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Suppression of tau‐induced phenotypes by vitamin E demonstrates the dissociation of oxidative stress and phosphorylation in mechanisms of tau toxicity

Suppression of tau‐induced phenotypes by vitamin E demonstrates the dissociation of oxidative stress and phosphorylation in mechanisms of tau toxicity
Suppression of tau‐induced phenotypes by vitamin E demonstrates the dissociation of oxidative stress and phosphorylation in mechanisms of tau toxicity

Various lines of evidence implicate oxidative stress in the pathogenic mechanism(s) underpinning tauopathies. Consequently, antioxidant therapies have been considered in clinical practice for the treatment of tauopathies such as Alzheimer's disease (AD), but with mixed results. We and others have previously reported increased protein oxidation upon expression of both human 0N3R (hTau 0N3R) and 0N4R (hTau 0N4R) tau in vivo. Building on these studies, we demonstrate here the suppression of hTau 0N3R associated phenotypes in Drosophila melanogaster after treatment with vitamin C or vitamin E. Curiously the rescue of phenotype was seen without alteration in total tau level or alteration in phosphorylation at a number of disease-associated sites. Moreover, treatment with paraquat, a pro-oxidant drug, did not exacerbate the hTau 0N3R phenotypes. This result following paraquat treatment is reminiscent of our previous findings with hTau 0N4R which also causes greater oxidative stress when compared to hTau 0N3R but has a milder phenotype. Collectively our data imply that the role of oxidative stress in tau-mediated toxicity is not straight forward and there may be isoform-specific effects as well as contribution of other factors. This may explain the ambiguous effects of anti-oxidant treatments on clinical outcome in dementia patients. (Figure presented.).

Alzheimer's disease, Tau isoforms, Tau phosphorylation, antioxidant, locomotion, oxidative stress
0022-3042
Cowan, Catherine M.
b4f6d80b-ceb3-4dd2-8507-0414855d9992
Sealey, Megan A.
c4545b95-18e2-47fe-8535-9d14e1aed991
Mudher, Amritpal
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119
Cowan, Catherine M.
b4f6d80b-ceb3-4dd2-8507-0414855d9992
Sealey, Megan A.
c4545b95-18e2-47fe-8535-9d14e1aed991
Mudher, Amritpal
ce0ccb35-ac49-4b6c-92b4-8dd5e78ac119

Cowan, Catherine M., Sealey, Megan A. and Mudher, Amritpal (2021) Suppression of tau‐induced phenotypes by vitamin E demonstrates the dissociation of oxidative stress and phosphorylation in mechanisms of tau toxicity. Journal of Neurochemistry. (doi:10.1111/jnc.15253).

Record type: Article

Abstract

Various lines of evidence implicate oxidative stress in the pathogenic mechanism(s) underpinning tauopathies. Consequently, antioxidant therapies have been considered in clinical practice for the treatment of tauopathies such as Alzheimer's disease (AD), but with mixed results. We and others have previously reported increased protein oxidation upon expression of both human 0N3R (hTau 0N3R) and 0N4R (hTau 0N4R) tau in vivo. Building on these studies, we demonstrate here the suppression of hTau 0N3R associated phenotypes in Drosophila melanogaster after treatment with vitamin C or vitamin E. Curiously the rescue of phenotype was seen without alteration in total tau level or alteration in phosphorylation at a number of disease-associated sites. Moreover, treatment with paraquat, a pro-oxidant drug, did not exacerbate the hTau 0N3R phenotypes. This result following paraquat treatment is reminiscent of our previous findings with hTau 0N4R which also causes greater oxidative stress when compared to hTau 0N3R but has a milder phenotype. Collectively our data imply that the role of oxidative stress in tau-mediated toxicity is not straight forward and there may be isoform-specific effects as well as contribution of other factors. This may explain the ambiguous effects of anti-oxidant treatments on clinical outcome in dementia patients. (Figure presented.).

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Cowan et al Nov 2020 - Accepted Manuscript
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Accepted/In Press date: 9 November 2020
e-pub ahead of print date: 20 December 2020
Published date: 1 May 2021
Additional Information: Publisher Copyright: © 2020 International Society for Neurochemistry
Keywords: Alzheimer's disease, Tau isoforms, Tau phosphorylation, antioxidant, locomotion, oxidative stress

Identifiers

Local EPrints ID: 445710
URI: http://eprints.soton.ac.uk/id/eprint/445710
DOI: doi:10.1111/jnc.15253
ISSN: 0022-3042
PURE UUID: a5e12fc4-70fa-486c-9e1b-264b3d04acc2

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Date deposited: 06 Jan 2021 17:41
Last modified: 16 Mar 2024 10:11

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Author: Catherine M. Cowan
Author: Megan A. Sealey
Author: Amritpal Mudher

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