重要。人类拥有2个γ-微管蛋白基因。据认为,γ-微管蛋白-1代表一种普遍存在的同种型,而γ-微管蛋白-2主要存在于大脑中,在那里它可能具有微管成核以外的不同功能。γ-微管蛋白之间所谓功能差异的分子基础尚不清楚。我们报告了根据人类γ-微管蛋白的电泳和免疫化学特性对其进行的区分。诱变揭示了电泳迁移率的差异源于γ-微管蛋白的C末端区域。通过表位作图,我们发现了能够区分人类γ-微管蛋白同种型的小鼠单克隆抗体。实时定量逆转录-聚合酶链反应和二维聚丙烯酰胺凝胶电泳显示,γ-微管蛋白-1是胎儿神经元中的主要同种型。尽管γ-微管蛋白-2在成人大脑中积累,但γ-微管蛋白-1仍然是各个脑区的主要同种型。通过对临床样本和组织微阵列进行免疫组织化学和免疫荧光显微镜检查,证实了γ-微管蛋白-1在成熟神经元中的定位。全反式维甲酸诱导SH-SY5Y人神经母细胞瘤细胞分化,或线粒体抑制剂诱导氧化应激,导致γ-微管蛋白-2上调,而γ-微管蛋白-1的表达未发生变化。分级分离实验和免疫电子显微镜显示γ-微管蛋白与线粒体膜有关联。这些数据表明,在γ-微管蛋白-1表达占主导的情况下,氧化应激期间成熟神经元和神经母细胞瘤细胞中γ-微管蛋白-2的积累可能表明γ-微管蛋白-2在神经元中具有促生存作用。-德拉贝罗娃,E.,苏利缅科,V.,维诺帕尔,S.,苏利缅科,T.,斯拉德科娃,V.,达戈斯蒂诺,L.,索博尔,M.,霍扎克,P.,克伦,L.,卡特塞托斯,C.D.,德拉贝,P.人类γ-微管蛋白同种型在神经元发育和氧化应激期间的差异表达表明γ-微管蛋白-2具有促生存功能。
