Disease related changes in ATAC-seq of iPSC-derived motor neuron lines from ALS patients and controls

the Answer ALS Consortium

doi:10.1038/s41467-024-47758-8

Disease related changes in ATAC-seq of iPSC-derived motor neuron lines from ALS patients and controls

the Answer ALS Consortium

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

3 Scopus citations

Abstract

Amyotrophic Lateral Sclerosis (ALS), like many other neurodegenerative diseases, is highly heritable, but with only a small fraction of cases explained by monogenic disease alleles. To better understand sporadic ALS, we report epigenomic profiles, as measured by ATAC-seq, of motor neuron cultures derived from a diverse group of 380 ALS patients and 80 healthy controls. We find that chromatin accessibility is heavily influenced by sex, the iPSC cell type of origin, ancestry, and the inherent variance arising from sequencing. Once these covariates are corrected for, we are able to identify ALS-specific signals in the data. Additionally, we find that the ATAC-seq data is able to predict ALS disease progression rates with similar accuracy to methods based on biomarkers and clinical status. These results suggest that iPSC-derived motor neurons recapitulate important disease-relevant epigenomic changes.

Original language	English
Article number	3606
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-47758-8
State	Published - Dec 2024

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10.1038/s41467-024-47758-8

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@article{84c07022a72b466c8ecfad277a9f9b09,

title = "Disease related changes in ATAC-seq of iPSC-derived motor neuron lines from ALS patients and controls",

abstract = "Amyotrophic Lateral Sclerosis (ALS), like many other neurodegenerative diseases, is highly heritable, but with only a small fraction of cases explained by monogenic disease alleles. To better understand sporadic ALS, we report epigenomic profiles, as measured by ATAC-seq, of motor neuron cultures derived from a diverse group of 380 ALS patients and 80 healthy controls. We find that chromatin accessibility is heavily influenced by sex, the iPSC cell type of origin, ancestry, and the inherent variance arising from sequencing. Once these covariates are corrected for, we are able to identify ALS-specific signals in the data. Additionally, we find that the ATAC-seq data is able to predict ALS disease progression rates with similar accuracy to methods based on biomarkers and clinical status. These results suggest that iPSC-derived motor neurons recapitulate important disease-relevant epigenomic changes.",

author = "{the Answer ALS Consortium} and Stanislav Tsitkov and Kelsey Valentine and Velina Kozareva and Aneesh Donde and Aaron Frank and Susan Lei and Workman, {Michael J.} and Lim, {Ryan G.} and Jie Wu and Zhuoxing Wu and Loren Ornelas and Lindsay Panther and Erick Galvez and Daniel Perez and Imara Meepe and Viviana Valencia and Emilda Gomez and Chunyan Liu and Ruby Moran and Louis Pinedo and Richie Ho and Kaye, {Julia A.} and Terri Thompson and Dillon Shear and Robert Baloh and Banuelos, {Maria G.} and Veronica Garcia and Ronald Holewenski and Oleg Karpov and Manalo, {Danica Mae} and Berhan Mandefro and Andrea Matlock and Rakhi Pandey and Niveda Sundararaman and Hannah Trost and Vineet Vaibhav and Vidya Venkatraman and Oliver Wang and Glass, {Jonathan D.} and Arish Jamil and Naufa Amirani and Leandro Lima and Krishna Raja and Wesley Robinson and Reuben Thomas and Edward Vertudes and Stacia Wyman and Carla Agurto and Guillermo Cecchi and Raquel Norel and Omar Ahmad and Baxi, {Emily G.} and Aianna Cerezo and Coyne, {Alyssa N.} and Lindsey Hayes and Krakauer, {John W.} and Nicholas Maragakis and Elizabeth Mosmiller and Promit Roy and Steven Zeiler and Miriam Adam and Noura Albistami and Tobias Ehrenberger and Nhan Huynh and Connie New and Alex Lenail and Jonathan Li and Patel-Murray, {Natasha Leanna} and Yogindra Raghav and Divya Ramamoorthy and Egun Im and Karen Sachs and Wassie, {Brook T.} and James Berry and Cudkowicz, {Merit E.} and Alanna Farrar and Sara Thrower and Sarah Luppino and Lindsay Pothier and Sherman, {Alexander V.} and Ervin Sinani and Prasha Vigneswaran and Hong Yu and Beavers, {Jay C.} and Mary Bellard and Elizabeth Bruce and Senda Ajroud-Driss and Deniz Alibazoglu and {Ben Joslin}, Joslin and Harms, {Matthew B.} and Sarah Heintzman and Stephen Kolb and Carolyn Prina and Daragh Heitzman and Todd Morgan and Ricardo Miramontes and Jennifer Stocksdale and Keona Wang and Jennifer Jockel-Balsarotti and Elizabeth Karanja and Jesse Markway and Molly McCallum and Tim Miller and Jennifer Roggenbuck and {E. Van Eyk}, Jennifer and Steve Finkbeiner and Rothstein, {Jeffrey D.} and Thompson, {Leslie M.} and Dhruv Sareen and Svendsen, {Clive N.} and Ernest Fraenkel",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-47758-8",

language = "English",

volume = "15",

journal = "Nature communications",

issn = "2041-1723",

number = "1",

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TY - JOUR

T1 - Disease related changes in ATAC-seq of iPSC-derived motor neuron lines from ALS patients and controls

AU - the Answer ALS Consortium

AU - Tsitkov, Stanislav

AU - Valentine, Kelsey

AU - Kozareva, Velina

AU - Donde, Aneesh

AU - Frank, Aaron

AU - Lei, Susan

AU - Workman, Michael J.

