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  • Title: The phosphatidylinositol 3-kinase inhibitor wortmannin alters the metabolism of the Alzheimer's amyloid precursor protein.
    Author: Petanceska SS, Gandy S.
    Journal: J Neurochem; 1999 Dec; 73(6):2316-20. PubMed ID: 10582589.
    Abstract:
    One of the hallmarks of Alzheimer's disease is the accumulation of senile plaques in brain, extracellular lesions comprised mostly of aggregates of the amyloid beta-peptide (Abeta). Abeta is proteolytically derived from the Alzheimer's amyloid precursor protein (APP). The generation of Abeta and nonamyloidogenic derivatives of APP involves utilization of alternative processing pathways and multiple subcellular compartments. To improve our understanding of the regulation of APP processing, we investigated the effects of wortmannin, a phosphatidylinositol 3-kinase (PI3-kinase) inhibitor, on APP processing. PI3-kinases form a multifaceted family of enzymes that represent converging points for multiple signal transduction pathways and also act as key regulators of vesicular trafficking. In N2a neuroblastoma cells expressing either wild-type APP or the "Swedish" familial Alzheimer's disease-associated mutant variant of APP, wortmannin treatment resulted in decreased release of both Abeta and soluble APPalpha. In parallel, full-length APP and both processed derivatives accumulated inside the cells. These effects were not present at nanomolar concentrations of wortmannin, but only at micromolar concentrations, implying the possible involvement of a recently described trans-Golgi network (TGN)-associated PI3-kinase that is resistant to nanomolar concentrations of the inhibitor, but sensitive to micromolar concentrations. All effects were reversible when the drug was removed from the cell culture medium. Given the suspected site of action of this novel PI3-kinase activity at the TGN, it is tempting to speculate that the unexpected increase in the levels of both intracellular soluble APPalpha and intracellular Abeta might be due to wortmannin-induced covesiculation of APP together with its respective secretase enzymes within the TGN, leading to the execution of alpha-, beta-, and gamma-secretase reactions.
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