Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

Valentina N. Lagomarsino; Richard V. Pearse; Lei Liu; Yi Chen Hsieh; Marty A. Fernandez; Elizabeth A. Vinton; Daniel Paull; Daniel Felsky; Shinya Tasaki; Chris Gaiteri; Badri Vardarajan; Hyo Lee; Christina R. Muratore; Courtney R. Benoit; Vicky Chou; Seeley B. Fancher; Amy He; Julie P. Merchant; Duc M. Duong; Hector Martinez; Monica Zhou; Fatmata Bah; Maria A. Vicent; Jonathan M.S. Stricker; Jishu Xu; Eric B. Dammer; Allan I. Levey; Lori B. Chibnik; Vilas Menon; Nicholas T. Seyfried; Philip L. De Jager; Scott Noggle; Dennis J. Selkoe; David A. Bennett; Tracy L. Young-Pearse

doi:10.1016/j.neuron.2021.08.003

Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

Valentina N. Lagomarsino
, Richard V. Pearse
, Lei Liu
, Yi Chen Hsieh
, Marty A. Fernandez
, Elizabeth A. Vinton
, Daniel Paull
, Daniel Felsky
, Shinya Tasaki
, Chris Gaiteri
, Badri Vardarajan
, Hyo Lee
, Christina R. Muratore
, Courtney R. Benoit
, Vicky Chou
, Seeley B. Fancher
, Amy He
, Julie P. Merchant
, Duc M. Duong
, Hector Martinez

Monica Zhou, Fatmata Bah, Maria A. Vicent, Jonathan M.S. Stricker, Jishu Xu, Eric B. Dammer, Allan I. Levey, Lori B. Chibnik, Vilas Menon, Nicholas T. Seyfried, Philip L. De Jager, Scott Noggle, Dennis J. Selkoe, David A. Bennett, Tracy L. Young-Pearse

Psychiatry

Upstate Medical University

Brigham and Women’s Hospital
New York Stem Cell Foundation
University of Toronto
Rush University
Columbia University
Emory University
Massachusetts General Hospital
Harvard University

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

98 Scopus citations

Abstract

We have generated a controlled and manipulable resource that captures genetic risk for Alzheimer's disease: iPSC lines from 53 individuals coupled with RNA and proteomic profiling of both iPSC-derived neurons and brain tissue of the same individuals. Data collected for each person include genome sequencing, longitudinal cognitive scores, and quantitative neuropathology. The utility of this resource is exemplified here by analyses of neurons derived from these lines, revealing significant associations between specific Aβ and tau species and the levels of plaque and tangle deposition in the brain and, more importantly, with the trajectory of cognitive decline. Proteins and networks are identified that are associated with AD phenotypes in iPSC neurons, and relevant associations are validated in brain. The data presented establish this iPSC collection as a resource for investigating person-specific processes in the brain that can aid in identifying and validating molecular pathways underlying AD.

Original language	English
Pages (from-to)	3402-3420.e9
Journal	Neuron
Volume	109
Issue number	21
DOIs	https://doi.org/10.1016/j.neuron.2021.08.003
State	Published - Nov 3 2021

Keywords

Alzheimer's
Aβ
LOAD
MAPT
PP1
PRS
genetics
iPSC
neuron
tau

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10.1016/j.neuron.2021.08.003

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Lagomarsino, V. N., Pearse, R. V., Liu, L., Hsieh, Y. C., Fernandez, M. A., Vinton, E. A., Paull, D., Felsky, D., Tasaki, S., Gaiteri, C., Vardarajan, B., Lee, H., Muratore, C. R., Benoit, C. R., Chou, V., Fancher, S. B., He, A., Merchant, J. P., Duong, D. M., ... Young-Pearse, T. L. (2021). Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors. Neuron, 109(21), 3402-3420.e9. https://doi.org/10.1016/j.neuron.2021.08.003

@article{24b39bc515e7419ca15e8c123ace2571,

title = "Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors",

abstract = "We have generated a controlled and manipulable resource that captures genetic risk for Alzheimer's disease: iPSC lines from 53 individuals coupled with RNA and proteomic profiling of both iPSC-derived neurons and brain tissue of the same individuals. Data collected for each person include genome sequencing, longitudinal cognitive scores, and quantitative neuropathology. The utility of this resource is exemplified here by analyses of neurons derived from these lines, revealing significant associations between specific Aβ and tau species and the levels of plaque and tangle deposition in the brain and, more importantly, with the trajectory of cognitive decline. Proteins and networks are identified that are associated with AD phenotypes in iPSC neurons, and relevant associations are validated in brain. The data presented establish this iPSC collection as a resource for investigating person-specific processes in the brain that can aid in identifying and validating molecular pathways underlying AD.",

