Kevin H. Jennings scite author profile

A series of benzofuran derivatives have been identified as inhibitors of fibril formation in the beta-amyloid peptide. The activity of these compounds has been assessed by a novel fibril-formation-specific immunoassay and for their effects on the production of a biologically active fibril product. The inhibition afforded by the compounds seems to be associated with their binding to beta-amyloid, as identified by scintillation proximity binding assay. Binding assays and NMR studies also indicate that the inhibition is associated with self-aggregation of the compounds. There is a close correlation between the activity of the benzofurans as inhibitors of fibril formation and their ability to bind to beta-amyloid. Non-benzofuran inhibitors of the fibril formation process do not seem to bind to the same site on the beta-amyloid molecule as the benzofurans. Thus a specific recognition site might exist for benzofurans on beta-amyloid, binding to which seems to interfere with the ability of the peptide to form fibrils.

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Aggregation State and Neurotoxic Properties of Alzheimer Beta-Amyloid Peptide

Howlett

Jennings²,

Lee³

et al. 1995

Neurodegeneration

188

122

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Fractionation and characterization of oligomeric, protofibrillar and fibrillar forms of β-amyloid peptide

et al. 2000

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The beta-amyloid (Abeta) peptide, a major component of senile plaques in Alzheimer's disease brain, has been shown previously to undergo a process of polymerization to produce neurotoxic forms of amyloid. Recent literature has attempted to define precisely the form of Abeta responsible for its neurodegenerative properties. In the present study we describe a novel density-gradient centrifugation method for the isolation and characterization of structurally distinct polymerized forms of Abeta peptide. Fractions containing protofibrils, fibrils, sheet structures and low molecular mass oligomers were prepared. The fractionated forms of Abeta were characterized structurally by transmission electron microscopy. The effects on cell viability of these fractions was determined in the B12 neuronal cell line and hippocampal neurons. Marked effects on cell viability in the cells were found to correspond to the presence of protofibrillar and fibrillar structures, but not to monomeric peptide or sheet-like structures of polymerized Abeta. Biological activity correlated with a positive reaction in an immunoassay that specifically detects protofibrillar and fibrillar Abeta; those fractions that were immunoassay negative had no effect on cell viability. These data suggest that the effect of Abeta on cell viability is not confined to a single conformational form but that both fibrillar and protofibrillar species have the potential to be active in this assay.

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Fractionation and characterization of oligomeric, protofibrillar and fibrillar forms of β-amyloid peptide

Ward¹,

Jennings²,

JEPRAS³

et al. 2000

Biochem. J.

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A novel class of cationic gemini surfactants showing efficient in vitro gene transfection properties

et al. 2000

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Kevin H. Jennings

Inhibition of fibril formation in β-amyloid peptide by a novel series of benzofurans

Aggregation State and Neurotoxic Properties of Alzheimer Beta-Amyloid Peptide

Fractionation and characterization of oligomeric, protofibrillar and fibrillar forms of β-amyloid peptide

Fractionation and characterization of oligomeric, protofibrillar and fibrillar forms of β-amyloid peptide

A novel class of cationic gemini surfactants showing efficient in vitro gene transfection properties

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