Scientific Reports (Oct 2023)

Multi-ancestry epigenome-wide analyses identify methylated sites associated with aortic augmentation index in TOPMed MESA

  • Xiaowei Hu,
  • Jeongok G. Logan,
  • Younghoon Kwon,
  • Joao A. C. Lima,
  • David R. Jacobs,
  • Daniel Duprez,
  • Lyndia Brumback,
  • Kent D. Taylor,
  • Peter Durda,
  • W. Craig Johnson,
  • Elaine Cornell,
  • Xiuqing Guo,
  • Yongmei Liu,
  • Russell P. Tracy,
  • Thomas W. Blackwell,
  • George Papanicolaou,
  • Gary F. Mitchell,
  • Stephen S. Rich,
  • Jerome I. Rotter,
  • David J. Van Den Berg,
  • Julio A. Chirinos,
  • Timothy M. Hughes,
  • Francine E. Garrett-Bakelman,
  • Ani Manichaikul

DOI
https://doi.org/10.1038/s41598-023-44806-z
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract Despite the prognostic value of arterial stiffness (AS) and pulsatile hemodynamics (PH) for cardiovascular morbidity and mortality, epigenetic modifications that contribute to AS/PH remain unknown. To gain a better understanding of the link between epigenetics (DNA methylation) and AS/PH, we examined the relationship of eight measures of AS/PH with CpG sites and co-methylated regions using multi-ancestry participants from Trans-Omics for Precision Medicine (TOPMed) Multi-Ethnic Study of Atherosclerosis (MESA) with sample sizes ranging from 438 to 874. Epigenome-wide association analysis identified one genome-wide significant CpG (cg20711926-CYP1B1) associated with aortic augmentation index (AIx). Follow-up analyses, including gene set enrichment analysis, expression quantitative trait methylation analysis, and functional enrichment analysis on differentially methylated positions and regions, further prioritized three CpGs and their annotated genes (cg23800023-ETS1, cg08426368-TGFB3, and cg17350632-HLA-DPB1) for AIx. Among these, ETS1 and TGFB3 have been previously prioritized as candidate genes. Furthermore, both ETS1 and HLA-DPB1 have significant tissue correlations between Whole Blood and Aorta in GTEx, which suggests ETS1 and HLA-DPB1 could be potential biomarkers in understanding pathophysiology of AS/PH. Overall, our findings support the possible role of epigenetic regulation via DNA methylation of specific genes associated with AIx as well as identifying potential targets for regulation of AS/PH.