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Article type: Research Article
Authors: Clement, Amaliea; b | Madsen, Marianne Juula | Kastaniegaard, Kennethc | Wiborg, Ovea | Asuni, Ayodeji A.b; * | Stensballe, Allana; *
Affiliations: [a] Department of Health Science and Technology, Aalborg University, Denmark | [b] Department of Pathology and Fluid Biomarkers, H. Lundbeck A/S, Copenhagen, Denmark | [c] Biogenity ApS, Aalborg, Denmark
Correspondence: [*] Correspondence to: Allan Stensballe, PhD, Department of Health Science and Technology, Aalborg University, Fredrik Bajersvej 5, 9220 Aalborg, Denmark. Tel.:+4561608786; Fax:+45 9815 4008; E-mail: [email protected] and Ayodeji A. Asuni, PhD, Department of Pathology & Fluid biomarkers, H. Lundbeck A/S, Ottiliavej 9, 2500 Valby, Denmark. Tel.:+4530832581; E-mail: [email protected].
Abstract: Background:Alzheimer’s disease (AD) is a neurodegenerative disorder and the most common cause of dementia worldwide. Despite decades of investigation, the etiology of AD is not fully understood, although emerging evidence suggest that chronic environmental and psychological stress plays a role in the mechanisms and contributes to the risk of developing AD. Thus, dissecting the impact of stress on the brain could improve our understanding of the pathological mechanisms. Objective:We aimed to study the effect of chronic stress on the hippocampal proteome in male APPPS1 transgenic mice and wildtype (WT) littermates. Methods:APPPS1 and WT mice were subjected to 4 weeks of chronic stress followed by 3 weeks of continued diurnal disruption. Hippocampal tissue was used for proteomics analysis using label-free quantitative DIA based LC-MS/MS analysis. Results:We identified significantly up- and downregulated proteins in both APPPS1 and WT mice exposed to chronic stress compared to the control groups. Via interaction network mapping, significant proteins could be annotated to specific pathways of mitochondrial function (oxidative phosphorylation and TCA cycle), metabolic pathways, AD pathway and synaptic functions (long term potentiation). In WT mice, chronic stress showed the highest impact on complex I of the oxidative phosphorylation pathway, while in APPPS1 mice this pathway was compromised broadly by chronic stress. Conclusion:Our data shows that chronic stress and amyloidosis additively contribute to mitochondrial damage in hippocampus. Although these results do not explain all effects of chronic stress in AD, they add to the scientific knowledge on the topic.
Keywords: Alzheimer’s disease, chronic stress, hippocampus, mass spectrometry, mitochondrial function, oxidative phosphorylation, proteomics
DOI: 10.3233/JAD-220064
Journal: Journal of Alzheimer's Disease, vol. 87, no. 1, pp. 259-272, 2022
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