Jürgen Götz1, Yun-An Lim, Yazi D Ke, Anne Eckert, Lars M Ittner. 1. Alzheimer's and Parkinson's Disease Laboratory, Brain and Mind Research Institute, University of Sydney, Camperdown, N.S.W., Australia. jgoetz@med.usyd.edu.au
Abstract
BACKGROUND: How beta-amyloid (Abeta) and tau exert toxicity in Alzheimer's disease is only partly understood. Major questions include (1) which aggregation state of Abeta confers toxicity, (2) do amyloidogenic proteins have similar mechanisms of toxicity, and (3) does soluble tau interfere with cellular functions? METHODS: To determine Abeta toxicity in P301L mutant tau transgenic mice, mitochondrial function was assessed after insult with monomeric, oligomeric and fibrillar Abeta. Amylin and Abeta toxicity were compared in cortical and hippocampal long-term cultures. To determine tau toxicity, K369I mutant tau mice were established as a model of frontotemporal dementia, analyzed biochemically and compared with human diseased brain. RESULTS: Oligomeric and fibrillar Abeta42 were both toxic, although to different degrees. Human amylin shared toxicity with Abeta42, an effect not observed for nonamyloidogenic rat amylin. Clinical features of K369I tau mice were caused by aberrant interaction of phosphorylated tau with JIP1, a component of the kinesin transport machinery. CONCLUSION: Our data support the notion of a synergistic action of tau and Abeta pathology on mitochondria. A specific conformation of Abeta42 and human amylin determines toxicity. Finally, trapping of JIP1 by phosphorylated tau in the neuronal soma emerges as a fundamental pathomechanism in neurodegeneration. Copyright 2010 S. Karger AG, Basel.
BACKGROUND: How beta-amyloid (Abeta) and tau exert toxicity in Alzheimer's disease is only partly understood. Major questions include (1) which aggregation state of Abeta confers toxicity, (2) do amyloidogenic proteins have similar mechanisms of toxicity, and (3) does soluble tau interfere with cellular functions? METHODS: To determine Abeta toxicity in P301L mutant tautransgenic mice, mitochondrial function was assessed after insult with monomeric, oligomeric and fibrillar Abeta. Amylin and Abeta toxicity were compared in cortical and hippocampal long-term cultures. To determine tautoxicity, K369I mutant taumice were established as a model of frontotemporal dementia, analyzed biochemically and compared with human diseased brain. RESULTS: Oligomeric and fibrillar Abeta42 were both toxic, although to different degrees. Humanamylin shared toxicity with Abeta42, an effect not observed for nonamyloidogenic ratamylin. Clinical features of K369Itaumice were caused by aberrant interaction of phosphorylated tau with JIP1, a component of the kinesin transport machinery. CONCLUSION: Our data support the notion of a synergistic action of tau and Abeta pathology on mitochondria. A specific conformation of Abeta42 and humanamylin determines toxicity. Finally, trapping of JIP1 by phosphorylated tau in the neuronal soma emerges as a fundamental pathomechanism in neurodegeneration. Copyright 2010 S. Karger AG, Basel.
Authors: Fatou Amar; Mathew A Sherman; Travis Rush; Megan Larson; Gabriel Boyle; Liu Chang; Jürgen Götz; Alain Buisson; Sylvain E Lesné Journal: Sci Signal Date: 2017-05-09 Impact factor: 8.192
Authors: Phuong H Nguyen; Ayyalusamy Ramamoorthy; Bikash R Sahoo; Jie Zheng; Peter Faller; John E Straub; Laura Dominguez; Joan-Emma Shea; Nikolay V Dokholyan; Alfonso De Simone; Buyong Ma; Ruth Nussinov; Saeed Najafi; Son Tung Ngo; Antoine Loquet; Mara Chiricotto; Pritam Ganguly; James McCarty; Mai Suan Li; Carol Hall; Yiming Wang; Yifat Miller; Simone Melchionna; Birgit Habenstein; Stepan Timr; Jiaxing Chen; Brianna Hnath; Birgit Strodel; Rakez Kayed; Sylvain Lesné; Guanghong Wei; Fabio Sterpone; Andrew J Doig; Philippe Derreumaux Journal: Chem Rev Date: 2021-02-05 Impact factor: 60.622