1997
DOI: 10.1073/pnas.94.17.9412
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Inhibition of the electrostatic interaction between β-amyloid peptide and membranes prevents β-amyloid-induced toxicity

Abstract: The accumulation of ␤-amyloid peptides (A␤) into senile plaques is one of the hallmarks of Alzheimer disease. Aggregated A␤ is toxic to cells in culture and this has been considered to be the cause of neurodegeneration that occurs in the Alzheimer disease brain. The discovery of compounds that prevent A␤ toxicity may lead to a better understanding of the processes involved and ultimately to possible therapeutic drugs. Low nanomolar concentrations of A␤1-42 and the toxic fragment A␤25-35 have been demonstrated … Show more

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Cited by 151 publications
(156 citation statements)
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“…A␤ peptides have been shown to modify various cellular functions, leading to increased neuronal vulnerability. It has been recently reported that the effects of A␤ on neuronal viability were not mediated by specific receptor interactions (12) but potentially by changes in the structure and dynamics of membrane lipid constituents (17). Therefore, the purpose of the present experiments was to examine the effects of both soluble and aggregated A␤ on membrane structure using a combination of x-ray diffraction and fluorescence spectroscopy approaches.…”
Section: Discussionmentioning
confidence: 99%
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“…A␤ peptides have been shown to modify various cellular functions, leading to increased neuronal vulnerability. It has been recently reported that the effects of A␤ on neuronal viability were not mediated by specific receptor interactions (12) but potentially by changes in the structure and dynamics of membrane lipid constituents (17). Therefore, the purpose of the present experiments was to examine the effects of both soluble and aggregated A␤ on membrane structure using a combination of x-ray diffraction and fluorescence spectroscopy approaches.…”
Section: Discussionmentioning
confidence: 99%
“…Ethanol, for example, also increases membrane fluidity, enhancing Ca 2ϩ flux into neurons (46). The combined physico-chemical effects of A␤ on bulk and protein annular fluidity may contribute to mechanisms of neurotoxicity (17). A␤-induced membrane structure changes may also lead to further increases in A␤ production by increasing the access of certain proteases to abnormal, membrane-associated cleavage sites on amyloid precursor protein following disruptions in the organization of the lipid bilayer.…”
Section: Discussionmentioning
confidence: 99%
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“…[K16A] substitution induces formation of more compact oligomers than the [K28A] subcharged residues are likely to interact with a cellular membrane because they can participate in both effective electrostatic interactions with negatively charged phospholipid head groups and effective hydrophobic interactions with lipid hydrocarbon groups [35][36][37][38][39]. Substitutions of positively charged residues R5, K16, and K28 with alanine were reported to significantly reduce Aβ-induced toxicity to human embryonic kidney (HEK293) cells [40].…”
mentioning
confidence: 99%
“…Figure 5 exhibits the structures of these compounds. Phloretin, a plant-derived flavonoid, decreases the membrane potential and inhibits the electrostatic interaction between AβP and membrane lipids (Hertel et al, 1997). Cholesterol decreases membrane fluidity and inhibits channel formation by peptides such as α-toxin, gramicidine, amylin, and AβP.…”
Section: Possible Candidates For the Treatment Of Admentioning
confidence: 99%