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Article Abstract
Maintenance of memory T-cells in the bone marrow and systemically depends on the homeostatic cytokines IL-7 and IL-15. An immunological memory may also exist for regulatory T-cells. EOMEStype-1 regulatory (Tr1)-like cells have a rapid in vivo turnover, but whether they are short-lived effector cells or are maintained long-term has not been investigated. EOMESTr1-like cells expressing GzmK were enriched among CD69Ki67T-cells in the bone marrow of healthy donors, suggesting that they became quiescent and bone marrow-resident. Conversely, CD4GzmB effector T-cells were excluded from the bone marrow-resident fraction. The dichotomy between GzmK and GzmBT-cells was observed both in healthy individuals and in multiple sclerosis patients, and also among CD8T-cells. Intriguingly, bone marrow-resident CD4 memory T-cells expressed increased levels of IL-7Rα, while EOMESTr1-like cells were consistently IL-7Rα. However, EOMESTr1-like cells expressed the IL-2/15Rβ chain, and the latter was induced upon forced expression of EOMES in primary human CD4 T-cells. Finally, IL-15 rescued EOMESTr1-enriched populations from death by neglect but was not required for CD4 memory T-cell survival. These findings suggest that the bone marrow may provide a survival niche for EOMESTr1-like cells. The different IL-7 and IL-15 receptor expression patterns of CD4 memory T-cells and EOMESTr1-like cells suggest furthermore that they compete for different homeostatic niches.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12082382 | PMC |
| http://dx.doi.org/10.1002/eji.202451644 | DOI Listing |
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