Altered processing of Alzheimer amyloid precursor protein in response to neuronal degeneration

Abstract

In the brains of individuals with Alzheimer disease, senile plaques containing aggregates of β-amyloid peptide, derived from the β-amyloid precursor protein (APP), are seen in association with degenerating nerve terminals. It is not known whether the degenerating nerve terminals cause the formation of these aggregates or whether β-amyloid peptide in the aggregates causes nerve-terminal degeneration. In the present study of rat brain, degeneration either of local neurons or of nerve terminals caused decreased levels of a neuron-enriched isoform of APP, increased levels of a glia-enriched isoform of APP, and increased levels of potentially amyloidogenic, as well as nonamyloidogenic, COOH-terminal fragments of APP. Our results demonstrate that neuronal degeneration affects APP processing and suggest that it may contribute to amyloid formation in mammalian brain.