Hussein Ahmed M, Aher Yogesh D, Kalaba Predrag, Aher Nilima Y, Dragačević Vladimir, Radoman Bojana, Ilić Marija, Leban Johann, Beryozkina Tetyana, Ahmed Abdel Baset M A, Urban Ernst, Langer Thierry, Lubec Gert
Department of Pharmaceutical Chemistry, University of Vienna, Vienna, Austria; Zoology Department, Faculty of Science, Al Azhar University, Assiut, Egypt.
Department of Pharmaceutical Chemistry, University of Vienna, Vienna, Austria.
Behav Brain Res. 2017 Aug 14;332:308-315. doi: 10.1016/j.bbr.2017.06.023. Epub 2017 Jun 16.
A series of compounds have been shown to enhance cognitive function via the dopaminergic system and indeed the search for more active and less toxic compounds is continuing. It was therefore the aim of the study to synthetise and test a novel heterocyclic compound for cognitive enhancement in a paradigm for working memory. Specific and effective dopamine re-uptake inhibition DAT (IC50=4,1±0,8μM) made us test this compound in a radial arm maze (RAM) in the rat. CE-125 (4-((benzhydrylsulfinyl)methyl)-2-cyclopropylthiazole), was tested for dopamine (DAT), serotonin and norepinephrine re-uptake inhibition by a well-established system. The working memory index (WMI) was evaluated in male Sprague Dawley rats that were intraperitoneally injected with CE-125 (1 or 10mg/kg body weight). In order to evaluate basic neurotoxicity, the open field, elevated plus maze, rota rod studies and the forced swim test were carried out. Frontal cortex was taken at the last day of the RAM test and dopamine receptors D1R and D2R, DAT and phosphorylated DAT protein levels were determined. On the 10th day both doses were increasing the WMI as compared to the vehicle-treated group. In both, trained and treated groups, D1R levels were significantly reduced while D2R levels were unchanged. DAT levels were comparable between all groups while phosphorylated DAT levels were increased in the trained group treated with 1mg/kg body weight. CE-125 as a probably non-neurotoxic compound and specific reuptake inhibitor was shown to increase performance (WMI) and modulation of the dopaminergic system is proposed as a possible mechanism of action.
一系列化合物已被证明可通过多巴胺能系统增强认知功能,事实上,寻找更具活性且毒性更小的化合物的工作仍在继续。因此,本研究的目的是合成并测试一种新型杂环化合物,以在工作记忆范式中增强认知。特异性且有效的多巴胺再摄取抑制作用(DAT,IC50 = 4.1±0.8μM)促使我们在大鼠的放射状臂迷宫(RAM)中测试该化合物。通过一个成熟的系统对CE - 125(4 - (二苯甲基亚磺酰基)甲基 - 2 - 环丙基噻唑)进行多巴胺(DAT)、5 - 羟色胺和去甲肾上腺素再摄取抑制测试。在腹腔注射CE - 125(1或10mg/kg体重)的雄性斯普拉格 - 道利大鼠中评估工作记忆指数(WMI)。为了评估基本神经毒性,进行了旷场试验、高架十字迷宫试验、转棒试验和强迫游泳试验。在RAM测试的最后一天取额叶皮质,测定多巴胺受体D1R和D2R、DAT以及磷酸化DAT蛋白水平。与赋形剂处理组相比,在第10天两种剂量均提高了WMI。在训练组和处理组中,D1R水平均显著降低,而D2R水平未改变。所有组之间的DAT水平相当,而在接受1mg/kg体重处理的训练组中磷酸化DAT水平升高。CE - 125作为一种可能无神经毒性的化合物和特异性再摄取抑制剂,被证明可提高性能(WMI),并提出多巴胺能系统的调节作为一种可能的作用机制。
