Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis

H. Haytural; R. Benfeitas; S. Schedin-Weiss; E. Bereczki; M. Rezeli; R.D. Unwin; X.S. Wang; E.B. Dammer; E.C.B. Johnson; N.T. Seyfried; B. Winblad; B.M. Tijms; P.J. Visser; S. Frykman; L.O. Tjernberg

doi:10.1038/s41597-021-01090-8

Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis

H. Haytural^*, R. Benfeitas, S. Schedin-Weiss, E. Bereczki, M. Rezeli, R.D. Unwin, X.S. Wang, E.B. Dammer, E.C.B. Johnson, N.T. Seyfried, B. Winblad, B.M. Tijms, P.J. Visser, S. Frykman, L.O. Tjernberg^*

^*Corresponding author for this work

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

Abstract

Mass spectrometry (MS)-based proteomics is a powerful tool to explore pathogenic changes of a disease in an unbiased manner and has been used extensively in Alzheimer disease (AD) research. Here, by performing a meta-analysis of high-quality proteomic studies, we address which pathological changes are observed consistently and therefore most likely are of great importance for AD pathogenesis. We retrieved datasets, comprising a total of 21,588 distinct proteins identified across 857 postmortem human samples, from ten studies using labeled or label-free MS approaches. Our meta-analysis findings showed significant alterations of 757 and 1,195 proteins in AD in the labeled and label-free datasets, respectively. Only 33 proteins, some of which were associated with synaptic signaling, had the same directional change across the individual studies. However, despite alterations in individual proteins being different between the labeled and the label-free datasets, several pathways related to synaptic signaling, oxidative phosphorylation, immune response and extracellular matrix were commonly dysregulated in AD. These pathways represent robust changes in the human AD brain and warrant further investigation.

Original language	English
Article number	312
Number of pages	11
Journal	Scientific data
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41597-021-01090-8
Publication status	Published - 3 Dec 2021

Keywords

BETA
CLU
COGNITIVE DECLINE
DRP1
EXPRESSION
GENOME-WIDE ASSOCIATION
IDENTIFIES VARIANTS
MASS-SPECTROMETRY
NEURONS

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Haytural, H., Benfeitas, R., Schedin-Weiss, S., Bereczki, E., Rezeli, M., Unwin, R. D., Wang, X. S., Dammer, E. B., Johnson, E. C. B., Seyfried, N. T., Winblad, B., Tijms, B. M., Visser, P. J., Frykman, S., & Tjernberg, L. O. (2021). Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis. Scientific data, 8(1), Article 312. https://doi.org/10.1038/s41597-021-01090-8

@article{f22a8d75541243d5862e190463ed7cad,

title = "Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis",

abstract = "Mass spectrometry (MS)-based proteomics is a powerful tool to explore pathogenic changes of a disease in an unbiased manner and has been used extensively in Alzheimer disease (AD) research. Here, by performing a meta-analysis of high-quality proteomic studies, we address which pathological changes are observed consistently and therefore most likely are of great importance for AD pathogenesis. We retrieved datasets, comprising a total of 21,588 distinct proteins identified across 857 postmortem human samples, from ten studies using labeled or label-free MS approaches. Our meta-analysis findings showed significant alterations of 757 and 1,195 proteins in AD in the labeled and label-free datasets, respectively. Only 33 proteins, some of which were associated with synaptic signaling, had the same directional change across the individual studies. However, despite alterations in individual proteins being different between the labeled and the label-free datasets, several pathways related to synaptic signaling, oxidative phosphorylation, immune response and extracellular matrix were commonly dysregulated in AD. These pathways represent robust changes in the human AD brain and warrant further investigation.",

keywords = "BETA, CLU, COGNITIVE DECLINE, DRP1, EXPRESSION, GENOME-WIDE ASSOCIATION, IDENTIFIES VARIANTS, MASS-SPECTROMETRY, NEURONS",

author = "H. Haytural and R. Benfeitas and S. Schedin-Weiss and E. Bereczki and M. Rezeli and R.D. Unwin and X.S. Wang and E.B. Dammer and E.C.B. Johnson and N.T. Seyfried and B. Winblad and B.M. Tijms and P.J. Visser and S. Frykman and L.O. Tjernberg",

note = "Funding Information: The computations were performed on resources provided by SNIC through Uppsala Multidisciplinary Center for Advanced Computational Science (UPPMAX) under Project SNIC 2020/15-164. RDU would like to thank the families and patients who supported this research by donation of brains to the New Zealand Neurological Foundation Human Brain Bank. This project has received funding from Swedish Research Council, Alzheimerfonden, Gun och Bertil Stohnes Stiftelse, Stiftelsen f{\"o}r Gamla Tj{\"a}narinnor, Demensfonden, Hj{\"a}rnfonden, Margaretha af Ugglas{\textquoteright} foundation and Fondation Recherche sur Alzheimer. RDU was supported by Alzheimer{\textquoteright}s Research UK (ARUK-PPG2014B-7), Manchester NIHR Biomedical Research Centre and the Greater Manchester Comprehensive Local Research Network and the Stoller Biomarker Discovery Centre which was established with an award from the Medical Research Council (MR/M008959/1). Support for this research was provided by funding from the National Institute on Aging (R01AG053960, R01AG061800, RF1AG057471, RF1AG057470, R01AG057339, RF1AG062181), the Accelerating Medicine Partnership for AD (U01AG046161 and U01AG061357). Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

