Ashley R. George scite author profile

One of the major pathological features of Alzheimer's disease is the deposition of beta-amyloid peptide (Abeta). Cellular toxicity has been shown to be associated with fibrillar forms of Abeta; preventing this fibril formation is therefore viewed as a possible method of slowing disease progression in Alzheimer's disease. With the use of a series of tetracyclic and carbazole-type compounds as inhibitors of Abeta fibril formation, we here describe a number of common structural features that seem to be associated with the inhibitory properties of these agents. Compounds such as carvedilol, rolitetracycline and daunomycin, which are shown to inhibit Abeta fibril formation, also prevent the formation of species of peptide that demonstrate biological activity in a human neuroblastoma cell line. Molecular modelling data suggest that these compounds have in common the ability to adopt a specific three-dimensional pharmacophore conformation that might be essential for binding to Abeta and preventing it from forming fibrils. Understanding such drug-peptide interactions might aid the development of disease-modifying agents.

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

Ward

Jennings

Jepras

et al. 2000

118

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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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Mutation of histidine 286 of the human P2X₄ purinoceptor removes extracellular pH sensitivity

Clarke

Benham

Bridges

et al. 2000

The Journal of Physiology

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1. Effects of external pH on the human P2X4 purinoceptor, an ATP-activated ion channel, were studied using the Xenopus oocyte expression system. 2. Changing the external pH from 7·4 to 6·5 significantly reduced, whilst an increase to pH 8 enhanced, maximum ATP-activated current amplitude, without changing the currentvoltage relationship of the ATP-activated current. 3. Diethyl pyrocarbonate (DEPC; 10 mÒ) treatment of P2XÚ-injected oocytes had no effect on the pH sensitivity of the ATP-activated current. 4. Site-directed mutagenesis of histidine 286 (H286) to alanine completely abolished the pH sensitivity of the P2X4 receptor at all agonist concentrations. ATP potency showed a small (fourfold) leftward shift. Mutagenesis of the other three histidines present in the P2XÚ sequence had no effect on pH sensitivity. 5. The results show that pH modulation of P2X4 in the pathophysiological range is mediated by protonation of H286. This provides direct confirmation that pH sensitivity resides in the P2X4 channel protein rather than the agonist species.

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A computational study of the role of F− ions in the octadecasil structure

George

Catlow

1997

Zeolites

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Ab initio and molecular-mechanics studies of aluminosilicate fragments, and the origin of Lowenstein's rule

Catlow¹,

George²,

Freeman³

1996

Chem. Commun.

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Ashley R. George

Common structural features determine the effectiveness of carvedilol, daunomycin and rolitetracycline as inhibitors of Alzheimer β-amyloid fibril formation

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

Mutation of histidine 286 of the human P2X₄ purinoceptor removes extracellular pH sensitivity

A computational study of the role of F− ions in the octadecasil structure

Ab initio and molecular-mechanics studies of aluminosilicate fragments, and the origin of Lowenstein's rule

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Ashley R. George

Common structural features determine the effectiveness of carvedilol, daunomycin and rolitetracycline as inhibitors of Alzheimer β-amyloid fibril formation

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

Mutation of histidine 286 of the human P2X4 purinoceptor removes extracellular pH sensitivity

A computational study of the role of F− ions in the octadecasil structure

Ab initio and molecular-mechanics studies of aluminosilicate fragments, and the origin of Lowenstein's rule

Contact Info

Product

Resources

About

Mutation of histidine 286 of the human P2X₄ purinoceptor removes extracellular pH sensitivity