AU - Lim, Ryan G.

AU - Wu, Jie

AU - Wu, Zhuoxing

AU - Ornelas, Loren

AU - Panther, Lindsay

AU - Galvez, Erick

AU - Perez, Daniel

AU - Meepe, Imara

AU - Valencia, Viviana

AU - Gomez, Emilda

AU - Liu, Chunyan

AU - Moran, Ruby

AU - Pinedo, Louis

AU - Ho, Richie

AU - Kaye, Julia A.

AU - Thompson, Terri

AU - Shear, Dillon

AU - Baloh, Robert

AU - Banuelos, Maria G.

AU - Garcia, Veronica

AU - Holewenski, Ronald

AU - Karpov, Oleg

AU - Manalo, Danica Mae

AU - Mandefro, Berhan

AU - Matlock, Andrea

AU - Pandey, Rakhi

AU - Sundararaman, Niveda

AU - Trost, Hannah

AU - Vaibhav, Vineet

AU - Venkatraman, Vidya

AU - Wang, Oliver

AU - Glass, Jonathan D.

AU - Jamil, Arish

AU - Amirani, Naufa

AU - Lima, Leandro

AU - Raja, Krishna

AU - Robinson, Wesley

AU - Thomas, Reuben

AU - Vertudes, Edward

AU - Wyman, Stacia

AU - Agurto, Carla

AU - Cecchi, Guillermo

AU - Norel, Raquel

AU - Ahmad, Omar

AU - Baxi, Emily G.

AU - Cerezo, Aianna

AU - Coyne, Alyssa N.

AU - Hayes, Lindsey

AU - Krakauer, John W.

AU - Maragakis, Nicholas

AU - Mosmiller, Elizabeth

AU - Roy, Promit

AU - Zeiler, Steven

AU - Adam, Miriam

AU - Albistami, Noura

AU - Ehrenberger, Tobias

AU - Huynh, Nhan

AU - New, Connie

AU - Lenail, Alex

AU - Li, Jonathan

AU - Patel-Murray, Natasha Leanna

AU - Raghav, Yogindra

AU - Ramamoorthy, Divya

AU - Im, Egun

AU - Sachs, Karen

AU - Wassie, Brook T.

AU - Berry, James

AU - Cudkowicz, Merit E.

AU - Farrar, Alanna

AU - Thrower, Sara

AU - Luppino, Sarah

AU - Pothier, Lindsay

AU - Sherman, Alexander V.

AU - Sinani, Ervin

AU - Vigneswaran, Prasha

AU - Yu, Hong

AU - Beavers, Jay C.

AU - Bellard, Mary

AU - Bruce, Elizabeth

AU - Ajroud-Driss, Senda

AU - Alibazoglu, Deniz

AU - Ben Joslin, Joslin

AU - Harms, Matthew B.

AU - Heintzman, Sarah

AU - Kolb, Stephen

AU - Prina, Carolyn

AU - Heitzman, Daragh

AU - Morgan, Todd

AU - Miramontes, Ricardo

AU - Stocksdale, Jennifer

AU - Wang, Keona

AU - Jockel-Balsarotti, Jennifer

AU - Karanja, Elizabeth

AU - Markway, Jesse

AU - McCallum, Molly

AU - Miller, Tim

AU - Roggenbuck, Jennifer

AU - E. Van Eyk, Jennifer

AU - Finkbeiner, Steve

AU - Rothstein, Jeffrey D.

AU - Thompson, Leslie M.

AU - Sareen, Dhruv

AU - Svendsen, Clive N.

AU - Fraenkel, Ernest

PY - 2024/12

Y1 - 2024/12

N2 - Amyotrophic Lateral Sclerosis (ALS), like many other neurodegenerative diseases, is highly heritable, but with only a small fraction of cases explained by monogenic disease alleles. To better understand sporadic ALS, we report epigenomic profiles, as measured by ATAC-seq, of motor neuron cultures derived from a diverse group of 380 ALS patients and 80 healthy controls. We find that chromatin accessibility is heavily influenced by sex, the iPSC cell type of origin, ancestry, and the inherent variance arising from sequencing. Once these covariates are corrected for, we are able to identify ALS-specific signals in the data. Additionally, we find that the ATAC-seq data is able to predict ALS disease progression rates with similar accuracy to methods based on biomarkers and clinical status. These results suggest that iPSC-derived motor neurons recapitulate important disease-relevant epigenomic changes.

AB - Amyotrophic Lateral Sclerosis (ALS), like many other neurodegenerative diseases, is highly heritable, but with only a small fraction of cases explained by monogenic disease alleles. To better understand sporadic ALS, we report epigenomic profiles, as measured by ATAC-seq, of motor neuron cultures derived from a diverse group of 380 ALS patients and 80 healthy controls. We find that chromatin accessibility is heavily influenced by sex, the iPSC cell type of origin, ancestry, and the inherent variance arising from sequencing. Once these covariates are corrected for, we are able to identify ALS-specific signals in the data. Additionally, we find that the ATAC-seq data is able to predict ALS disease progression rates with similar accuracy to methods based on biomarkers and clinical status. These results suggest that iPSC-derived motor neurons recapitulate important disease-relevant epigenomic changes.

UR - http://www.scopus.com/inward/record.url?scp=85192036420&partnerID=8YFLogxK

U2 - 10.1038/s41467-024-47758-8

DO - 10.1038/s41467-024-47758-8

M3 - Article

C2 - 38697975

AN - SCOPUS:85192036420

SN - 2041-1723

VL - 15

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 3606

ER -

Disease related changes in ATAC-seq of iPSC-derived motor neuron lines from ALS patients and controls

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