Abstract
Aggregation of the Alzheimer amyloid β peptide (Aβ) Ab1-42 forms neurotoxic fibrils. In contact with human neurons the fibrils cause rapid influx of external calcium through AMPA/kainate-channels. If this molecular mechanism reflects in vivo events, it could explain the pathogenesis of Alzheimer's disease; activation of AMPA/kainate channels is therefore a likely target for therapeutic intervention.
Here we show that short antagonistic “decoy peptides”, made of D-amino acids, eliminate this “calcium effect” of Ab1-42. Since chronically elevated calcium levels in the disease trigger activation of pathways that lead to neuron dysfunction and cell death, our decoy peptides are obvious candidates for drug development.
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