Deleterious heteroplasmic mitochondrial mutations are associated with an increased risk of overall and cancer-specific mortality

Yun Soo Hong; Stephanie L. Battle; Wen Shi; Daniela Puiu; Vamsee Pillalamarri; Jiaqi Xie; Nathan Pankratz; Nicole J. Lake; Monkol Lek; Jerome I. Rotter; Stephen S. Rich; Charles Kooperberg; Alex P. Reiner; Paul L. Auer; Nancy Heard-Costa; Chunyu Liu; Meng Lai; Joanne M. Murabito; Daniel Levy; Megan L. Grove; Alvaro Alonso; Richard Gibbs; Shannon Dugan-Perez; Lukasz P. Gondek; Eliseo Guallar; Dan E. Arking

doi:10.1038/s41467-023-41785-7

Deleterious heteroplasmic mitochondrial mutations are associated with an increased risk of overall and cancer-specific mortality

Yun Soo Hong
, Stephanie L. Battle
, Wen Shi
, Daniela Puiu
, Vamsee Pillalamarri
, Jiaqi Xie
, Nathan Pankratz
, Nicole J. Lake
, Monkol Lek
, Jerome I. Rotter
, Stephen S. Rich
, Charles Kooperberg
, Alex P. Reiner
, Paul L. Auer
, Nancy Heard-Costa
, Chunyu Liu
, Meng Lai
, Joanne M. Murabito
, Daniel Levy
, Megan L. Grove

Alvaro Alonso, Richard Gibbs, Shannon Dugan-Perez, Lukasz P. Gondek, Eliseo Guallar, Dan E. Arking

Laboratory Medicine and Pathology

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

30 Scopus citations

Abstract

Mitochondria carry their own circular genome and disruption of the mitochondrial genome is associated with various aging-related diseases. Unlike the nuclear genome, mitochondrial DNA (mtDNA) can be present at 1000 s to 10,000 s copies in somatic cells and variants may exist in a state of heteroplasmy, where only a fraction of the DNA molecules harbors a particular variant. We quantify mtDNA heteroplasmy in 194,871 participants in the UK Biobank and find that heteroplasmy is associated with a 1.5-fold increased risk of all-cause mortality. Additionally, we functionally characterize mtDNA single nucleotide variants (SNVs) using a constraint-based score, mitochondrial local constraint score sum (MSS) and find it associated with all-cause mortality, and with the prevalence and incidence of cancer and cancer-related mortality, particularly leukemia. These results indicate that mitochondria may have a functional role in certain cancers, and mitochondrial heteroplasmic SNVs may serve as a prognostic marker for cancer, especially for leukemia.

Original language	English (US)
Article number	6113
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-41785-7
State	Published - Dec 2023

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Publisher Copyright:
© 2023, Springer Nature Limited.

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Hong, Y. S., Battle, S. L., Shi, W., Puiu, D., Pillalamarri, V., Xie, J., Pankratz, N., Lake, N. J., Lek, M., Rotter, J. I., Rich, S. S., Kooperberg, C., Reiner, A. P., Auer, P. L., Heard-Costa, N., Liu, C., Lai, M., Murabito, J. M., Levy, D., ... Arking, D. E. (2023). Deleterious heteroplasmic mitochondrial mutations are associated with an increased risk of overall and cancer-specific mortality. Nature communications, 14(1), Article 6113. https://doi.org/10.1038/s41467-023-41785-7

Hong, YS, Battle, SL, Shi, W, Puiu, D, Pillalamarri, V, Xie, J, Pankratz, N, Lake, NJ, Lek, M, Rotter, JI, Rich, SS, Kooperberg, C, Reiner, AP, Auer, PL, Heard-Costa, N, Liu, C, Lai, M, Murabito, JM, Levy, D, Grove, ML, Alonso, A, Gibbs, R, Dugan-Perez, S, Gondek, LP, Guallar, E & Arking, DE 2023, 'Deleterious heteroplasmic mitochondrial mutations are associated with an increased risk of overall and cancer-specific mortality', Nature communications, vol. 14, no. 1, 6113. https://doi.org/10.1038/s41467-023-41785-7

