Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain

BACKGROUND: Biological pathways that significantly contribute to sporadic Alzheimer’s disease are largely unknown and cannot be observed directly. Cognitive symptoms appear only decades after the molecular disease onset, further complicating analyses. As a consequence, molecular research is often re...

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Autores principales: Jaeger, Philipp A., Lucin, Kurt M., Britschgi, Markus, Vardarajan, Badri, Huang, Ruo-Pan, Kirby, Elizabeth D., Abbey, Rachelle, Boeve, Bradley F., Boxer, Adam L., Farrer, Lindsay A., Finch, NiCole, Graff-Radford, Neill R., Head, Elizabeth, Hoffree, Matan, Huang, Ruochun, Johns, Hudson, Karydas, Anna, Knopman, David S., Loboda, Andrey, Masliah, Eliezer, Narasimhan, Ramya, Petersen, Ronald C., Podtelezhnikov, Alexei, Pradhan, Suraj, Rademakers, Rosa, Sun, Chung-Huan, Younkin, Steven G., Miller, Bruce L., Ideker, Trey, Wyss-Coray, Tony
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4845325/
https://www.ncbi.nlm.nih.gov/pubmed/27112350
http://dx.doi.org/10.1186/s13024-016-0095-2
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author Jaeger, Philipp A.
Lucin, Kurt M.
Britschgi, Markus
Vardarajan, Badri
Huang, Ruo-Pan
Kirby, Elizabeth D.
Abbey, Rachelle
Boeve, Bradley F.
Boxer, Adam L.
Farrer, Lindsay A.
Finch, NiCole
Graff-Radford, Neill R.
Head, Elizabeth
Hoffree, Matan
Huang, Ruochun
Johns, Hudson
Karydas, Anna
Knopman, David S.
Loboda, Andrey
Masliah, Eliezer
Narasimhan, Ramya
Petersen, Ronald C.
Podtelezhnikov, Alexei
Pradhan, Suraj
Rademakers, Rosa
Sun, Chung-Huan
Younkin, Steven G.
Miller, Bruce L.
Ideker, Trey
Wyss-Coray, Tony
author_facet Jaeger, Philipp A.
Lucin, Kurt M.
Britschgi, Markus
Vardarajan, Badri
Huang, Ruo-Pan
Kirby, Elizabeth D.
Abbey, Rachelle
Boeve, Bradley F.
Boxer, Adam L.
Farrer, Lindsay A.
Finch, NiCole
Graff-Radford, Neill R.
Head, Elizabeth
Hoffree, Matan
Huang, Ruochun
Johns, Hudson
Karydas, Anna
Knopman, David S.
Loboda, Andrey
Masliah, Eliezer
Narasimhan, Ramya
Petersen, Ronald C.
Podtelezhnikov, Alexei
Pradhan, Suraj
Rademakers, Rosa
Sun, Chung-Huan
Younkin, Steven G.
Miller, Bruce L.
Ideker, Trey
Wyss-Coray, Tony
author_sort Jaeger, Philipp A.
collection PubMed
description BACKGROUND: Biological pathways that significantly contribute to sporadic Alzheimer’s disease are largely unknown and cannot be observed directly. Cognitive symptoms appear only decades after the molecular disease onset, further complicating analyses. As a consequence, molecular research is often restricted to late-stage post-mortem studies of brain tissue. However, the disease process is expected to trigger numerous cellular signaling pathways and modulate the local and systemic environment, and resulting changes in secreted signaling molecules carry information about otherwise inaccessible pathological processes. RESULTS: To access this information we probed relative levels of close to 600 secreted signaling proteins from patients’ blood samples using antibody microarrays and mapped disease-specific molecular networks. Using these networks as seeds we then employed independent genome and transcriptome data sets to corroborate potential pathogenic pathways. CONCLUSIONS: We identified Growth-Differentiation Factor (GDF) signaling as a novel Alzheimer’s disease-relevant pathway supported by in vivo and in vitro follow-up experiments, demonstrating the existence of a highly informative link between cellular pathology and changes in circulatory signaling proteins. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s13024-016-0095-2) contains supplementary material, which is available to authorized users.
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spelling pubmed-48453252016-04-27 Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain Jaeger, Philipp A. Lucin, Kurt M. Britschgi, Markus Vardarajan, Badri Huang, Ruo-Pan Kirby, Elizabeth D. Abbey, Rachelle Boeve, Bradley F. Boxer, Adam L. Farrer, Lindsay A. Finch, NiCole Graff-Radford, Neill R. Head, Elizabeth Hoffree, Matan Huang, Ruochun Johns, Hudson Karydas, Anna Knopman, David S. Loboda, Andrey Masliah, Eliezer Narasimhan, Ramya Petersen, Ronald C. Podtelezhnikov, Alexei Pradhan, Suraj Rademakers, Rosa Sun, Chung-Huan Younkin, Steven G. Miller, Bruce L. Ideker, Trey Wyss-Coray, Tony Mol Neurodegener Research Article BACKGROUND: Biological pathways that significantly contribute to sporadic Alzheimer’s disease are largely unknown and cannot be observed directly. Cognitive symptoms appear only decades after the molecular disease onset, further complicating analyses. As a consequence, molecular research is often restricted to late-stage post-mortem studies of brain tissue. However, the disease process is expected to trigger numerous cellular signaling pathways and modulate the local and systemic environment, and resulting changes in secreted signaling molecules carry information about otherwise inaccessible pathological processes. RESULTS: To access this information we probed relative levels of close to 600 secreted signaling proteins from patients’ blood samples using antibody microarrays and mapped disease-specific molecular networks. Using these networks as seeds we then employed independent genome and transcriptome data sets to corroborate potential pathogenic pathways. CONCLUSIONS: We identified Growth-Differentiation Factor (GDF) signaling as a novel Alzheimer’s disease-relevant pathway supported by in vivo and in vitro follow-up experiments, demonstrating the existence of a highly informative link between cellular pathology and changes in circulatory signaling proteins. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s13024-016-0095-2) contains supplementary material, which is available to authorized users. BioMed Central 2016-04-26 /pmc/articles/PMC4845325/ /pubmed/27112350 http://dx.doi.org/10.1186/s13024-016-0095-2 Text en © Jaeger et al. 2016 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Jaeger, Philipp A.
Lucin, Kurt M.
Britschgi, Markus
Vardarajan, Badri
Huang, Ruo-Pan
Kirby, Elizabeth D.
Abbey, Rachelle
Boeve, Bradley F.
Boxer, Adam L.
Farrer, Lindsay A.
Finch, NiCole
Graff-Radford, Neill R.
Head, Elizabeth
Hoffree, Matan
Huang, Ruochun
Johns, Hudson
Karydas, Anna
Knopman, David S.
Loboda, Andrey
Masliah, Eliezer
Narasimhan, Ramya
Petersen, Ronald C.
Podtelezhnikov, Alexei
Pradhan, Suraj
Rademakers, Rosa
Sun, Chung-Huan
Younkin, Steven G.
Miller, Bruce L.
Ideker, Trey
Wyss-Coray, Tony
Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title_full Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title_fullStr Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title_full_unstemmed Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title_short Network-driven plasma proteomics expose molecular changes in the Alzheimer’s brain
title_sort network-driven plasma proteomics expose molecular changes in the alzheimer’s brain
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4845325/
https://www.ncbi.nlm.nih.gov/pubmed/27112350
http://dx.doi.org/10.1186/s13024-016-0095-2
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