Upregulation of calpain activity precedes tau phosphorylation and loss of synaptic proteins in Alzheimer's disease brain
Upregulation of calpain activity precedes tau phosphorylation and loss of synaptic proteins in Alzheimer's disease brain
Alterations in calcium homeostasis are widely reported to contribute to synaptic degeneration and neuronal loss in Alzheimer's disease. Elevated cytosolic calcium concentrations lead to activation of the calcium-sensitive cysteine protease, calpain, which has a number of substrates known to be abnormally regulated in disease. Analysis of human brain has shown that calpain activity is elevated in AD compared to controls, and that calpain-mediated proteolysis regulates the activity of important disease-associated proteins including the tau kinases cyclin-dependent kinase 5 and glycogen kinase synthase-3. Here, we sought to investigate the likely temporal association between these changes during the development of sporadic AD using Braak staged post-mortem brain. Quantification of protein amounts in these tissues showed increased activity of calpain-1 from Braak stage III onwards in comparison to controls, extending previous findings that calpain-1 is upregulated at end-stage disease, and suggesting that activation of calcium-sensitive signalling pathways are sustained from early stages of disease development. Increases in calpain-1 activity were associated with elevated activity of the endogenous calpain inhibitor, calpastatin, itself a known calpain substrate. Activation of the tau kinases, glycogen-kinase synthase-3 and cyclin-dependent kinase 5 were also found to occur in Braak stage II-III brain, and these preceded global elevations in tau phosphorylation and the loss of post-synaptic markers. In addition, we identified transient increases in total amyloid precursor protein and pre-synaptic markers in Braak stage II-III brain, that were lost by end stage Alzheimer's disease, that may be indicative of endogenous compensatory responses to the initial stages of neurodegeneration. These findings provide insight into the molecular events that underpin the progression of Alzheimer's disease, and further highlight the rationale for investigating novel treatment strategies that are based on preventing abnormal calcium homeostasis or blocking increases in the activity of calpain or important calpain substrates.
Kurbatskaya, Ksenia
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Phillips, Emma
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Croft, Cara L.
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Dentoni, Giacomo
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Hughes, Martina M.
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Wade, Matthew A.
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Al-Sarraj, Safa
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Troakes, Claire
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O'Neill, Michael
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Perez-Nievas, Beatriz G.
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Hanger, Diane P.
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Noble, Wendy
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2016
Kurbatskaya, Ksenia
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Phillips, Emma
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Croft, Cara L.
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Dentoni, Giacomo
ebf3673e-6fe0-4ae4-b819-e8ea60c5aea9
Hughes, Martina M.
6149ee60-694b-4c55-b8f2-349284c55d66
Wade, Matthew A.
d8bcdc55-ee9e-4dd2-a653-7645578302b1
Al-Sarraj, Safa
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Troakes, Claire
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O'Neill, Michael
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Perez-Nievas, Beatriz G.
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Hanger, Diane P.
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Noble, Wendy
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Kurbatskaya, Ksenia, Phillips, Emma, Croft, Cara L., Dentoni, Giacomo, Hughes, Martina M., Wade, Matthew A., Al-Sarraj, Safa, Troakes, Claire, O'Neill, Michael, Perez-Nievas, Beatriz G., Hanger, Diane P. and Noble, Wendy
(2016)
Upregulation of calpain activity precedes tau phosphorylation and loss of synaptic proteins in Alzheimer's disease brain.
Acta Neuropathologica Communications, 4 (34).
(doi:10.1186/s40478-016-0299-2).
Abstract
Alterations in calcium homeostasis are widely reported to contribute to synaptic degeneration and neuronal loss in Alzheimer's disease. Elevated cytosolic calcium concentrations lead to activation of the calcium-sensitive cysteine protease, calpain, which has a number of substrates known to be abnormally regulated in disease. Analysis of human brain has shown that calpain activity is elevated in AD compared to controls, and that calpain-mediated proteolysis regulates the activity of important disease-associated proteins including the tau kinases cyclin-dependent kinase 5 and glycogen kinase synthase-3. Here, we sought to investigate the likely temporal association between these changes during the development of sporadic AD using Braak staged post-mortem brain. Quantification of protein amounts in these tissues showed increased activity of calpain-1 from Braak stage III onwards in comparison to controls, extending previous findings that calpain-1 is upregulated at end-stage disease, and suggesting that activation of calcium-sensitive signalling pathways are sustained from early stages of disease development. Increases in calpain-1 activity were associated with elevated activity of the endogenous calpain inhibitor, calpastatin, itself a known calpain substrate. Activation of the tau kinases, glycogen-kinase synthase-3 and cyclin-dependent kinase 5 were also found to occur in Braak stage II-III brain, and these preceded global elevations in tau phosphorylation and the loss of post-synaptic markers. In addition, we identified transient increases in total amyloid precursor protein and pre-synaptic markers in Braak stage II-III brain, that were lost by end stage Alzheimer's disease, that may be indicative of endogenous compensatory responses to the initial stages of neurodegeneration. These findings provide insight into the molecular events that underpin the progression of Alzheimer's disease, and further highlight the rationale for investigating novel treatment strategies that are based on preventing abnormal calcium homeostasis or blocking increases in the activity of calpain or important calpain substrates.
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Accepted/In Press date: 15 March 2016
e-pub ahead of print date: 31 March 2016
Published date: 2016
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Local EPrints ID: 420388
URI: http://eprints.soton.ac.uk/id/eprint/420388
ISSN: 2051-5960
PURE UUID: a005f205-a2e0-49df-973e-c0241f270bcc
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Date deposited: 04 May 2018 16:30
Last modified: 16 Mar 2024 04:29
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Contributors
Author:
Emma Phillips
Author:
Cara L. Croft
Author:
Giacomo Dentoni
Author:
Martina M. Hughes
Author:
Matthew A. Wade
Author:
Safa Al-Sarraj
Author:
Claire Troakes
Author:
Michael O'Neill
Author:
Beatriz G. Perez-Nievas
Author:
Diane P. Hanger
Author:
Wendy Noble
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