摘要
几项研究表明, 在阿尔茨海默病(AD)中,可溶性淀粉样β(Aβ)oligomer-induced异常的神经元细胞周期重新初始对于引发神经退化和损失是一个重要组成部分。在这项研究中,我们调查了Ras的角色,这是一个众所周知的protooncoprotein,在可溶性Aβoligomer-induced异常的神经元细胞周期激活和随后的细胞损失重可以用维甲酸分化人类SH-SY5Y神经母细胞瘤细胞作为模型系统。依据之前的文献,我们表明,体外制剂的可溶性Aβ42寡聚物引发细胞周期激活不止是细胞增殖。作为一个新的发现,我们表明,Farnesylthiosalicylic酸(FTS),一个特定的化学Ras抑制剂,防止可溶性Aβ42低聚物preparation-induced细胞周期激活。此外,我们表明,占主导地位的消极的表达突变体h(S17N)防止可溶性Aβ42低聚物preparation-induced细胞周期的激活,确认特定角色的Ras途径。作为一种可能的情况更好地模仿阿尔茨海默病人的大脑,我们准备从Aβ42可溶性低聚物:Aβ40(3:7)肽混合物着手,表明这种低聚物制备同样诱导细胞周期激活也是Ras抑制剂所抑制的。最后,我们表明, 在我们的视黄酸分化SH-SY5Y细胞中FTS防止可溶性Aβ42低聚物preparationinduced细胞死亡。总体而言,我们的研究结果有力地表明,Ras活动需要可溶性Aβoligomer-induced异常的神经元细胞,和随后的神经损失,这被认为是AD发病的重要机制。
关键词: 阿尔茨海默氏症、淀粉样βAβ42 / Aβ40比率、细胞周期、farnesylthiosalisylic酸、低聚物。
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