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Nucleic acid oxidation: an early feature of Alzheimer's disease
Authors:Melissa A. Bradley‐Whitman  Michael D. Timmons  Tina L. Beckett  Michael P. Murphy  Bert C. Lynn  Mark A. Lovell
Affiliation:1. Sanders‐Brown Center on Aging and Alzheimer's Disease Center, University of Kentucky, , Lexington, Kentucky, USA;2. Department of Chemistry, University of Kentucky, , Lexington, Kentucky, USA;3. Department of Molecular and Cellular Biochemistry, University of Kentucky, , Lexington, Kentucky, USA;4. University of Kentucky Mass Spectrometry Facility, University of Kentucky, , Lexington, Kentucky, USA
Abstract:Studies of oxidative damage during the progression of Alzheimer's disease (AD) suggest its central role in disease pathogenesis. To investigate levels of nucleic acid oxidation in both early and late stages of AD, levels of multiple base adducts were quantified in nuclear and mitochondrial DNA from the superior and middle temporal gyri (SMTG), inferior parietal lobule (IPL), and cerebellum (CER) of age‐matched normal control subjects, subjects with mild cognitive impairment, preclinical AD, late‐stage AD, and non‐AD neurological disorders (diseased control; DC) using gas chromatography/mass spectrometry. Median levels of multiple DNA adducts in nuclear and mitochondrial DNA were significantly (p ≤ 0.05) elevated in the SMTG, IPL, and CER in multiple stages of AD and in DC subjects. Elevated levels of fapyguanine and fapyadenine in mitochondrial DNA suggest a hypoxic environment early in the progression of AD and in DC subjects. Overall, these data suggest that oxidative damage is an early event not only in the pathogenesis of AD but is also present in neurodegenerative diseases in general.
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Keywords:Alzheimer's disease  mild cognitive impairment  mitochondrial DNA  neurodegenerative diseases  nuclear DNA  preclinical Alzheimer's disease
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