Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease (Aug 2023)

Protein Biomarkers of Early Menopause and Incident Cardiovascular Disease

  • Mariana F. Ramirez,
  • Michael Honigberg,
  • Dongyu Wang,
  • Juhi K. Parekh,
  • Kamila Bielawski,
  • Paul Courchesne,
  • Martin D. Larson,
  • Daniel Levy,
  • Joanne M. Murabito,
  • Jennifer E. Ho,
  • Emily S. Lau

DOI
https://doi.org/10.1161/JAHA.122.028849
Journal volume & issue
Vol. 12, no. 16

Abstract

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Background Premature and early menopause are independently associated with greater risk of cardiovascular disease (CVD). However, mechanisms linking age of menopause with CVD remain poorly characterized. Methods and Results We measured 71 circulating CVD protein biomarkers in 1565 postmenopausal women enrolled in the FHS (Framingham Heart Study). We examined the association of early menopause with biomarkers and tested whether early menopause modified the association of biomarkers with incident cardiovascular outcomes (heart failure, major CVD, and all‐cause death) using multivariable‐adjusted linear regression and Cox models, respectively. Among 1565 postmenopausal women included (mean age 62 years), 395 (25%) had a history of early menopause. Of 71 biomarkers examined, we identified 7 biomarkers that were significantly associated with early menopause, of which 5 were higher in women with early menopause including adrenomedullin and resistin, and 2 were higher in women without early menopause including insulin growth factor‐1 and CNTN1 (contactin‐1) (Benjamini‐Hochberg adjusted P<0.1 for all). Early menopause also modified the association of specific biomarkers with incident cardiovascular outcomes including adrenomedullin (Pint<0.05). Conclusions Early menopause is associated with circulating levels of CVD protein biomarkers and appears to modify the association between select biomarkers with incident cardiovascular outcomes. Identified biomarkers reflect several distinct biological pathways, including inflammation, adiposity, and neurohormonal regulation. Further investigation of these pathways may provide mechanistic insights into the pathogenesis, prevention, and treatment of early menopause‐associated CVD.

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