Literature DB >> 17478722

Reducing endogenous tau ameliorates amyloid beta-induced deficits in an Alzheimer's disease mouse model.

Erik D Roberson1, Kimberly Scearce-Levie, Jorge J Palop, Fengrong Yan, Irene H Cheng, Tiffany Wu, Hilary Gerstein, Gui-Qiu Yu, Lennart Mucke.   

Abstract

Many potential treatments for Alzheimer's disease target amyloid-beta peptides (Abeta), which are widely presumed to cause the disease. The microtubule-associated protein tau is also involved in the disease, but it is unclear whether treatments aimed at tau could block Abeta-induced cognitive impairments. Here, we found that reducing endogenous tau levels prevented behavioral deficits in transgenic mice expressing human amyloid precursor protein, without altering their high Abeta levels. Tau reduction also protected both transgenic and nontransgenic mice against excitotoxicity. Thus, tau reduction can block Abeta- and excitotoxin-induced neuronal dysfunction and may represent an effective strategy for treating Alzheimer's disease and related conditions.

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Year:  2007        PMID: 17478722     DOI: 10.1126/science.1141736

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  801 in total

Review 1.  Targeting tau protein in Alzheimer's disease.

Authors:  Cheng-Xin Gong; Inge Grundke-Iqbal; Khalid Iqbal
Journal:  Drugs Aging       Date:  2010-05       Impact factor: 3.923

2.  Pre-synaptic C-terminal truncated tau is released from cortical synapses in Alzheimer's disease.

Authors:  Sophie Sokolow; Kristen M Henkins; Tina Bilousova; Bianca Gonzalez; Harry V Vinters; Carol A Miller; Lindsey Cornwell; Wayne W Poon; Karen H Gylys
Journal:  J Neurochem       Date:  2015-01-13       Impact factor: 5.372

Review 3.  Mouse models of Alzheimer's disease.

Authors:  Alicia M Hall; Erik D Roberson
Journal:  Brain Res Bull       Date:  2011-11-28       Impact factor: 4.077

4.  SOD1 (copper/zinc superoxide dismutase) deficiency drives amyloid β protein oligomerization and memory loss in mouse model of Alzheimer disease.

Authors:  Kazuma Murakami; Nakaba Murata; Yoshihiro Noda; Shoichi Tahara; Takao Kaneko; Noriaki Kinoshita; Hiroyuki Hatsuta; Shigeo Murayama; Kevin J Barnham; Kazuhiro Irie; Takuji Shirasawa; Takahiko Shimizu
Journal:  J Biol Chem       Date:  2011-11-09       Impact factor: 5.157

Review 5.  Alzheimer's therapeutics: translation of preclinical science to clinical drug development.

Authors:  Alena V Savonenko; Tatiana Melnikova; Andrew Hiatt; Tong Li; Paul F Worley; Juan C Troncoso; Phil C Wong; Don L Price
Journal:  Neuropsychopharmacology       Date:  2011-09-21       Impact factor: 7.853

Review 6.  It's all about tau.

Authors:  Cheril Tapia-Rojas; Fabian Cabezas-Opazo; Carol A Deaton; Erick H Vergara; Gail V W Johnson; Rodrigo A Quintanilla
Journal:  Prog Neurobiol       Date:  2018-12-31       Impact factor: 11.685

Review 7.  Hyperphosphorylated tau is implicated in acquired epilepsy and neuropsychiatric comorbidities.

Authors:  Ping Zheng; Sandy R Shultz; Chris M Hovens; Dennis Velakoulis; Nigel C Jones; Terence J O'Brien
Journal:  Mol Neurobiol       Date:  2013-12-10       Impact factor: 5.590

Review 8.  Delineating the mechanism of Alzheimer's disease A beta peptide neurotoxicity.

Authors:  Roberto Cappai; Kevin J Barnham
Journal:  Neurochem Res       Date:  2007-08-31       Impact factor: 3.996

9.  Multiple mechanisms of extracellular tau spreading in a non-transgenic tauopathy model.

Authors:  Meghan N Le; Wonhee Kim; Sangmook Lee; Ann C McKee; Garth F Hall
Journal:  Am J Neurodegener Dis       Date:  2012-11-25

10.  Hsp90-Tau complex reveals molecular basis for specificity in chaperone action.

Authors:  G Elif Karagöz; Afonso M S Duarte; Elias Akoury; Hans Ippel; Jacek Biernat; Tania Morán Luengo; Martina Radli; Tatiana Didenko; Bryce A Nordhues; Dmitry B Veprintsev; Chad A Dickey; Eckhard Mandelkow; Markus Zweckstetter; Rolf Boelens; Tobias Madl; Stefan G D Rüdiger
Journal:  Cell       Date:  2014-02-27       Impact factor: 41.582
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