Four biomarkers of neuronal protein oxidation [W/S ratio of MAL‐6 spin‐labeled synaptosomes, phenylhydrazine‐reactive protein carbonyl content, glutamine synthetase (GS) activity, creatine kinase (CK) activity] in three brain regions [cerebellum, inferior parietal lobule (IPL), and hippocampus (HIP)] of Alzheimer's disease (AD)‐demented and age‐matched control subjects were assessed. These endpoints indicate that AD brain protein may be more oxidized than that of control subjects. The W/S ratios of AD hippocampal and inferior parietal synaptosomes are 30 and 46% lower, respectively, than corresponding values of tissue isolated from control brain; however, the difference between the W/S ratios of AD and control cerebellar synaptosomes is not significant. Protein carbonyl content is increased 42 and 37% in the Alzheimer's HIP and IPL regions, respectively, relative to AD cerebellum, whereas carbonyl content in control HIP and IPL is similar to that of control cerebellum. GS activity decreases an average of 27% in the AD brain; CK activity declines by 80%. The brain regional variation of these oxidation‐sensitive biomarkers corresponds to established histopathological features of AD (senile plaque and neurofibrillary tangle densities) and is paralleled by an increase in immunoreactive microglia. These data indicate that senile plaque‐dense regions of the AD brain may represent environments of elevated oxidative stress.
Multiple lines of evidence indicate that oxidative stress is a contributor to neuronal death in Alzheimer's disease (AD). The oxidative damage that occurs to DNA may play a role in both normal aging and neurodegenerative diseases, including AD. This is a study of the oxidative damage that occurs in nuclear DNA in the brains of AD patients and cognitively intact, prospectively evaluated, age-matched control subjects. Nuclear DNA from frontal, temporal, and parietal lobes and cerebellum was isolated from 11 control subjects and 9 AD subjects, and oxidized purine and pyrimidine bases were quantitated using gas chromatography/mass spectrometry. Stable isotope-labeled oxidized base analogues were used as internal standards to measure 5-hydroxyuracil, 5-hydroxycytosine, 8-hydroxyadenine, 4,6-diamino-5-formamidopyrimidine (Fapy-adenine), 8-hydroxyguanine, and 2,6-diamino-4-hydroxy-5-formamidopyrimidine (Fapy-guanine). Statistically significant elevations of 5-hydroxycytosine, 5-hydroxyuracil, 8-hydroxyadenine, and 8-hydroxyguanine were found in AD brain compared with control subjects (p <0.05). There was an increased trend in the levels of Fapy-adenine in the AD brain, and Fapyguanine showed a trend toward higher levels in control brains compared with AD. A generally higher level of oxidative DNA damage was present in neocortical regions than cerebellum. No significant correlation was observed between the oxidized bases and neurofibrillary tangle and senile plaque counts. Our results demonstrate that nuclear DNA damage by oxygen-derived radicals is increased in AD and support the concept that the brain is under increased oxidative stress in AD. Key Words: Alzheimer's disease-DNA oxidation -Oxidative stressGas chromatography/mass spectrometry.
Abstract:Previous studies have shown that the pathophysiology of Alzheimer's disease (AD) is linked to oxidative stress. Oxidative damage to different biomolecular components of the brain is a characteristic feature of AD. Recent evidence suggests that methionine may act as an antioxidant defense molecule in proteins by its ability to scavenge oxidants and, in the process, undergo oxidation to form methionine sulfoxide. The enzyme peptide, methionine sulfoxide reductase (MsrA), reverses methionine sulfoxide back to methionine, which once again is able to scavenge oxidants. The purpose of this study was to measure the activity of MsrA in the brain of AD patients compared with control subjects. Our results showed that there was a decline in MsrA activity in all brain regions studied in AD and this decline reached statistical significance in the superior and middle temporal gyri ( p Ͻ 0.001), inferior parietal lobule ( p Ͻ 0.05), and the hippocampus ( p Ͻ 0.05) in AD. An elevation of protein carbonyl content was found in all brain regions except the cerebellum in AD and reached statistical significance in the superior and middle temporal gyri and hippocampus. Messenger RNA analysis suggests that the loss in enzyme activity may be the result of a posttranslational modification of MsrA or a defect of translation resulting in inferior processing of the MsrA mRNA. Our results suggest that a decline in MsrA activity could reduce the antioxidant defenses and increase the oxidation of critical proteins in neurons in the brain in AD. Key Words: Alzheimer's disease-Methionine sulfoxide-Peptide methionine sulfoxide reductase-Reactive oxygen speciesOxidative stress.
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