AI Article Synopsis
- * Treatment with okadaic acid (OA) was used to induce tau phosphorylation and neuron death in a research model for AD, leading to notable axonal changes in cultured rat neurons.
- * The study found that OA treatment increased intracellular APP levels, with the accumulation of APP-betaCTF in axonal swellings, suggesting its potential role in AD pathology, especially since accumulation was reduced when neurons were treated with a beta-secretase inhibitor.
Article Abstract
Emerging evidence suggests that not only beta-amyloid but also other amyloid precursor protein (APP) fragments, such as the beta-C-terminal fragment (betaCTF), might be involved in Alzheimer's disease (AD). Treatment of neurons with okadaic acid (OA), a protein phosphatase-2A inhibitor, has been used to induce tau phosphorylation and neuronal death to create a research model of AD. In this study, we analyzed axonopathy and APP regulation in cultured rat neurons treated with OA. After OA treatment, the neurons presented with axonal swellings filled with vesicles, microtubule fragments, and transport molecules such as kinesin and synapsin-I. Western blotting showed that intracellular APP levels were increased and immunocytochemistry using antibodies against the APP C-terminus showed that APP accumulated in the axonal swellings. This APP C-terminus immunoreactivity disappeared when neurons were cotreated with a beta-secretase inhibitor, but not with alpha- or gamma-secretase inhibitors, indicating that the accumulation was primarily composed of APP-betaCTF. These findings provide the first evidence that APP-betaCTF can accumulate in the axons of OA-treated neurons, and may suggest that APP-betaCTF is involved in the pathogenesis of AD.
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| http://dx.doi.org/10.1016/j.nbd.2005.12.013 | DOI Listing |
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