Alzheimer's disease-associated neurotoxic peptide amyloid-beta impairs base excision repair in human neuroblastoma cells(315 visite) Forestier A, Douki T, Sauvaigo S, De Rosa V, Demeilliers C, Rachidi W
Int J Mol Sc (ISSN: 1422-0067linking, 1422-0067electronic, 1661-6596), 2012 Nov 13; 13(11): 14766-14787.
Tipo di articolo: Journal Article, Research Support, Non-U. S. Gov'T,
Impact factor: 2.464, Impact factor a 5 anni: 2.732
Url: Non disponibile.
Parole chiave: Alzheimer Disease Metabolism, Amyloid Beta-Peptides Genetics Metabolism, Cell Line, Tumor, Dna Damage Drug Effects Genetics, Dna Repair Drug Effects Genetics, Mitochondrial Genetics Metabolism, Gene Expression, Gene Expression Regulation, Neoplastic, Guanosine Analogs, Derivatives Metabolism, Humans, Neuroblastoma Genetics Metabolism, Oxidants Pharmacology, Oxidative Stress Drug Effects Genetics, Peptide Fragments Genetics Metabolism,
*** IBB - CNR *** Nucleic Acids Lesions Laboratory, SCIB/INAC, CEA, Joseph Fourier University-Grenoble 1, 17 rue des Martyrs, 38054 Grenoble Cedex 9, France. firstname.lastname@example.org.
Alzheimer's disease (AD) is the leading cause of dementia in developed countries. It is characterized by two major pathological hallmarks, one of which is the extracellular aggregation of the neurotoxic peptide amyloid-beta (Abeta), which is known to generate oxidative stress. In this study, we showed that the presence of Abeta in a neuroblastoma cell line led to an increase in both nuclear and mitochondrial DNA damage. Unexpectedly, a concomitant decrease in basal level of base excision repair, a major route for repairing oxidative DNA damage, was observed at the levels of both gene expression and protein activity. Moreover, the addition of copper sulfate or hydrogen peroxide, used to mimic the oxidative stress observed in AD-affected brains, potentiates Abeta-mediated perturbation of DNA damage/repair systems in the "Abeta cell line". Taken together, these findings indicate that Abeta could act as double-edged sword by both increasing oxidative nuclear/mitochondrial damage and preventing its repair. The synergistic effects of increased ROS production, accumulated DNA damage and impaired DNA repair could participate in, and partly explain, the massive loss of neurons observed in Alzheimer's disease since both oxidative stress and DNA damage can trigger apoptosis.<br>
Kim YH, Shin SW, Pellicano R, Fagoonee S, Choi IJ, Kim YI, Park B, Choi JM, Kim SG, Choi J, Park JY, Oh S, Yang HJ, Lim JH, Im JP, Kim JS, Jung HC, Ponzetto A, Figura N, Malfertheiner P, Choi IJ, Kook MC, Kim YI, Cho SJ, Lee JY, Kim CG, Park B, Nam BH, Bae SE, Choi KD, Choe J, Kim SO, Na HK, Choi JY, Ahn JY, Jung KW, Lee J, Kim DH, Chang HS, Song HJ, Lee GH, Jung HY, Seta T, Takahashi Y, Noguchi Y, Shikata S, Sakai T, Sakai K, Yamashita Y, Nakayama T, Leja M, Park JY, Murillo R, Liepniece-karele I, Isajevs S, Kikuste I, Rudzite D, Krike P, Parshutin S, Polaka I, Kirsners A, Santare D, Folkmanis V, Daugule I, Plummer M, Herrero R, Tsukamoto T, Nakagawa M, Kiriyama Y, Toyoda T, Cao X, Corral JE, Mera R, Dye CW, Morgan DR, Lee YC, Lin JT, Garcia Martin R, Matia Cubillo A, Lee SH, Park JM, Han YM, Ko WJ, Hahm KB, Leontiadis GI, Ford AC, Ichinose M, Sugano K, Jeong M, Park JM, Han YM, Park KY, Lee DH, Yoo JH, Cho JY, Hahm KB, Bang CS, Baik GH, Shin IS, Kim JB, Suk KT, Yoon JH, Kim YS, Kim DJ * Helicobacter pylori Eradication for Prevention of Metachronous Recurrence after Endoscopic Resection of Early Gastric Cancer(140 visite) N Engl J Med (ISSN: 0028-4793, 0028-4793linking, 1533-4406electronic), 2015 Jun; 30642104201566393291: 749-756. Impact Factor:59.558 DettagliEsporta in BibTeXEsporta in EndNote
Aloj L, Aurilio M, Rinaldi V, D'Ambrosio L, Tesauro D, Peitl PK, Maina T, Mansi R, Von Guggenberg E, Joosten L, Sosabowski JK, Breeman WA, De Blois E, Koelewijn S, Melis M, Waser B, Beetschen K, Reubi JC, De Jong M * The EEE project(327 visite) Proc Int Cosm Ray Conf Icrc Universidad Nacional Autonoma De Mexico, 2007; 5(HEPART2): 977-980. Impact Factor:0 DettagliEsporta in BibTeXEsporta in EndNote
235 Records (218 escludendo Abstract e Conferenze). Impact factor totale: 1104.967 (1037.436 escludendo Abstract e Conferenze). Impact factor a 5 anni totale: 1127.613 (1054.619 escludendo Abstract e Conferenze).