Literature DB >> 20034567

Intraneuronal amyloid beta accumulation and oxidative damage to nucleic acids in Alzheimer disease.

Akihiko Nunomura1, Toshio Tamaoki, Koich Tanaka, Nobutaka Motohashi, Masao Nakamura, Takaaki Hayashi, Haruyasu Yamaguchi, Shun Shimohama, Hyoung-gon Lee, Xiongwei Zhu, Mark A Smith, George Perry.   

Abstract

In an analysis of amyloid pathology in Alzheimer disease, we used an in situ approach to identify amyloid-beta (Abeta) accumulation and oxidative damage to nucleic acids in postmortem brain tissue of the hippocampal formation from subjects with Alzheimer disease. When carboxyl-terminal-specific antibodies directed against Abeta40 and Abeta42 were used for immunocytochemical analyses, Abeta42 was especially apparent within the neuronal cytoplasm, at sites not detected by the antibody specific to Abeta-oligomer. In comparison to the Abeta42-positive neurons, neurons bearing oxidative damage to nucleic acids were more widely distributed in the hippocampus. Comparative density measurements of the immunoreactivity revealed that levels of intraneuronal Abeta42 were inversely correlated with levels of intraneuronal 8-hydroxyguanosine, an oxidized nucleoside (r=- 0.61, p<0.02). Together with recent evidence that the Abeta peptide can act as an antioxidant, these results suggest that intraneuronal accumulation of non-oligomeric Abeta may be a compensatory response in neurons to oxidative stress in Alzheimer disease. 2009 Elsevier Inc. All rights reserved.

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Year:  2009        PMID: 20034567      PMCID: PMC2825655          DOI: 10.1016/j.nbd.2009.12.012

Source DB:  PubMed          Journal:  Neurobiol Dis        ISSN: 0969-9961            Impact factor:   5.996


  81 in total

1.  Amyloid beta-protein fibrillogenesis. Structure and biological activity of protofibrillar intermediates.

Authors:  D M Walsh; D M Hartley; Y Kusumoto; Y Fezoui; M M Condron; A Lomakin; G B Benedek; D J Selkoe; D B Teplow
Journal:  J Biol Chem       Date:  1999-09-03       Impact factor: 5.157

2.  Kinesin-mediated axonal transport of a membrane compartment containing beta-secretase and presenilin-1 requires APP.

Authors:  A Kamal; A Almenar-Queralt; J F LeBlanc; E A Roberts; L S Goldstein
Journal:  Nature       Date:  2001-12-06       Impact factor: 49.962

3.  The production of amyloid beta peptide is a critical requirement for the viability of central neurons.

Authors:  Leigh D Plant; John P Boyle; Ian F Smith; Chris Peers; Hugh A Pearson
Journal:  J Neurosci       Date:  2003-07-02       Impact factor: 6.167

4.  Alzheimer's disease amyloid beta peptide 25-35 inhibits lipid peroxidation as a result of its membrane interactions.

Authors:  M F Walter; P E Mason; R P Mason
Journal:  Biochem Biophys Res Commun       Date:  1997-04-28       Impact factor: 3.575

5.  Evidence that neurones accumulating amyloid can undergo lysis to form amyloid plaques in Alzheimer's disease.

Authors:  M R D'Andrea; R G Nagele; H Y Wang; P A Peterson; D H Lee
Journal:  Histopathology       Date:  2001-02       Impact factor: 5.087

6.  Intraneuronal Abeta accumulation precedes plaque formation in beta-amyloid precursor protein and presenilin-1 double-transgenic mice.

Authors:  O Wirths; G Multhaup; C Czech; V Blanchard; S Moussaoui; G Tremp; L Pradier; K Beyreuther; T A Bayer
Journal:  Neurosci Lett       Date:  2001-06-22       Impact factor: 3.046

7.  Diagnosis of Alzheimer's disease.

Authors:  Z S Khachaturian
Journal:  Arch Neurol       Date:  1985-11

8.  Hydrogen peroxide is generated during the very early stages of aggregation of the amyloid peptides implicated in Alzheimer disease and familial British dementia.

