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A new gene set identifies senescent cells and predicts senescence-associated pathways across tissues

Dominik Saul, Robyn Laura Kosinsky, Elizabeth J. Atkinson, Madison L. Doolittle, Xu Zhang, Nathan K. LeBrasseur, Robert J. Pignolo, Paul D. Robbins, Laura J. Niedernhofer, Yuji Ikeno, Diana Jurk, João F. Passos, LaTonya J. Hickson, Ailing Xue, David G. Monroe

Nature Communications · 2022 · ▲ 943 citations

Cellular senescence Altered intercellular communication Senolytics Human Mouse

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Abstract

Although cellular senescence drives multiple age-related co-morbidities through the senescence-associated secretory phenotype, in vivo senescent cell identification remains challenging. Here, we generate a gene set (SenMayo) and validate its enrichment in bone biopsies from two aged human cohorts. We further demonstrate reductions in SenMayo in bone following genetic clearance of senescent cells in mice and in adipose tissue from humans following pharmacological senescent cell clearance. We next use SenMayo to identify senescent hematopoietic or mesenchymal cells at the single cell level from human and murine bone marrow/bone scRNA-seq data. Thus, SenMayo identifies senescent cells across tissues and species with high fidelity. Using this senescence panel, we are able to characterize senescent cells at the single cell level and identify key intercellular signaling pathways. SenMayo also represents a potentially clinically applicable panel for monitoring senescent cell burden with aging and other conditions as well as in studies of senolytic drugs.

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Provenance

Source: OpenAlex
DOI: 10.1038/s41467-022-32552-1
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Fetched: 2026-05-31 MST

Cite this

APA

Saul, D., Kosinsky, R.L., Atkinson, E.J., Doolittle, M.L., Zhang, X., LeBrasseur, N.K., Pignolo, R.J., Robbins, P.D., Niedernhofer, L.J., Ikeno, Y., Jurk, D., Passos, J.F., Hickson, L.J., Xue, A., Monroe, D.G., Tchkonia, T., Kirkland, J.L., Farr, J.N., & Khosla, S. (2022). A new gene set identifies senescent cells and predicts senescence-associated pathways across tissues. <em>Nature Communications</em>. https://doi.org/10.1038/s41467-022-32552-1

Vancouver

Saul D, Kosinsky RL, Atkinson EJ, Doolittle ML, Zhang X, LeBrasseur NK, et al. A new gene set identifies senescent cells and predicts senescence-associated pathways across tissues. Nature Communications. 2022. doi:10.1038/s41467-022-32552-1.

BibTeX

@article{dominik2022Anewge, title = {A new gene set identifies senescent cells and predicts senescence-associated pathways across tissues}, author = {Dominik Saul and Robyn Laura Kosinsky and Elizabeth J. Atkinson and Madison L. Doolittle and Xu Zhang and Nathan K. LeBrasseur and Robert J. Pignolo and Paul D. Robbins and Laura J. Niedernhofer and Yuji Ikeno and Diana Jurk and João F. Passos and LaTonya J. Hickson and Ailing Xue and David G. Monroe and Tamar Tchkonia and James L. Kirkland and Joshua N. Farr and Sundeep Khosla}, journal = {Nature Communications}, year = {2022}, doi = {10.1038/s41467-022-32552-1}, }