Signal transduction mechanisms in Alzheimer disease
- PMID: 8534418
- DOI: 10.1097/00002093-199501002-00004
Signal transduction mechanisms in Alzheimer disease
Abstract
The present article focuses on our studies on the metabolism of the inositol phospholipids in Alzheimer disease (AD). The phospholipase C (PLC) isozyme, PLC-delta 1, was abnormally accumulated in neurofibrillary tangles (NFT), the neurites surrounding senile plaque cores, and neuropil threads in AD brains. Anti-PLC-delta 1 antibody marked the same NFT-bearing neurons containing tau immunoreactivity. Electron microscopic immunocytochemistry revealed that antigenic determinants unique to PLC-delta 1 are mainly present intraneuronally on the amorphous granular components of NFT as well as the abnormal filaments. Although the concentration of PLC-delta 1 protein was significantly higher in the cytosolic fraction of AD cortical tissue than in control brains, the specific activity of PLC-delta 1 is decreased in AD brains. The amounts of PLC-beta 1 and -gamma 1 and type beta protein kinase C were significantly reduced in the membranous fraction of the AD temporal cortical tissues compared with controls. The PLC-delta 1 abnormality was also present in nonneuronal tissues as well as the brains of patients with AD. It was revealed that nitric oxide (NO) formation secondary to Ca2+ influx by N-methyl-D-aspartate (NMDA) receptor activation leads to modifications of PLC-delta 1 similar to those seen in AD brains. These results suggest that altered Ca2+ homeostasis, occurring as a consequence of aberrant phosphoinositide metabolism, may be related to key features of AD such as neurofibrillary degeneration, aberrant amyloid deposits, and neuronal death.
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