day = "3",

doi = "10.1038/s41597-021-01090-8",

language = "English",

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Haytural, H, Benfeitas, R, Schedin-Weiss, S, Bereczki, E, Rezeli, M, Unwin, RD, Wang, XS, Dammer, EB, Johnson, ECB, Seyfried, NT, Winblad, B, Tijms, BM, Visser, PJ, Frykman, S & Tjernberg, LO 2021, 'Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis', Scientific data, vol. 8, no. 1, 312. https://doi.org/10.1038/s41597-021-01090-8

TY - JOUR

T1 - Insights into the changes in the proteome of Alzheimer disease elucidated by a meta-analysis

AU - Haytural, H.

AU - Benfeitas, R.

AU - Schedin-Weiss, S.

AU - Bereczki, E.

AU - Rezeli, M.

AU - Unwin, R.D.

AU - Wang, X.S.

AU - Dammer, E.B.

AU - Johnson, E.C.B.

AU - Seyfried, N.T.

AU - Winblad, B.

AU - Tijms, B.M.

AU - Visser, P.J.

AU - Frykman, S.

AU - Tjernberg, L.O.

N1 - Funding Information: The computations were performed on resources provided by SNIC through Uppsala Multidisciplinary Center for Advanced Computational Science (UPPMAX) under Project SNIC 2020/15-164. RDU would like to thank the families and patients who supported this research by donation of brains to the New Zealand Neurological Foundation Human Brain Bank. This project has received funding from Swedish Research Council, Alzheimerfonden, Gun och Bertil Stohnes Stiftelse, Stiftelsen för Gamla Tjänarinnor, Demensfonden, Hjärnfonden, Margaretha af Ugglas’ foundation and Fondation Recherche sur Alzheimer. RDU was supported by Alzheimer’s Research UK (ARUK-PPG2014B-7), Manchester NIHR Biomedical Research Centre and the Greater Manchester Comprehensive Local Research Network and the Stoller Biomarker Discovery Centre which was established with an award from the Medical Research Council (MR/M008959/1). Support for this research was provided by funding from the National Institute on Aging (R01AG053960, R01AG061800, RF1AG057471, RF1AG057470, R01AG057339, RF1AG062181), the Accelerating Medicine Partnership for AD (U01AG046161 and U01AG061357). Publisher Copyright: © 2021, The Author(s).

PY - 2021/12/3

Y1 - 2021/12/3

N2 - Mass spectrometry (MS)-based proteomics is a powerful tool to explore pathogenic changes of a disease in an unbiased manner and has been used extensively in Alzheimer disease (AD) research. Here, by performing a meta-analysis of high-quality proteomic studies, we address which pathological changes are observed consistently and therefore most likely are of great importance for AD pathogenesis. We retrieved datasets, comprising a total of 21,588 distinct proteins identified across 857 postmortem human samples, from ten studies using labeled or label-free MS approaches. Our meta-analysis findings showed significant alterations of 757 and 1,195 proteins in AD in the labeled and label-free datasets, respectively. Only 33 proteins, some of which were associated with synaptic signaling, had the same directional change across the individual studies. However, despite alterations in individual proteins being different between the labeled and the label-free datasets, several pathways related to synaptic signaling, oxidative phosphorylation, immune response and extracellular matrix were commonly dysregulated in AD. These pathways represent robust changes in the human AD brain and warrant further investigation.

AB - Mass spectrometry (MS)-based proteomics is a powerful tool to explore pathogenic changes of a disease in an unbiased manner and has been used extensively in Alzheimer disease (AD) research. Here, by performing a meta-analysis of high-quality proteomic studies, we address which pathological changes are observed consistently and therefore most likely are of great importance for AD pathogenesis. We retrieved datasets, comprising a total of 21,588 distinct proteins identified across 857 postmortem human samples, from ten studies using labeled or label-free MS approaches. Our meta-analysis findings showed significant alterations of 757 and 1,195 proteins in AD in the labeled and label-free datasets, respectively. Only 33 proteins, some of which were associated with synaptic signaling, had the same directional change across the individual studies. However, despite alterations in individual proteins being different between the labeled and the label-free datasets, several pathways related to synaptic signaling, oxidative phosphorylation, immune response and extracellular matrix were commonly dysregulated in AD. These pathways represent robust changes in the human AD brain and warrant further investigation.

KW - BETA

KW - CLU

KW - COGNITIVE DECLINE

KW - DRP1

KW - EXPRESSION

KW - GENOME-WIDE ASSOCIATION

KW - IDENTIFIES VARIANTS

KW - MASS-SPECTROMETRY

KW - NEURONS

U2 - 10.1038/s41597-021-01090-8

DO - 10.1038/s41597-021-01090-8

M3 - Article

C2 - 34862388

SN - 2052-4463

VL - 8

JO - Scientific data

JF - Scientific data

IS - 1

M1 - 312

ER -