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W2037229980 endingPage "437" @default.
W2037229980 startingPage "426" @default.
W2037229980 abstract "Neuronal degeneration increases with age in response to stressors, but the sub-cellular mechanism is unknown, partly because of previous difficulty in studying aged neurons in isolation. We studied the mechanism of enhanced neuronal susceptibility to glutamate and beta-amyloid in terms of condensed nuclei and other upstream events in hippocampal neurons cultured from old rats (24 months) compared to middle-age (10 months) and embryonic rats. Treatment of neurons from old animals with beta-amyloid (or glutamate) produced condensed nuclei 1.5x (2x) more frequently than middle-age and 3x (4x) more frequently than embryonic neurons. In addition to age-related baseline levels of caspase activation, neurons from old animals showed a 50% greater increase in caspase activation compared to middle-age and embryonic neurons. In contrast to glutamate treatment, beta-amyloid caused oxyradical damage as protein carbonyls increased 2-fold higher for old neurons than middle-age and 10-fold higher than embryonic neurons. Contrary to expectations, steady-state calcium levels for adult neurons did not increase in response to beta-amyloid. Overall, these results suggest that aged neurons have an inherent increased susceptibility to beta-amyloid toxicity through an early action of oxyradicals followed by caspase activation and nuclear condensation, a common pathway of apoptosis. Age-related glutamate toxicity involves other steps that lead to nuclear condensation, but neuron responses to calcium influx appear more important to cell death than the amount of influx." @default.
W2037229980 created "2016-06-24" @default.
W2037229980 creator A5011704834 @default.
W2037229980 creator A5014325159 @default.
W2037229980 creator A5053109160 @default.
W2037229980 creator A5057049455 @default.
W2037229980 date "2005-05-01" @default.
W2037229980 modified "2023-10-01" @default.
W2037229980 title "Age-related calcium changes, oxyradical damage, caspase activation and nuclear condensation in hippocampal neurons in response to glutamate and beta-amyloid" @default.
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W2037229980 doi "https://doi.org/10.1016/j.exger.2005.03.007" @default.
W2037229980 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15919595" @default.
W2037229980 hasPublicationYear "2005" @default.
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