LeVine Harry
Department of Molecular and Cellular Biochemistry, Chandler School of Medicine and the Center on Aging, University of Kentucky, KY, USA.
Amyloid. 2007 Sep;14(3):185-97. doi: 10.1080/13506120701461020.
The Abeta peptide assembles into a variety of distinct types of structures in vitro and in the brain which have different biological consequences. Differential effects of inhibitory small molecules suggest that a sequential monomer - oligomer - fibril mechanism is overly simplistic and that soluble toxic oligomers and fibrils can be formed in common or separate pathways depending on the local environment. As a result, the effects of inhibitors are often assay-dependent because multiple pathways are operating. This review discusses strategies for teasing apart the intricate protein-protein interactions that result in Abeta assembly.
β-淀粉样肽在体外和大脑中会组装成多种不同类型的结构,这些结构具有不同的生物学后果。抑制性小分子的不同作用表明,单体-寡聚体-原纤维的顺序机制过于简单,可溶性有毒寡聚体和原纤维可以根据局部环境通过共同或不同的途径形成。因此,抑制剂的作用通常取决于检测方法,因为存在多种作用途径。本文综述了剖析导致β-淀粉样肽组装的复杂蛋白质-蛋白质相互作用的策略。