Redox-active iron mediates amyloid-β toxicity

Catherine A. Rottkamp; Arun K. Raina; Xiongwei Zhu; Elizabeth Gaier; Ashley I. Bush; Craig S. Atwood; Mordechai Chevion; George Perry; Mark A. Smith

doi:10.1016/S0891-5849(00)00494-9

Redox-active iron mediates amyloid-β toxicity

Catherine A. Rottkamp, Arun K. Raina, Xiongwei Zhu, Elizabeth Gaier, Ashley I. Bush, Craig S. Atwood, Mordechai Chevion, George Perry, Mark A. Smith^*

^*Corresponding author for this work

Institute of Biomedical Research at the Faculty of Dental Medicine

Research output: Contribution to journal › Article › peer-review

378 Scopus citations

Abstract

While amyloid-β toxicity is mediated by oxidative stress and can be attenuated by antioxidants, the actual biochemical mechanism underlying neurotoxicity remains to be established. However, since aggregated amyloid-β can interact with transition metals, such as iron, both in vitro and in vivo, we suspected that bound iron might be the mediator of toxicity such that holo- and apo-amyloid would have differential effects on cellular viability. Here we demonstrate that when amyloid-β is pretreated with the iron chelator deferoxamine, neuronal toxicity is significantly attenuated while conversely, incubation of holo-amyloid-β with excess free iron restores toxicity to original levels. These data, taken together with the known sequelae of amyloid-β, suggest that the toxicity of amyloid-β is mediated, at least in part, via redox-active iron that precipitates lipid peroxidation and cellular oxidative stress.

Original language	English
Pages (from-to)	447-450
Number of pages	4
Journal	Free Radical Biology and Medicine
Volume	30
Issue number	4
DOIs	https://doi.org/10.1016/S0891-5849(00)00494-9
State	Published - 15 Feb 2001

Keywords

Alzheimer disease
Amyloid-β
Free radicals
Iron
Neurotoxicity
Oxidative stress

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10.1016/S0891-5849(00)00494-9

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title = "Redox-active iron mediates amyloid-β toxicity",

abstract = "While amyloid-β toxicity is mediated by oxidative stress and can be attenuated by antioxidants, the actual biochemical mechanism underlying neurotoxicity remains to be established. However, since aggregated amyloid-β can interact with transition metals, such as iron, both in vitro and in vivo, we suspected that bound iron might be the mediator of toxicity such that holo- and apo-amyloid would have differential effects on cellular viability. Here we demonstrate that when amyloid-β is pretreated with the iron chelator deferoxamine, neuronal toxicity is significantly attenuated while conversely, incubation of holo-amyloid-β with excess free iron restores toxicity to original levels. These data, taken together with the known sequelae of amyloid-β, suggest that the toxicity of amyloid-β is mediated, at least in part, via redox-active iron that precipitates lipid peroxidation and cellular oxidative stress.",

keywords = "Alzheimer disease, Amyloid-β, Free radicals, Iron, Neurotoxicity, Oxidative stress",

author = "Rottkamp, {Catherine A.} and Raina, {Arun K.} and Xiongwei Zhu and Elizabeth Gaier and Bush, {Ashley I.} and Atwood, {Craig S.} and Mordechai Chevion and George Perry and Smith, {Mark A.}",

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AU - Rottkamp, Catherine A.

AU - Raina, Arun K.

AU - Zhu, Xiongwei

AU - Gaier, Elizabeth

AU - Bush, Ashley I.

AU - Atwood, Craig S.

AU - Chevion, Mordechai

AU - Perry, George

AU - Smith, Mark A.

PY - 2001/2/15

Y1 - 2001/2/15

N2 - While amyloid-β toxicity is mediated by oxidative stress and can be attenuated by antioxidants, the actual biochemical mechanism underlying neurotoxicity remains to be established. However, since aggregated amyloid-β can interact with transition metals, such as iron, both in vitro and in vivo, we suspected that bound iron might be the mediator of toxicity such that holo- and apo-amyloid would have differential effects on cellular viability. Here we demonstrate that when amyloid-β is pretreated with the iron chelator deferoxamine, neuronal toxicity is significantly attenuated while conversely, incubation of holo-amyloid-β with excess free iron restores toxicity to original levels. These data, taken together with the known sequelae of amyloid-β, suggest that the toxicity of amyloid-β is mediated, at least in part, via redox-active iron that precipitates lipid peroxidation and cellular oxidative stress.

AB - While amyloid-β toxicity is mediated by oxidative stress and can be attenuated by antioxidants, the actual biochemical mechanism underlying neurotoxicity remains to be established. However, since aggregated amyloid-β can interact with transition metals, such as iron, both in vitro and in vivo, we suspected that bound iron might be the mediator of toxicity such that holo- and apo-amyloid would have differential effects on cellular viability. Here we demonstrate that when amyloid-β is pretreated with the iron chelator deferoxamine, neuronal toxicity is significantly attenuated while conversely, incubation of holo-amyloid-β with excess free iron restores toxicity to original levels. These data, taken together with the known sequelae of amyloid-β, suggest that the toxicity of amyloid-β is mediated, at least in part, via redox-active iron that precipitates lipid peroxidation and cellular oxidative stress.

KW - Alzheimer disease

KW - Amyloid-β

KW - Free radicals

KW - Iron

KW - Neurotoxicity

KW - Oxidative stress

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Redox-active iron mediates amyloid-β toxicity

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