Authors:  Brian J Tabner; Omar M A El-Agnaf; Stuart Turnbull; Matthew J German; Katerina E Paleologou; Yoshihito Hayashi; Leanne J Cooper; Nigel J Fullwood; David Allsop
Journal:  J Biol Chem       Date:  2005-09-01       Impact factor: 5.157

9.  Amyloid peptides are toxic via a common oxidative mechanism.

Authors:  D Schubert; C Behl; R Lesley; A Brack; R Dargusch; Y Sagara; H Kimura
Journal:  Proc Natl Acad Sci U S A       Date:  1995-03-14       Impact factor: 11.205

10.  Redox proteomics identification of oxidatively modified hippocampal proteins in mild cognitive impairment: insights into the development of Alzheimer's disease.

Authors:  D Allan Butterfield; H Fai Poon; Daret St Clair; Jeffery N Keller; William M Pierce; Jon B Klein; William R Markesbery
Journal:  Neurobiol Dis       Date:  2006-02-08       Impact factor: 5.996
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  36 in total

Review 1.  Oxidative damage to RNA in aging and neurodegenerative disorders.

Authors:  Akihiko Nunomura; Paula I Moreira; Rudy J Castellani; Hyoung-Gon Lee; Xiongwei Zhu; Mark A Smith; George Perry
Journal:  Neurotox Res       Date:  2012-06-06       Impact factor: 3.911

2.  The earliest stage of cognitive impairment in transition from normal aging to Alzheimer disease is marked by prominent RNA oxidation in vulnerable neurons.

Authors:  Akihiko Nunomura; Toshio Tamaoki; Nobutaka Motohashi; Masao Nakamura; Daniel W McKeel; Massimo Tabaton; Hyoung-Gon Lee; Mark A Smith; George Perry; Xiongwei Zhu
Journal:  J Neuropathol Exp Neurol       Date:  2012-03       Impact factor: 3.685

Review 3.  Aβ oligomer-induced synapse degeneration in Alzheimer's disease.

Authors:  Kyle C Wilcox; Pascale N Lacor; Jason Pitt; William L Klein
Journal:  Cell Mol Neurobiol       Date:  2011-05-03       Impact factor: 5.046

4.  Biophysical properties, thermal stability and functional impact of 8-oxo-7,8-dihydroguanine on oligonucleotides of RNA-a study of duplex, hairpins and the aptamer for preQ1 as models.

Authors:  Yu J Choi; Krzysztof S Gibala; Tewoderos Ayele; Katherine V Deventer; Marino J E Resendiz
Journal:  Nucleic Acids Res       Date:  2017-02-28       Impact factor: 16.971

5.  High-resolution 3D reconstruction reveals intra-synaptic amyloid fibrils.

Authors:  Estibaliz Capetillo-Zarate; Luis Gracia; Fangmin Yu; Jason R Banfelder; Michael T Lin; Davide Tampellini; Gunnar K Gouras
Journal:  Am J Pathol       Date:  2011-09-15       Impact factor: 4.307

6.  Frontiers in Alzheimer's disease therapeutics.

Authors:  Jeremy G Stone; Gemma Casadesus; Kasia Gustaw-Rothenberg; Sandra L Siedlak; Xinglong Wang; Xiongwei Zhu; George Perry; Rudy J Castellani; Mark A Smith
Journal:  Ther Adv Chronic Dis       Date:  2011-01-01       Impact factor: 5.091

7.  Phosphoinositides: Two-Path Signaling in Neuronal Response to Oligomeric Amyloid β Peptide.

Authors:  Romina María Uranga; Natalia Paola Alza; Melisa Ailén Conde; Silvia Susana Antollini; Gabriela Alejandra Salvador
Journal:  Mol Neurobiol       Date:  2016-04-14       Impact factor: 5.590

8.  Toxicity in rat primary neurons through the cellular oxidative stress induced by the turn formation at positions 22 and 23 of Aβ42.

Authors:  Naotaka Izuo; Toshiaki Kume; Mizuho Sato; Kazuma Murakami; Kazuhiro Irie; Yasuhiko Izumi; Akinori Akaike
Journal:  ACS Chem Neurosci       Date:  2012-06-06       Impact factor: 4.418

Review 9.  Markers of oxidant stress that are clinically relevant in aging and age-related disease.

Authors:  Kimberly D Jacob; Nicole Noren Hooten; Andrzej R Trzeciak; Michele K Evans
Journal:  Mech Ageing Dev       Date:  2013-02-18       Impact factor: 5.432

10.  X-ray induced cataract is preceded by LEC loss, and coincident with accumulation of cortical DNA, and ROS; similarities with age-related cataracts.

Authors:  William Pendergrass; Galynn Zitnik; Ryan Tsai; Norman Wolf
Journal:  Mol Vis       Date:  2010-08-06       Impact factor: 2.367
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