Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation

Mitochondrial DNA copy number (mtDNA-CN) measured from blood specimens is a minimally invasive marker of mitochondrial function that exhibits both inter-individual and intercellular variation. To identify genes involved in regulating mitochondrial function, we performed a genome-wide association stu...

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Autores principales: Longchamps, R. J., Yang, S. Y., Castellani, C. A., Shi, W., Lane, J., Grove, M. L., Bartz, T. M., Sarnowski, C., Liu, C., Burrows, K., Guyatt, A. L., Gaunt, T. R., Kacprowski, T., Yang, J., De Jager, P. L., Yu, L., Bergman, A., Xia, R., Fornage, M., Feitosa, M. F., Wojczynski, M. K., Kraja, A. T., Province, M. A., Amin, N., Rivadeneira, F., Tiemeier, H., Uitterlinden, A. G., Broer, L., Van Meurs, J. B. J., Van Duijn, C. M., Raffield, L. M., Lange, L., Rich, S. S., Lemaitre, R. N., Goodarzi, M. O., Sitlani, C. M., Mak, A. C. Y., Bennett, D. A., Rodriguez, S., Murabito, J. M., Lunetta, K. L., Sotoodehnia, N., Atzmon, G., Ye, K., Barzilai, N., Brody, J. A., Psaty, B. M., Taylor, K. D., Rotter, J. I., Boerwinkle, E., Pankratz, N., Arking, D. E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2021
Materias:
Original Investigation
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8758627/
https://www.ncbi.nlm.nih.gov/pubmed/34859289
http://dx.doi.org/10.1007/s00439-021-02394-w
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author Longchamps, R. J.
Yang, S. Y.
Castellani, C. A.
Shi, W.
Lane, J.
Grove, M. L.
Bartz, T. M.
Sarnowski, C.
Liu, C.
Burrows, K.
Guyatt, A. L.
Gaunt, T. R.
Kacprowski, T.
Yang, J.
De Jager, P. L.
Yu, L.
Bergman, A.
Xia, R.
Fornage, M.
Feitosa, M. F.
Wojczynski, M. K.
Kraja, A. T.
Province, M. A.
Amin, N.
Rivadeneira, F.
Tiemeier, H.
Uitterlinden, A. G.
Broer, L.
Van Meurs, J. B. J.
Van Duijn, C. M.
Raffield, L. M.
Lange, L.
Rich, S. S.
Lemaitre, R. N.
Goodarzi, M. O.
Sitlani, C. M.
Mak, A. C. Y.
Bennett, D. A.
Rodriguez, S.
Murabito, J. M.
Lunetta, K. L.
Sotoodehnia, N.
Atzmon, G.
Ye, K.
Barzilai, N.
Brody, J. A.
Psaty, B. M.
Taylor, K. D.
Rotter, J. I.
Boerwinkle, E.
Pankratz, N.
Arking, D. E.
author_facet Longchamps, R. J.
Yang, S. Y.
Castellani, C. A.
Shi, W.
Lane, J.
Grove, M. L.
Bartz, T. M.
Sarnowski, C.
Liu, C.
Burrows, K.
Guyatt, A. L.
Gaunt, T. R.
Kacprowski, T.
Yang, J.
De Jager, P. L.
Yu, L.
Bergman, A.
Xia, R.
Fornage, M.
Feitosa, M. F.
Wojczynski, M. K.
Kraja, A. T.
Province, M. A.
Amin, N.
Rivadeneira, F.
Tiemeier, H.
Uitterlinden, A. G.
Broer, L.
Van Meurs, J. B. J.
Van Duijn, C. M.
Raffield, L. M.
Lange, L.
Rich, S. S.
Lemaitre, R. N.
Goodarzi, M. O.
Sitlani, C. M.
Mak, A. C. Y.
Bennett, D. A.
Rodriguez, S.
Murabito, J. M.
Lunetta, K. L.
Sotoodehnia, N.
Atzmon, G.
Ye, K.
Barzilai, N.
Brody, J. A.
Psaty, B. M.
Taylor, K. D.
Rotter, J. I.
Boerwinkle, E.
Pankratz, N.
Arking, D. E.
author_sort Longchamps, R. J.
collection PubMed
description Mitochondrial DNA copy number (mtDNA-CN) measured from blood specimens is a minimally invasive marker of mitochondrial function that exhibits both inter-individual and intercellular variation. To identify genes involved in regulating mitochondrial function, we performed a genome-wide association study (GWAS) in 465,809 White individuals from the Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) consortium and the UK Biobank (UKB). We identified 133 SNPs with statistically significant, independent effects associated with mtDNA-CN across 100 loci. A combination of fine-mapping, variant annotation, and co-localization analyses was used to prioritize genes within each of the 133 independent sites. Putative causal genes were enriched for known mitochondrial DNA depletion syndromes (p = 3.09 × 10(–15)) and the gene ontology (GO) terms for mtDNA metabolism (p = 1.43 × 10(–8)) and mtDNA replication (p = 1.2 × 10(–7)). A clustering approach leveraged pleiotropy between mtDNA-CN associated SNPs and 41 mtDNA-CN associated phenotypes to identify functional domains, revealing three distinct groups, including platelet activation, megakaryocyte proliferation, and mtDNA metabolism. Finally, using mitochondrial SNPs, we establish causal relationships between mitochondrial function and a variety of blood cell-related traits, kidney function, liver function and overall (p = 0.044) and non-cancer mortality (p = 6.56 × 10(–4)). SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00439-021-02394-w.
