1. Proteomic architecture of frailty across the spectrum of cardiovascular disease.
- Author
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Perry, Andrew, Zhao, Shilin, Gajjar, Priya, Murthy, Venkatesh, Lehallier, Benoit, Miller, Patricia, Nair, Sangeeta, Neill, Colin, Carr, J, Fearon, William, Kapadia, Samir, Kumbhani, Dharam, Gillam, Linda, Lindenfeld, JoAnn, Farrell, Laurie, Marron, Megan, Tian, Qu, Newman, Anne, Murabito, Joanne, Gerszten, Robert, Nayor, Matthew, Lindman, Brian, Shah, Ravi, and Elmariah, Sammy
- Subjects
cardiovascular disease ,frailty ,proteomics - Abstract
While frailty is a prominent risk factor in an aging population, the underlying biology of frailty is incompletely described. Here, we integrate 979 circulating proteins across a wide range of physiologies with 12 measures of frailty in a prospective discovery cohort of 809 individuals with severe aortic stenosis (AS) undergoing transcatheter aortic valve implantation. Our aim was to characterize the proteomic architecture of frailty in a highly susceptible population and study its relation to clinical outcome and systems-wide phenotypes to define potential novel, clinically relevant frailty biology. Proteomic signatures (specifically of physical function) were related to post-intervention outcome in AS, specifying pathways of innate immunity, cell growth/senescence, fibrosis/metabolism, and a host of proteins not widely described in human aging. In published cohorts, the frailty proteome displayed heterogeneous trajectories across age (20-100 years, age only explaining a small fraction of variance) and were associated with cardiac and non-cardiac phenotypes and outcomes across two broad validation cohorts (N > 35,000) over ≈2-3 decades. These findings suggest the importance of precision biomarkers of underlying multi-organ health status in age-related morbidity and frailty.
- Published
- 2023