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引用次数: 0
摘要
1974年,我首次从尸检的阿尔茨海默病(AD)大脑中分离出成对螺旋丝(PHF)的神经纤维缠结,并在SDS-聚丙烯酰胺凝胶上发现它们是由一种约50-70 KDa的蛋白质组成的。随后,我的团队发现这种 PHF 蛋白和名为 tau 的微管相关因子是同一种蛋白质。然而,我们发现,AD大脑神经纤维缠结/PHFs中的tau异常过度磷酸化,与正常的tau不同,正常的tau促进微管蛋白组装成微管,而AD过度磷酸化的tau则抑制微管组装。这些关于注意力缺失症中 tau 病理学的发现,开辟了一个关于 tau 以及这个导致中老年痴呆症的主要病因的分子病理学的新的重要研究领域。Tau病理学由蛋白质的高磷酸化聚集状态构成,也是约20种相关神经退行性疾病(称为tau病)家族的标志性病变。目前,tau病理学是治疗AD和相关tau病的主要药物靶点。主动和被动 tau 免疫人体临床试验正处于不同阶段。初步结果从负面到部分乐观不等。未来的研究将揭示,tau疗法是单独使用还是与针对Aβ和/或神经变性的药物联合使用,才能实现对AD及相关疾病的最有效治疗。
Tau and Alzheimer's disease: Past, present and future
My journey with tau started when in 1974 for the first time I isolated neurofibrillary tangles of paired helical filaments (PHFs) from autopsied Alzheimer's disease (AD) brains and discovered that they were made up of a ~50–70 KDa protein on SDS-polyacrylamide gels. Subsequently my team discovered that this PHF protein and the microtubule-associated factor called tau were one and the same protein. However, we found that tau in neurofibrillary tangles/PHFs in AD brain was abnormally hyperphosphorylated, and unlike normal tau, which promoted the assembly of tubulin into microtubules, the AD-hyperphosphorylated tau inhibited microtubule assembly. These discoveries of tau pathology in AD opened a new and a major area of research on tau and on the molecular pathology of this major cause of dementia in middle- and old-age individuals. Tau pathology, which without fail is made up of the aggregated hyperphosphorylated state of the protein, is also the hallmark lesion of a family of around 20 related neurodegenerative diseases, called tauopathies. Currently, tau pathology is a major drug target for the treatment of AD and related tauopathies. Both active and passive tau immunization human clinical trials at various stages are underway. Initial results range from negative to partially promising. Future studies will reveal whether tau therapy alone or in combination with drugs targeting Aβ and/or neurodegeneration will be required to achieve the most effective treatment for AD and related disorders.
期刊介绍:
Cytoskeleton focuses on all aspects of cytoskeletal research in healthy and diseased states, spanning genetic and cell biological observations, biochemical, biophysical and structural studies, mathematical modeling and theory. This includes, but is certainly not limited to, classic polymer systems of eukaryotic cells and their structural sites of attachment on membranes and organelles, as well as the bacterial cytoskeleton, the nucleoskeleton, and uncoventional polymer systems with structural/organizational roles. Cytoskeleton is published in 12 issues annually, and special issues will be dedicated to especially-active or newly-emerging areas of cytoskeletal research.
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