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spelling pubmed-87586272022-01-26 Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation Longchamps, R. J. Yang, S. Y. Castellani, C. A. Shi, W. Lane, J. Grove, M. L. Bartz, T. M. Sarnowski, C. Liu, C. Burrows, K. Guyatt, A. L. Gaunt, T. R. Kacprowski, T. Yang, J. De Jager, P. L. Yu, L. Bergman, A. Xia, R. Fornage, M. Feitosa, M. F. Wojczynski, M. K. Kraja, A. T. Province, M. A. Amin, N. Rivadeneira, F. Tiemeier, H. Uitterlinden, A. G. Broer, L. Van Meurs, J. B. J. Van Duijn, C. M. Raffield, L. M. Lange, L. Rich, S. S. Lemaitre, R. N. Goodarzi, M. O. Sitlani, C. M. Mak, A. C. Y. Bennett, D. A. Rodriguez, S. Murabito, J. M. Lunetta, K. L. Sotoodehnia, N. Atzmon, G. Ye, K. Barzilai, N. Brody, J. A. Psaty, B. M. Taylor, K. D. Rotter, J. I. Boerwinkle, E. Pankratz, N. Arking, D. E. Hum Genet Original Investigation Mitochondrial DNA copy number (mtDNA-CN) measured from blood specimens is a minimally invasive marker of mitochondrial function that exhibits both inter-individual and intercellular variation. To identify genes involved in regulating mitochondrial function, we performed a genome-wide association study (GWAS) in 465,809 White individuals from the Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) consortium and the UK Biobank (UKB). We identified 133 SNPs with statistically significant, independent effects associated with mtDNA-CN across 100 loci. A combination of fine-mapping, variant annotation, and co-localization analyses was used to prioritize genes within each of the 133 independent sites. Putative causal genes were enriched for known mitochondrial DNA depletion syndromes (p = 3.09 × 10(–15)) and the gene ontology (GO) terms for mtDNA metabolism (p = 1.43 × 10(–8)) and mtDNA replication (p = 1.2 × 10(–7)). A clustering approach leveraged pleiotropy between mtDNA-CN associated SNPs and 41 mtDNA-CN associated phenotypes to identify functional domains, revealing three distinct groups, including platelet activation, megakaryocyte proliferation, and mtDNA metabolism. Finally, using mitochondrial SNPs, we establish causal relationships between mitochondrial function and a variety of blood cell-related traits, kidney function, liver function and overall (p = 0.044) and non-cancer mortality (p = 6.56 × 10(–4)). SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00439-021-02394-w. Springer Berlin Heidelberg 2021-12-02 2022 /pmc/articles/PMC8758627/ /pubmed/34859289 http://dx.doi.org/10.1007/s00439-021-02394-w Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Original Investigation
Longchamps, R. J.
Yang, S. Y.
Castellani, C. A.
Shi, W.
Lane, J.
Grove, M. L.
Bartz, T. M.
Sarnowski, C.
Liu, C.
Burrows, K.
Guyatt, A. L.
Gaunt, T. R.
Kacprowski, T.
Yang, J.
De Jager, P. L.
Yu, L.
Bergman, A.
Xia, R.
Fornage, M.
Feitosa, M. F.
Wojczynski, M. K.
Kraja, A. T.
Province, M. A.
Amin, N.
Rivadeneira, F.
Tiemeier, H.
Uitterlinden, A. G.
Broer, L.
Van Meurs, J. B. J.
Van Duijn, C. M.
Raffield, L. M.
Lange, L.
Rich, S. S.
Lemaitre, R. N.
Goodarzi, M. O.
Sitlani, C. M.
Mak, A. C. Y.
Bennett, D. A.
Rodriguez, S.
Murabito, J. M.
Lunetta, K. L.
Sotoodehnia, N.
Atzmon, G.
Ye, K.
Barzilai, N.
Brody, J. A.
Psaty, B. M.
Taylor, K. D.
Rotter, J. I.
Boerwinkle, E.
Pankratz, N.
Arking, D. E.
Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title_full Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title_fullStr Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title_full_unstemmed Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title_short Genome-wide analysis of mitochondrial DNA copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
title_sort genome-wide analysis of mitochondrial dna copy number reveals loci implicated in nucleotide metabolism, platelet activation, and megakaryocyte proliferation
topic Original Investigation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8758627/
https://www.ncbi.nlm.nih.gov/pubmed/34859289
http://dx.doi.org/10.1007/s00439-021-02394-w
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