eprintid: 10055834
rev_number: 22
eprint_status: archive
userid: 608
dir: disk0/10/05/58/34
datestamp: 2018-09-13 09:23:45
lastmod: 2021-09-23 22:41:54
status_changed: 2018-09-13 09:23:45
type: article
metadata_visibility: show
creators_name: Petyuk, VA
creators_name: Chang, R
creators_name: Ramirez-Restrepo, M
creators_name: Beckmann, ND
creators_name: Henrion, MYR
creators_name: Piehowski, PD
creators_name: Zhu, K
creators_name: Wang, S
creators_name: Clarke, J
creators_name: Huentelman, MJ
creators_name: Xie, F
creators_name: Andreev, V
creators_name: Engel, A
creators_name: Guettoche, T
creators_name: Navarro, L
creators_name: De Jager, P
creators_name: Schneider, JA
creators_name: Morris, CM
creators_name: McKeith, IG
creators_name: Perry, RH
creators_name: Lovestone, S
creators_name: Woltjer, RL
creators_name: Beach, TG
creators_name: Sue, LI
creators_name: Serrano, GE
creators_name: Lieberman, AP
creators_name: Albin, RL
creators_name: Ferrer, I
creators_name: Mash, DC
creators_name: Hulette, CM
creators_name: Ervin, JF
creators_name: Reiman, EM
creators_name: Hardy, JA
creators_name: Bennett, DA
creators_name: Schadt, E
creators_name: Smith, RD
creators_name: Myers, AJ
title: The human brainome: network analysis identifies HSPA2 as a novel Alzheimer's disease target
ispublished: pub
divisions: UCL
divisions: B02
divisions: C07
divisions: D07
divisions: F86
keywords: genetic network; Alzheimer’s disease; dementia; transcriptomics; proteomics
note: © The Author(s) (2018). Published by Oxford University Press on behalf of the Guarantors of Brain.
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
abstract: Our hypothesis is that changes in gene and protein expression are crucial to the development of late-onset Alzheimer's disease. Previously we examined how DNA alleles control downstream expression of RNA transcripts and how those relationships are changed in late-onset Alzheimer's disease. We have now examined how proteins are incorporated into networks in two separate series and evaluated our outputs in two different cell lines. Our pipeline included the following steps: (i) predicting expression quantitative trait loci; (ii) determining differential expression; (iii) analysing networks of transcript and peptide relationships; and (iv) validating effects in two separate cell lines. We performed all our analysis in two separate brain series to validate effects. Our two series included 345 samples in the first set (177 controls, 168 cases; age range 65-105; 58% female; KRONOSII cohort) and 409 samples in the replicate set (153 controls, 141 cases, 115 mild cognitive impairment; age range 66-107; 63% female; RUSH cohort). Our top target is heat shock protein family A member 2 (HSPA2), which was identified as a key driver in our two datasets. HSPA2 was validated in two cell lines, with overexpression driving further elevation of amyloid-β40 and amyloid-β42 levels in APP mutant cells, as well as significant elevation of microtubule associated protein tau and phosphorylated-tau in a modified neuroglioma line. This work further demonstrates that studying changes in gene and protein expression is crucial to understanding late onset disease and further nominates HSPA2 as a specific key regulator of late-onset Alzheimer's disease processes.
date: 2018-09
date_type: published
official_url: https://doi.org/10.1093/brain/awy215
oa_status: green
full_text_type: pub
language: eng
primo: open
primo_central: open_green
article_type_text: Journal Article
verified: verified_manual
elements_id: 1578998
doi: 10.1093/brain/awy215
pii: 5077110
lyricists_name: Hardy, John
lyricists_name: Smalley, June
lyricists_id: JHARD28
lyricists_id: JASMA87
actors_name: Stacey, Thomas
actors_id: TSSTA20
actors_role: owner
full_text_status: public
publication: Brain
volume: 141
number: 9
pagerange: 2721-2739
event_location: England
issn: 1460-2156
citation:        Petyuk, VA;    Chang, R;    Ramirez-Restrepo, M;    Beckmann, ND;    Henrion, MYR;    Piehowski, PD;    Zhu, K;                                                                                                                         ... Myers, AJ; + view all <#>        Petyuk, VA;  Chang, R;  Ramirez-Restrepo, M;  Beckmann, ND;  Henrion, MYR;  Piehowski, PD;  Zhu, K;  Wang, S;  Clarke, J;  Huentelman, MJ;  Xie, F;  Andreev, V;  Engel, A;  Guettoche, T;  Navarro, L;  De Jager, P;  Schneider, JA;  Morris, CM;  McKeith, IG;  Perry, RH;  Lovestone, S;  Woltjer, RL;  Beach, TG;  Sue, LI;  Serrano, GE;  Lieberman, AP;  Albin, RL;  Ferrer, I;  Mash, DC;  Hulette, CM;  Ervin, JF;  Reiman, EM;  Hardy, JA;  Bennett, DA;  Schadt, E;  Smith, RD;  Myers, AJ;   - view fewer <#>    (2018)    The human brainome: network analysis identifies HSPA2 as a novel Alzheimer's disease target.                   Brain , 141  (9)   pp. 2721-2739.    10.1093/brain/awy215 <https://doi.org/10.1093/brain%2Fawy215>.       Green open access   
 
document_url: https://discovery.ucl.ac.uk/id/eprint/10055834/1/awy215.pdf
document_url: https://discovery.ucl.ac.uk/id/eprint/10055834/8/Petyuk_awy215_suppl_data.pdf