Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease

Meng Lai
Kyeezu Kim
Yinan Zheng
Christina Castellani
Christina A Castellani
Scott M. Ratliff
Mengyao Wang
Xue Liu
Jeffrey Haessler
Tianxiao Huan
Lawrence F. Bielak
Wei Zhao
Roby Joehanes
Jiantao Ma
Xiuqing Guo
JoAnn E. Manson
Megan L. Grove
Jan Bressler
Kent L Taylor
Kent D. Taylor
Tuuli Lappalainen
Silva Kasela
Tom Blackwell
Thomas W. Blackwell
Nicole J Lake
Jessica Faul
Jessica D. Faul
Kendra Ferrier
Kendra R Ferrier
Lifang Hou
Charles Kooperberg
Alexander Reiner
Alexander P Reiner
Kai Zhang
Patricia A. Peyser
M. Fornage
Eric Boerwinkle
Laura Raffield
April P Carson
Steve Rich
Stephen S Rich
Yongmei Liu
Daniel Levy
Jerome Rotter
Jerome I. Rotter
Jennifer A. Smith
Dan Arking
Dan E Arking
Chunyu Liu
Publication typePosted Content
Publication date2024-12-08
Cold Spring Harbor Laboratory
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ABSTRACT

The relationship between mitochondrial DNA (mtDNA) heteroplasmy and nuclear DNA (nDNA) methylation (CpGs) remains to be studied. We conducted an epigenome-wide association analysis of heteroplasmy burden scores across 10,986 participants (mean age 77, 63% women, and 54% non-White races/ethnicities) from seven population-based observational cohorts. We identified 412 CpGs (FDR p < 0.05) associated with mtDNA heteroplasmy. Higher levels of heteroplasmy burden were associated with lower nDNA methylation levels at most significant CpGs. Functional inference analyses of genes annotated to heteroplasmy-associated CpGs emphasized mitochondrial functions and showed enrichment in cardiometabolic conditions and traits. We developed CpG-scores based on heteroplasmy-count associated CpGs (MHC-CpG scores) using elastic net Cox regression in a training cohort. A one-unit higher level of the standardized MHC-CpG scores were associated with 1.26-fold higher hazard of all-cause mortality (95% CI: 1.14, 1.39) and 1.09-fold higher hazard of CVD (95% CI: 1.01–1.17) in the meta-analysis of testing cohorts, adjusting for age, sex, and smoking. These findings shed light on the relationship between mtDNA heteroplasmy and DNA methylation, and the role of heteroplasmy-associated CpGs as biomarkers in predicting all-cause mortality and cardiovascular disease.

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Lai M. et al. Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease // medRxiv : the preprint server for health sciences. 2024.
GOST all authors (up to 50) Copy
Lai M., Kim K., Zheng Y., Castellani C., Castellani C. A., Ratliff S. M., Wang M., Liu X., Haessler J., Huan T., Bielak L. F., Zhao W., Joehanes R., Ma J., Guo X., Manson J. E., Grove M. L., Bressler J., Taylor K. L., Taylor K. D., Lappalainen T., Kasela S., Blackwell T., Blackwell T. W., Lake N. J., Faul J., Faul J. D., Ferrier K., Ferrier K. R., Hou L., Kooperberg C., Reiner A., Reiner A. P., Zhang K., Peyser P. A., Fornage M., Boerwinkle E., Raffield L., Carson A. P., Rich S., Rich S. S., Liu Y., Levy D., Rotter J., Rotter J. I., Smith J. A., Arking D., Arking D. E., Liu C. Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease // medRxiv : the preprint server for health sciences. 2024.
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TY - GENERIC
DO - 10.1101/2024.12.05.24318557
UR - http://medrxiv.org/lookup/doi/10.1101/2024.12.05.24318557
TI - Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease
T2 - medRxiv : the preprint server for health sciences
AU - Lai, Meng
AU - Kim, Kyeezu
AU - Zheng, Yinan
AU - Castellani, Christina
AU - Castellani, Christina A
AU - Ratliff, Scott M.
AU - Wang, Mengyao
AU - Liu, Xue
AU - Haessler, Jeffrey
AU - Huan, Tianxiao
AU - Bielak, Lawrence F.
AU - Zhao, Wei
AU - Joehanes, Roby
AU - Ma, Jiantao
AU - Guo, Xiuqing
AU - Manson, JoAnn E.
AU - Grove, Megan L.
AU - Bressler, Jan
AU - Taylor, Kent L
AU - Taylor, Kent D.
AU - Lappalainen, Tuuli
AU - Kasela, Silva
AU - Blackwell, Tom
AU - Blackwell, Thomas W.
AU - Lake, Nicole J
AU - Faul, Jessica
AU - Faul, Jessica D.
AU - Ferrier, Kendra
AU - Ferrier, Kendra R
AU - Hou, Lifang
AU - Kooperberg, Charles
AU - Reiner, Alexander
AU - Reiner, Alexander P
AU - Zhang, Kai
AU - Peyser, Patricia A.
AU - Fornage, M.
AU - Boerwinkle, Eric
AU - Raffield, Laura
AU - Carson, April P
AU - Rich, Steve
AU - Rich, Stephen S
AU - Liu, Yongmei
AU - Levy, Daniel
AU - Rotter, Jerome
AU - Rotter, Jerome I.
AU - Smith, Jennifer A.
AU - Arking, Dan
AU - Arking, Dan E
AU - Liu, Chunyu
PY - 2024
DA - 2024/12/08
PB - Cold Spring Harbor Laboratory
PMID - 39677472
ER -
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@article{2024_Lai,
author = {Meng Lai and Kyeezu Kim and Yinan Zheng and Christina Castellani and Christina A Castellani and Scott M. Ratliff and Mengyao Wang and Xue Liu and Jeffrey Haessler and Tianxiao Huan and Lawrence F. Bielak and Wei Zhao and Roby Joehanes and Jiantao Ma and Xiuqing Guo and JoAnn E. Manson and Megan L. Grove and Jan Bressler and Kent L Taylor and Kent D. Taylor and Tuuli Lappalainen and Silva Kasela and Tom Blackwell and Thomas W. Blackwell and Nicole J Lake and Jessica Faul and Jessica D. Faul and Kendra Ferrier and Kendra R Ferrier and Lifang Hou and Charles Kooperberg and Alexander Reiner and Alexander P Reiner and Kai Zhang and Patricia A. Peyser and M. Fornage and Eric Boerwinkle and Laura Raffield and April P Carson and Steve Rich and Stephen S Rich and Yongmei Liu and Daniel Levy and Jerome Rotter and Jerome I. Rotter and Jennifer A. Smith and Dan Arking and Dan E Arking and Chunyu Liu},
title = {Epigenome-wide Association Analysis of Mitochondrial Heteroplasmy Provides Insight into Molecular Mechanisms of Disease},
journal = {medRxiv : the preprint server for health sciences},
year = {2024},
publisher = {Cold Spring Harbor Laboratory},
month = {dec},
url = {http://medrxiv.org/lookup/doi/10.1101/2024.12.05.24318557},
doi = {10.1101/2024.12.05.24318557}
}
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