Amyloid peptide channels: Blockade by zinc and inhibition by Congo red (amyloid channel block)

Amyloid peptides are the major constituents of amyloid deposits in various amyloid diseases including Alzheimer's disease, type II diabetes mellitus, prion diseases and others. The hallmark of amyloid is the binding of the dye, Congo red, which creates characteristic staining due to the dye...

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Bibliographic Details
Published in:Amyloid 2000, Vol.7 (3), p.194-199
Main Authors: Hirakura, Yutaka, Yiu, Wendy W., Yamamoto, Andrew, Kagan, Bruce L.
Format: Article
Language:English
Subjects:
amylin
amyloid
Amyloid - chemistry
Amyloid - drug effects
Amyloid - metabolism
Calcium - pharmacology
Congo Red - pharmacology
electrophysiologic
Humans
Ion Channels - chemistry
Ion Channels - drug effects
Ion Channels - metabolism
Ion Transport - drug effects
Islet Amyloid Polypeptide
Lipid Bilayers
Magnesium - pharmacology
membranes
Models, Biological
Peptide Fragments - chemistry
Peptide Fragments - drug effects
Peptide Fragments - metabolism
Phospholipids - metabolism
pores
prion
Prions - chemistry
Prions - drug effects
Prions - metabolism
Protein Structure, Secondary
Zinc - pharmacology
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Summary:Amyloid peptides are the major constituents of amyloid deposits in various amyloid diseases including Alzheimer's disease, type II diabetes mellitus, prion diseases and others. The hallmark of amyloid is the binding of the dye, Congo red, which creates characteristic staining due to the dye's ability to bind the beta sheet aggregates referred to as amyloid. Previous reports have demonstrated that several cytotoxic, amyloidogenic peptides can form ion channels in planar phospholipid bilayer membranes and have suggested that these channels may represent the pathogenic mechanism of cell and tissue destruction in amyloid disease. Furthermore, zinc and Congo red can ameliorate or prevent the pathogenic effect of certain amyloid peptides. We report here that zinc at micromolar concentrations caused a reversible blockade of islet amyloid polypeptide (IAPP, amylin) and PrP 106-126 channels whereas calcium and magnesium did not. Congo red completely inhibited channel formation if preincubated with amyloid peptides, but had no effect on IAPP or PrP 106-126 channels once formed. These results suggest a requirement for aggregation for the formation of amyloid peptide channels and are consistent with the "channel hypothesis" of amyloid disease. They also suggest potential avenues for ameliorative therapy of these illnesses.
ISSN:1350-6129
1744-2818
DOI:10.3109/13506120009146834