DNA methylation age is associated with an altered hemostatic profile in a multiethnic meta-analysis-Reference-Cited by-同舟云学术

DNA methylation age is associated with an altered hemostatic profile in a multiethnic meta-analysis

Published:2018-10-25 Issue:17 Volume:132 Page:1842-1850
ISSN:0006-4971
Container-title:Blood
language:en
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Author:

Ward-Caviness Cavin K.¹²^ORCID,Huffman Jennifer E.³⁴⁵,Everett Karl⁶,Germain Marine⁷⁸,van Dongen Jenny⁹^ORCID,Hill W. David¹⁰¹¹,Jhun Min A.¹²,Brody Jennifer A.¹³¹⁴,Ghanbari Mohsen¹⁵¹⁶^ORCID,Du Lei¹⁷,Roetker Nicholas S.¹⁸,de Vries Paul S.¹⁹,Waldenberger Melanie¹²⁰,Gieger Christian²⁰,Wolf Petra²¹,Prokisch Holger²¹²²,Koenig Wolfgang²³²⁴²⁵,O’Donnell Christopher J.⁴²⁶,Levy Daniel³⁴,Liu Chunyu³⁴,Truong Vinh⁶,Wells Philip S.²⁷^ORCID,Trégouët David-Alexandre⁷⁸^ORCID,Tang Weihong¹⁸,Morrison Alanna C.¹⁹^ORCID,Boerwinkle Eric¹⁹²⁸,Wiggins Kerri L.¹³¹⁴^ORCID,McKnight Barbara¹³²⁹,Guo Xiuqing³⁰,Psaty Bruce M.¹³¹⁴³¹³²³³,Sotoodehnia Nona¹³¹⁴³⁴,Boomsma Dorret I.⁹^ORCID,Willemsen Gonneke⁹,Ligthart Lannie⁹,Deary Ian J.¹⁰¹¹,Zhao Wei¹²,Ware Erin B.³⁵^ORCID,Kardia Sharon L. R.¹²,Van Meurs Joyce B. J.³⁶,Uitterlinden Andre G.³⁶,Franco Oscar H.¹⁵,Eriksson Per¹⁷,Franco-Cereceda Anders³⁷,Pankow James S.¹⁸,Johnson Andrew D.³⁴,Gagnon France⁶,Morange Pierre-Emmanuel³⁸³⁹,de Geus Eco J. C.⁹⁴⁰,Starr John M.¹⁰⁴¹,Smith Jennifer A.¹²³⁵,Dehghan Abbas¹⁵,Björck Hanna M.¹⁷,Smith Nicholas L.¹³³¹³³⁴²,Peters Annette¹

Affiliation:

1. Institute of Epidemiology II, Helmholtz Center of Munich, Neuherberg, Germany;

2. Environmental Public Health Division, National Health and Environmental Effects Research Laboratory, US Environmental Protection Agency, Chapel Hill, NC;

3. Population Sciences Branch, National Heart, Lung, and Blood Institute, National Institutes of Health, Framingham, MA;

4. The Framingham Heart Study, Framingham, MA;

5. Center for Population Genomics, Boston VA Healthcare System, Jamaica Plain, MA;

6. Dalla Lana School of Public Health, University of Toronto, Toronto, Canada;

7. Sorbonne Universités, UPMC University Paris 06, INSERM UMR_S 1166, Paris, France;

8. ICAN Institute for Cardiometabolism and Nutrition, Paris, France;

9. Biological Psychology, Vrije Universiteit Amsterdam, Amsterdam, The Netherlands;

10. Centre for Cognitive Ageing and Cognitive Epidemiology and

11. Department of Psychology, University of Edinburgh, Edinburgh, United Kingdom;

12. Department of Epidemiology, University of Michigan, Ann Arbor, MI;

13. Cardiovascular Health Research Unit, University of Washington, Seattle, WA;

14. Department of Medicine, University of Washington, Seattle, WA;

15. Department of Epidemiology, Erasmus Medical Center Rotterdam, Rotterdam, The Netherlands;

16. Department of Genetics, School of Medicine, Mashhad University of Medical Sciences, Mashhad, Iran;

17. Cardiovascular Medicine Unit, Center for Molecular Medicine, Department of Medicine, Karolinska Institutet, Karolinska University Hospital Solna, Stockholm, Sweden;

