Affordable Access

Clinical validation of C12FDG as a marker associated with senescence and osteoarthritic phenotypes

Authors
  • Hambright, William S
  • Duke, Victoria R
  • Goff, Adam D
  • Goff, Alex W
  • Minas, Lucas T
  • Kloser, Heidi
  • Gao, Xueqin
  • Huard, Charles
  • Guo, Ping
  • Lu, Aiping
  • Mitchell, John
  • Mullen, Michael
  • Su, Charles
  • Tchkonia, Tamara
  • Netto, Jair M Espindola
  • Robbins, Paul D
  • Niedernhofer, Laura J
  • Kirkland, James L
  • Bahney, Chelsea S
  • Philippon, Marc
  • And 1 more
Publication Date
May 06, 2024
Source
eScholarship - University of California
Keywords
License
Unknown
External links

Abstract

Chronic conditions associated with aging have proven difficult to prevent or treat. Senescence is a cell fate defined by loss of proliferative capacity and the development of a pro-inflammatory senescence-associated secretory phenotype comprised of cytokines/chemokines, proteases, and other factors that promotes age-related diseases. Specifically, an increase in senescent peripheral blood mononuclear cells (PBMCs), including T cells, is associated with conditions like frailty, rheumatoid arthritis, and bone loss. However, it is unknown if the percentage of senescent PBMCs associated with age-associated orthopedic decline could be used for potential diagnostic or prognostic use in orthopedics. Here, we report senescent cell detection using the fluorescent compound C12FDG to quantify PBMCs senescence across a large cohort of healthy and osteoarthritic patients. There is an increase in the percent of circulating C12FDG+ PBMCs that is commensurate with increases in age and senescence-related serum biomarkers. Interestingly, C12FDG+ PBMCs and T cells also were found to be elevated in patients with mild to moderate osteoarthritis, a progressive joint disease that is strongly associated with inflammation. The percent of C12FDG+ PBMCs and age-related serum biomarkers were decreased in a small subgroup of study participants taking the senolytic drug fisetin. These results demonstrate quantifiable measurements in a large group of participants that could create a composite score of healthy aging sensitive enough to detect changes following senolytic therapy and may predict age-related orthopedic decline. Detection of peripheral senescence in PBMCs and subsets using C12FDG may be clinically useful for quantifying cellular senescence and determining how and if it plays a pathological role in osteoarthritic progression.

Report this publication

Statistics

Seen <100 times