Open access · CC-BY
via OpenAlex
Clinical validation of <scp>C<sub>12</sub>FDG</scp> as a marker associated with senescence and osteoarthritic phenotypes
William S. Hambright, Victoria R. Duke, Adam D. Goff, Alex W. Goff, Lucas T. Minas, Heidi Kloser, Xueqin Gao, Charles Huard, Ping Guo, Aiping Lu, John M. Mitchell, Michael Mullen, Charles A. Su, Tamar Tchkonia, Jair Machado Espindola Netto
Aging Cell · 2024 · ▲ 18 citations
Abstract
Abstract Chronic conditions associated with aging have proven difficult to prevent or treat. Senescence(definition) 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 C 12 FDG to quantify PBMCs senescence across a large cohort of healthy and osteoarthritic patients. There is an increase in the percent of circulating C 12 FDG + PBMCs that is commensurate with increases in age and senescence‐related serum biomarkers. Interestingly, C 12 FDG + 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 C 12 FDG + 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 C 12 FDG may be clinically useful for quantifying cellular senescence and determining how and if it plays a pathological role in osteoarthritic progression.
◌ CITATION ONLY
Full text is not openly licensed for redistribution here. Read it at the source:
Provenance
- Source
- OpenAlex
- DOI
- 10.1111/acel.14113
- Canonical
- link ↗
- Fetched
- 2026-06-28 MST
Cite this
APA
Hambright, W.S., Duke, V.R., Goff, A.D., Goff, A.W., Minas, L.T., Kloser, H., Gao, X., Huard, C., Guo, P., Lu, A., Mitchell, J.M., Mullen, M., Su, C.A., Tchkonia, T., Netto, J.M.E., Robbins, P.D., Niedernhofer, L.J., Kirkland, J.L., Bahney, C.S., & Philippon, M.J. (2024). Clinical validation of <scp>C<sub>12</sub>FDG</scp> as a marker associated with senescence and osteoarthritic phenotypes. <em>Aging Cell</em>. https://doi.org/10.1111/acel.14113
Vancouver
Hambright WS, Duke VR, Goff AD, Goff AW, Minas LT, Kloser H, et al. Clinical validation of <scp>C<sub>12</sub>FDG</scp> as a marker associated with senescence and osteoarthritic phenotypes. Aging Cell. 2024. doi:10.1111/acel.14113.
BibTeX
@article{william2024Clinic,
title = {Clinical validation of <scp>C<sub>12</sub>FDG</scp> as a marker associated with senescence and osteoarthritic phenotypes},
author = {William S. Hambright and Victoria R. Duke and Adam D. Goff and Alex W. Goff and Lucas T. Minas and Heidi Kloser and Xueqin Gao and Charles Huard and Ping Guo and Aiping Lu and John M. Mitchell and Michael Mullen and Charles A. Su and Tamar Tchkonia and Jair Machado Espindola Netto and Paul D. Robbins and Laura J. Niedernhofer and James L. Kirkland and Chelsea S. Bahney and Marc J. Philippon and Johnny Huard},
journal = {Aging Cell},
year = {2024},
doi = {10.1111/acel.14113},
}
Research neighborhood
References, citing works, and semantically nearest findings. Click a node to open it.
Related findings
Journal of Hematology & Oncology 2020
Open access · OA
Immunosenescence: a key player in cancer development
JBMR Plus 2021
Open access · CC-BY
Bone Aging, Cellular Senescence, and Osteoporosis
Frontiers in Medicine 2025
Open access · CC-BY
Senolytic therapy reduces inflammation in epithelial cells from COPD patients and in smoke-exposure mice
Expert Review of Proteomics 2020
Open access · CC-BY
The power of proteomics to monitor senescence-associated secretory phenotypes and beyond: toward clinical applications
Chinese Medical Journal - Pulmonary and Critical Care Medicine 2024
Open access · CC-BY
Unveiling mechanisms of lung aging in COPD: A promising target for therapeutics development
Journal of Clinical Investigation 2023
Open access · CC-BY