18. Division of Epidemiology & Community Health, School of Public Health, University of Minnesota, Minneapolis, MN;

19. Human Genetics Center, Department of Epidemiology, Human Genetics and Environmental Sciences, School of Public Health, The University of Texas Health Science Center at Houston, Houston, TX;

20. Research Unit of Molecular Epidemiology and

21. Institue of Human Genetics, Helmholtz Center of Munich, Neuherberg, Germany;

22. Institute fur Humangenetik, Technische Univeritat Munchen, Munich, Germany;

23. Department of Internal Medicine II–Cardiology, University of Ulm Medical Center, Ulm, Germany;

24. Deutsches Herzzentrum München, Technische Universität München, Munich, Germany;

25. German Centre for Cardiovascular Research, Munich Heart Alliance, Munich, Germany;

26. Cardiology Section Administration, Boston VA Healthcare System, West Roxbury, MA;

27. Department of Medicine, University of Ottawa and Ottawa Hospital Research Institute, Ottawa, Canada;

28. Human Genome Sequencing Center, Baylor College of Medicine, Houston, TX;

29. Department of Biostatistics, University of Washington, Seattle, WA;

30. Department of Pediatrics, LABioMed at Harbor-UCLA Medical Center, Torrence, CA;

31. Department of Epidemiology and

32. Department of Health Services, University of Washington, Seattle, WA;

33. Kaiser Permanente Washington Health Research Institute, Kaiser Permanente Washington, Seattle, WA;

34. Division of Cardiology, University of Washington, Seattle, WA;

35. Survey Research Center, Institute for Social Research, University of Michigan, Ann Arbor, MI;

36. Department of Internal Medicine, Erasmus Medical Center Rotterdam, Rotterdam, The Netherlands;

37. Cardiothoracic Surgery Unit, Department of Molecular Medicine and Surgery, Karolinska Institutet, Stockholm, Sweden;

38. Laboratory of Hematology, La Timone Hospital, Marseille, France;

39. INSERM UMR_S 1062, Nutrition Obesity and Risk of Thrombosis, Center for CardioVascular and Nutrition Research, Aix-Marseille University, Marseille, France;

40. Amsterdam Public Health, VU Medical Center, Amsterdam, The Netherlands;

41. Alzheimer Scotland Dementia Research Centre, University of Edinburgh, Edinburgh, United Kingdom; and

42. Seattle Epidemiologic Research and Information Center, Office of Research and Development, Department of Veterans Affairs, Seattle, WA

Abstract

Abstract Many hemostatic factors are associated with age and age-related diseases; however, much remains unknown about the biological mechanisms linking aging and hemostatic factors. DNA methylation is a novel means by which to assess epigenetic aging, which is a measure of age and the aging processes as determined by altered epigenetic states. We used a meta-analysis approach to examine the association between measures of epigenetic aging and hemostatic factors, as well as a clotting time measure. For fibrinogen, we performed European and African ancestry–specific meta-analyses which were then combined via a random effects meta-analysis. For all other measures we could not estimate ancestry-specific effects and used a single fixed effects meta-analysis. We found that 1-year higher extrinsic epigenetic age as compared with chronological age was associated with higher fibrinogen (0.004 g/L/y; 95% confidence interval, 0.001-0.007; P = .01) and plasminogen activator inhibitor 1 (PAI-1; 0.13 U/mL/y; 95% confidence interval, 0.07-0.20; P = 6.6 × 10−5) concentrations, as well as lower activated partial thromboplastin time, a measure of clotting time. We replicated PAI-1 associations using an independent cohort. To further elucidate potential functional mechanisms, we associated epigenetic aging with expression levels of the PAI-1 protein encoding gene (SERPINE1) and the 3 fibrinogen subunit-encoding genes (FGA, FGG, and FGB) in both peripheral blood and aorta intima-media samples. We observed associations between accelerated epigenetic aging and transcription of FGG in both tissues. Collectively, our results indicate that accelerated epigenetic aging is associated with a procoagulation hemostatic profile, and that epigenetic aging may regulate hemostasis in part via gene transcription.

Publisher

American Society of Hematology

Subject

Cell Biology,Hematology,Immunology,Biochemistry

Link

http://ashpublications.org/blood/article-pdf/132/17/1842/1727829/blood831347.pdf

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