Aguzzi Adriano, Baumann Frank, Bremer Juliane
Institute of Neuropathology, University of Zurich, CH-8091 Zurich, Switzerland.
Annu Rev Neurosci. 2008;31:439-77. doi: 10.1146/annurev.neuro.31.060407.125620.
The protein-only hypothesis posits that the infectious agent causing transmissible spongiform encephalopathies consists of protein and lacks any informational nucleic acids. This agent, termed prion by Stanley Prusiner, is thought to consist partly of PrP(Sc), a conformational isoform of a normal cellular protein termed PrP(C). Scientists and lay persons have been fascinated by the prion concept, and it has been subjected to passionate critique and intense experimental scrutiny. As a result, PrP(C) and its isoforms rank among the most intensively studied proteins encoded by the mammalian genome. Despite all this research, both the physiological function of PrP(C) and the molecular pathways leading to neurodegeneration in prion disease remain unknown. Here we review the salient traits of those diseases ascribed to improper behavior of the prion protein and highlight how the physiological functions of PrP(C) may help explain the toxic phenotypes observed in prion disease.
仅蛋白质假说认为,导致传染性海绵状脑病的感染因子仅由蛋白质构成,不含任何信息性核酸。这种因子被斯坦利·普鲁辛纳命名为朊病毒,被认为部分由PrP(Sc)组成,PrP(Sc)是一种正常细胞蛋白PrP(C)的构象异构体。科学家和普通大众都对朊病毒概念着迷,它也受到了激烈的批评和严格的实验审查。因此,PrP(C)及其异构体位列哺乳动物基因组编码的研究最深入的蛋白质之中。尽管进行了所有这些研究,但PrP(C)的生理功能以及朊病毒疾病中导致神经退行性变的分子途径仍然未知。在此,我们回顾那些归因于朊病毒蛋白异常行为的疾病的显著特征,并强调PrP(C)的生理功能如何有助于解释在朊病毒疾病中观察到的毒性表型。