In Alzheimer and Parkinson diseases, oxidative alterations, affecting lipids, proteins, and DNA, have been described. Using an in situ approach to identify 8-hydroxyguanosine, an oxidized nucleoside, we recently identified RNA as a major target of oxidation in Alzheimer and Parkinson diseases as well as Down syndrome, where premature Alzheimer-like neuropathology is invariably found. RNA oxidation is localized to the neuronal populations potentially affected in these diseases. Together with the known mitochondrial dysfunction in Alzheimer and Parkinson diseases, the cytoplasmic predominance of neuronal 8-hydroxyguanosine supports mitochondria as the most likely source of reactive oxygen responsible for RNA oxidation. The consequence of oxidatively damaged RNA is not fully understood; however, the potential of oxidized RNA to cause errors in translation indicates a metabolic abnormality in neurodegenerative diseases.
Akihiko Nunomura, Toshio Tamaoki, Nobutaka Motohashi, Masao Nakamura, Daniel W. McKeel, Massimo Tabaton, Hyoung‐gon Lee, Mark A. Smith, George Perry, Xiongwei Zhu
Kazuhiro Honda, Mark A. Smith, Xiongwei Zhu, Diane Baus, William C. Merrick, Alan M. Tartakoff, Thomas Hattier, Peggy L.R. Harris, Sandra L. Siedlak, Hisashi Fujioka, Quan Liu, Paula I. Moreira, Frank P. Miller, Akihiko Nunomura, Shun Shimohama, George Perry
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