Abstract
Alzheimer's disease (AD) is a progressive neurodegenerative disorder. Although the pathogenesis of AD is unknown, it is widely accepted that AD is caused by extracellular accumulation of a neurotoxic peptide, known as Abeta. Mutations in the beta-amyloid precursor protein (APP), from which Abeta arises by proteolysis, are associated with some forms of familial AD (FAD) and result in increased Abeta production. Two other FAD genes, presenilin-1 and -2, have also been shown to regulate Abeta production; however, studies examining the biological role of these FAD genes suggest an alternative theory for the pathogenesis of AD. In fact, all three genes have been shown to regulate programmed cell death, hinting at the possibility that dysregulation of apoptosis plays a primary role in causing neuronal loss in AD. In an attempt to reconcile these two hypotheses, we investigated APP processing during apoptosis and found that APP is processed by the cell death proteases caspase-6 and -8. APP is cleaved by caspases in the intracellular portion of the protein, in a site distinct from those processed by secretases. Moreover, it represents a general effect of apoptosis, because it occurs during cell death induced by several stimuli both in T cells and in neuronal cells.
Highlights
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder
Two other familial AD (FAD) genes, presenilin-1 and -2, have been shown to regulate A production; studies examining the biological role of these FAD genes suggest an alternative theory for the pathogenesis of AD
Recent studies focusing on the physiologic role of amyloid precursor protein (APP), PS-1, and PS-2 have shown that these FAD genes regulate apoptosis and that AD-associated mutations result in enhanced proapoptotic activity of these molecules [12,13,14,15,16,17,18]
Summary
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder. the pathogenesis of AD is unknown, it is widely accepted that AD is caused by extracellular accumulation of a neurotoxic peptide, known as A. APP is cleaved by caspases in the intracellular portion of the protein, in a site distinct from those processed by secretases It represents a general effect of apoptosis, because it occurs during cell death induced by several stimuli both in T cells and in neuronal cells. It is widely believed that this disease is caused by the extracellular accumulation of the aggregated amyloidogenic form of A peptide (A1– 42) This peptide arises from the processing of -amyloid precursor protein (APP) by still unknown proteases (secretases) [2]. PS-1 and PS-2 have been found to be cleaved during apoptosis by caspase-3 (19 –21), a protease whose activity is essential for neuronal apoptosis [22] Together, these data suggest an alternative model for the pathogenesis of AD according to which AD is caused by dysregulation of programmed cell death (PCD) and enhanced susceptibility of neurons to apoptotic stimuli.
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