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

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

doi:10.1038/s41467-024-47758-8

Publication

Nature Communications

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

Nature Communications

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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.

Date

02 May 2024

Publication

Nature Communications

Authors

IBM-affiliated at time of publication

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