Background: Accumulation of β-amyloid peptides (Aβ) and its progressive deposition into amyloid plaques are key events in the aetiology of Alzheimer's disease (AD). To date, AD treatment is symptomatic and consists of drugs treating the cognitive decline. Objective: Identifying molecules specifically targeting Aβ production or aggregation represents a huge challenge in the development of specific AD treatments. Several molecules reported as γ-secretase inhibitors or modulators have been evaluated, but so far none of them have proven to be selective or fully efficient. We have previously investigated the potential interest of plant extracts and we reported that Pterocarpus erinaceus stem-bark extract was active on Aβ release. Our aim here was to characterize the mechanisms by which this extract reduces Aβ levels. Methods: We tested P. erinaceus extract at non-toxic concentrations on cells expressing the human amyloid precursor protein (APP695) or its amyloidogenic β-cleaved C-terminal fragment (C99), as well as on neuronal cell lines. P. erinaceus extract was found to inhibit Aβ release. We further showed that this extract inhibited γ-secretase activity in cell-free and in vitro assays, strongly suggesting that P. erinaceus extract is a natural γ-secretase inhibitor. Importantly, this extract did not inhibit γ-secretase-dependent Notch intracellular domain release. Conclusion: P. erinaceus extract appears as a new potent γ-secretase inhibitor selective towards APP processing.
Background: Presenilin TMD8 contains a conserved AXXXAXXXG motif, involved in transmembrane protein interactions. Results: Mutation of PS AXXXAXXXG motifs strongly impacts ␥-secretase activity. Conclusion: The geometry and activity of ␥-secretase depend on the integrity of the conserved AXXXAXXXG motifs in TMD8. Significance: The PS AXXXAXXXG motif is a key determinant for understanding the structure, assembly, and function of the ␥-secretase complex.
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