keywords = "Alzheimer's, Aβ, LOAD, MAPT, PP1, PRS, genetics, iPSC, neuron, tau",

author = "Lagomarsino, \{Valentina N.\} and Pearse, \{Richard V.\} and Lei Liu and Hsieh, \{Yi Chen\} and Fernandez, \{Marty A.\} and Vinton, \{Elizabeth A.\} and Daniel Paull and Daniel Felsky and Shinya Tasaki and Chris Gaiteri and Badri Vardarajan and Hyo Lee and Muratore, \{Christina R.\} and Benoit, \{Courtney R.\} and Vicky Chou and Fancher, \{Seeley B.\} and Amy He and Merchant, \{Julie P.\} and Duong, \{Duc M.\} and Hector Martinez and Monica Zhou and Fatmata Bah and Vicent, \{Maria A.\} and Stricker, \{Jonathan M.S.\} and Jishu Xu and Dammer, \{Eric B.\} and Levey, \{Allan I.\} and Chibnik, \{Lori B.\} and Vilas Menon and Seyfried, \{Nicholas T.\} and \{De Jager\}, \{Philip L.\} and Scott Noggle and Selkoe, \{Dennis J.\} and Bennett, \{David A.\} and Young-Pearse, \{Tracy L.\}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2021",

month = nov,

day = "3",

doi = "10.1016/j.neuron.2021.08.003",

language = "English",

volume = "109",

pages = "3402--3420.e9",

journal = "Neuron",

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Lagomarsino, VN, Pearse, RV, Liu, L, Hsieh, YC, Fernandez, MA, Vinton, EA, Paull, D, Felsky, D, Tasaki, S, Gaiteri, C, Vardarajan, B, Lee, H, Muratore, CR, Benoit, CR, Chou, V, Fancher, SB, He, A, Merchant, JP, Duong, DM, Martinez, H, Zhou, M, Bah, F, Vicent, MA, Stricker, JMS, Xu, J, Dammer, EB, Levey, AI, Chibnik, LB, Menon, V, Seyfried, NT, De Jager, PL, Noggle, S, Selkoe, DJ, Bennett, DA & Young-Pearse, TL 2021, 'Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors', Neuron, vol. 109, no. 21, pp. 3402-3420.e9. https://doi.org/10.1016/j.neuron.2021.08.003

TY - JOUR

T1 - Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

AU - Lagomarsino, Valentina N.

AU - Pearse, Richard V.

AU - Liu, Lei

AU - Hsieh, Yi Chen

AU - Fernandez, Marty A.

AU - Vinton, Elizabeth A.

AU - Paull, Daniel

AU - Felsky, Daniel

AU - Tasaki, Shinya

AU - Gaiteri, Chris

AU - Vardarajan, Badri

AU - Lee, Hyo

AU - Muratore, Christina R.

AU - Benoit, Courtney R.

AU - Chou, Vicky

AU - Fancher, Seeley B.

AU - He, Amy

AU - Merchant, Julie P.

AU - Duong, Duc M.

AU - Martinez, Hector

AU - Zhou, Monica

AU - Bah, Fatmata

AU - Vicent, Maria A.

AU - Stricker, Jonathan M.S.

AU - Xu, Jishu

AU - Dammer, Eric B.

AU - Levey, Allan I.

AU - Chibnik, Lori B.

AU - Menon, Vilas

AU - Seyfried, Nicholas T.

AU - De Jager, Philip L.

AU - Noggle, Scott

AU - Selkoe, Dennis J.

AU - Bennett, David A.

AU - Young-Pearse, Tracy L.

PY - 2021/11/3

Y1 - 2021/11/3

N2 - We have generated a controlled and manipulable resource that captures genetic risk for Alzheimer's disease: iPSC lines from 53 individuals coupled with RNA and proteomic profiling of both iPSC-derived neurons and brain tissue of the same individuals. Data collected for each person include genome sequencing, longitudinal cognitive scores, and quantitative neuropathology. The utility of this resource is exemplified here by analyses of neurons derived from these lines, revealing significant associations between specific Aβ and tau species and the levels of plaque and tangle deposition in the brain and, more importantly, with the trajectory of cognitive decline. Proteins and networks are identified that are associated with AD phenotypes in iPSC neurons, and relevant associations are validated in brain. The data presented establish this iPSC collection as a resource for investigating person-specific processes in the brain that can aid in identifying and validating molecular pathways underlying AD.

AB - We have generated a controlled and manipulable resource that captures genetic risk for Alzheimer's disease: iPSC lines from 53 individuals coupled with RNA and proteomic profiling of both iPSC-derived neurons and brain tissue of the same individuals. Data collected for each person include genome sequencing, longitudinal cognitive scores, and quantitative neuropathology. The utility of this resource is exemplified here by analyses of neurons derived from these lines, revealing significant associations between specific Aβ and tau species and the levels of plaque and tangle deposition in the brain and, more importantly, with the trajectory of cognitive decline. Proteins and networks are identified that are associated with AD phenotypes in iPSC neurons, and relevant associations are validated in brain. The data presented establish this iPSC collection as a resource for investigating person-specific processes in the brain that can aid in identifying and validating molecular pathways underlying AD.

KW - Alzheimer's

KW - Aβ

KW - LOAD

KW - MAPT

KW - PP1

KW - PRS

KW - genetics

KW - iPSC

KW - neuron

KW - tau

UR - https://www.scopus.com/pages/publications/85118361650

U2 - 10.1016/j.neuron.2021.08.003

DO - 10.1016/j.neuron.2021.08.003

M3 - Article

C2 - 34473944

SN - 0896-6273

VL - 109

SP - 3402-3420.e9

JO - Neuron

JF - Neuron

IS - 21

ER -

Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

Abstract

Keywords

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