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IL-23R is a senescence-linked circulating and tissue biomarker of aging

Chase M. Carver, Sonia L. Rodriguez, Elizabeth J. Atkinson, Andrew J. Dosch, Niels C. Asmussen, P. Gómez, Ethan A Leitschuh, Jair Machado Espíndola‐Netto, Karthik B. Jeganathan, Madison G. Whaley, Theodore M. Kamenecka, Darren J. Baker, Andrew J. Haak, Nathan K. LeBrasseur, Marissa Schafer

Nature Aging · 2024 · ▲ 29 citations

Abstract

Cellular senescence(definition) is an aging mechanism characterized by cell cycle arrest and a senescence-associated secretory phenotype (SASP). Preclinical studies demonstrate that senolytic drugs, which target survival pathways in senescent cells, can counteract age-associated conditions that span several organs. The comparative efficacy of distinct senolytic drugs for modifying aging and senescence biomarkers in vivo has not been demonstrated. Here, we established aging- and senescence-related plasma proteins and tissue transcripts that changed in old versus young female and male mice. We investigated responsivity to acute treatment with venetoclax, navitoclax, fisetin or luteolin versus transgenic senescent cell clearance in aged p16-InkAttac mice. We discovered that age-dependent changes in plasma proteins, including IL-23R, CCL5 and CA13, were reversed by senotherapeutics, which corresponded to expression differences in tissues, particularly in the kidney. In plasma from humans across the lifespan, IL-23R increased with age. Our results reveal circulating factors as candidate mediators of senescence-associated interorgan signal transduction and translationally impactful biomarkers of systemic senescent cell burden. Using mouse and human plasma, Carver et al. identify factors that are altered with age and test which are reverted by a panel of genetic and pharmacological senolytic interventions in aged mice. They identify IL-23R as a senescence-associated, age-increased circulating biomarker.

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OpenAlex
DOI
10.1038/s43587-024-00752-7
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2026-06-26 MST

Cite this

APA
Carver, C.M., Rodriguez, S.L., Atkinson, E.J., Dosch, A.J., Asmussen, N.C., Gómez, P., Leitschuh, E.A., Espíndola‐Netto, J.M., Jeganathan, K.B., Whaley, M.G., Kamenecka, T.M., Baker, D.J., Haak, A.J., LeBrasseur, N.K., &amp; Schafer, M. (2024). IL-23R is a senescence-linked circulating and tissue biomarker of aging. <em>Nature Aging</em>. https://doi.org/10.1038/s43587-024-00752-7
Vancouver
Carver CM, Rodriguez SL, Atkinson EJ, Dosch AJ, Asmussen NC, Gómez P, et al. IL-23R is a senescence-linked circulating and tissue biomarker of aging. Nature Aging. 2024. doi:10.1038/s43587-024-00752-7.
BibTeX
@article{chase2024ILRisa, title = {IL-23R is a senescence-linked circulating and tissue biomarker of aging}, author = {Chase M. Carver and Sonia L. Rodriguez and Elizabeth J. Atkinson and Andrew J. Dosch and Niels C. Asmussen and P. Gómez and Ethan A Leitschuh and Jair Machado Espíndola‐Netto and Karthik B. Jeganathan and Madison G. Whaley and Theodore M. Kamenecka and Darren J. Baker and Andrew J. Haak and Nathan K. LeBrasseur and Marissa Schafer}, journal = {Nature Aging}, year = {2024}, doi = {10.1038/s43587-024-00752-7}, }

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