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abstract = "Mitochondria carry their own circular genome and disruption of the mitochondrial genome is associated with various aging-related diseases. Unlike the nuclear genome, mitochondrial DNA (mtDNA) can be present at 1000 s to 10,000 s copies in somatic cells and variants may exist in a state of heteroplasmy, where only a fraction of the DNA molecules harbors a particular variant. We quantify mtDNA heteroplasmy in 194,871 participants in the UK Biobank and find that heteroplasmy is associated with a 1.5-fold increased risk of all-cause mortality. Additionally, we functionally characterize mtDNA single nucleotide variants (SNVs) using a constraint-based score, mitochondrial local constraint score sum (MSS) and find it associated with all-cause mortality, and with the prevalence and incidence of cancer and cancer-related mortality, particularly leukemia. These results indicate that mitochondria may have a functional role in certain cancers, and mitochondrial heteroplasmic SNVs may serve as a prognostic marker for cancer, especially for leukemia.",

author = "Hong, \{Yun Soo\} and Battle, \{Stephanie L.\} and Wen Shi and Daniela Puiu and Vamsee Pillalamarri and Jiaqi Xie and Nathan Pankratz and Lake, \{Nicole J.\} and Monkol Lek and Rotter, \{Jerome I.\} and Rich, \{Stephen S.\} and Charles Kooperberg and Reiner, \{Alex P.\} and Auer, \{Paul L.\} and Nancy Heard-Costa and Chunyu Liu and Meng Lai and Murabito, \{Joanne M.\} and Daniel Levy and Grove, \{Megan L.\} and Alvaro Alonso and Richard Gibbs and Shannon Dugan-Perez and Gondek, \{Lukasz P.\} and Eliseo Guallar and Arking, \{Dan E.\}",

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AU - Pillalamarri, Vamsee

AU - Xie, Jiaqi

AU - Pankratz, Nathan

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AU - Rotter, Jerome I.

AU - Rich, Stephen S.

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AU - Reiner, Alex P.

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AU - Heard-Costa, Nancy

AU - Liu, Chunyu

AU - Lai, Meng

AU - Murabito, Joanne M.

AU - Levy, Daniel

AU - Grove, Megan L.

AU - Alonso, Alvaro

AU - Gibbs, Richard

AU - Dugan-Perez, Shannon

AU - Gondek, Lukasz P.

AU - Guallar, Eliseo

AU - Arking, Dan E.

PY - 2023/12

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N2 - Mitochondria carry their own circular genome and disruption of the mitochondrial genome is associated with various aging-related diseases. Unlike the nuclear genome, mitochondrial DNA (mtDNA) can be present at 1000 s to 10,000 s copies in somatic cells and variants may exist in a state of heteroplasmy, where only a fraction of the DNA molecules harbors a particular variant. We quantify mtDNA heteroplasmy in 194,871 participants in the UK Biobank and find that heteroplasmy is associated with a 1.5-fold increased risk of all-cause mortality. Additionally, we functionally characterize mtDNA single nucleotide variants (SNVs) using a constraint-based score, mitochondrial local constraint score sum (MSS) and find it associated with all-cause mortality, and with the prevalence and incidence of cancer and cancer-related mortality, particularly leukemia. These results indicate that mitochondria may have a functional role in certain cancers, and mitochondrial heteroplasmic SNVs may serve as a prognostic marker for cancer, especially for leukemia.

AB - Mitochondria carry their own circular genome and disruption of the mitochondrial genome is associated with various aging-related diseases. Unlike the nuclear genome, mitochondrial DNA (mtDNA) can be present at 1000 s to 10,000 s copies in somatic cells and variants may exist in a state of heteroplasmy, where only a fraction of the DNA molecules harbors a particular variant. We quantify mtDNA heteroplasmy in 194,871 participants in the UK Biobank and find that heteroplasmy is associated with a 1.5-fold increased risk of all-cause mortality. Additionally, we functionally characterize mtDNA single nucleotide variants (SNVs) using a constraint-based score, mitochondrial local constraint score sum (MSS) and find it associated with all-cause mortality, and with the prevalence and incidence of cancer and cancer-related mortality, particularly leukemia. These results indicate that mitochondria may have a functional role in certain cancers, and mitochondrial heteroplasmic SNVs may serve as a prognostic marker for cancer, especially for leukemia.

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Deleterious heteroplasmic mitochondrial mutations are associated with an increased risk of overall and cancer-specific mortality

Abstract

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