1Regulatory T cells are heterogeneous with sub-populations that exhibit distinct functional features.
2However, regulatory T cells from well-controlled patients had better suppressive abilities.
3These mAbs may be useful for future investigation of chicken regulatory T cells.
4FOXP3 is a key transcription factor for regulatory T cell function.
5Ex vivo activated and expanded regulatory T cells have a perspective for practical use.
6Chemotherapy also depletes regulatory T cells, potentially enhancing immune responses.
7Percentage of regulatory T cells was measured with flow cytometry.
8In particular, the role of DCs in the generation of regulatory T cells is highlighted.
9High-salt diets inhibit the suppressive function of thymus-derived natural regulatory T cells (tTreg).
10There is now ample evidence that self-reactive, regulatory T cells can protect against pernicious autoimmunity.
11The maintenance of immune homeostasis requires regulatory T cells (Treg cells).
12We propose that LAG-3 marks regulatory T cell populations and contributes to their suppressor activity.
13Regulatory T cells (Tregs) maintain immune homeostasis by limiting inflammatory responses.
14Regulatory T cells (T regs) are a barrier to anti-tumor immunity.
15Regulatory T cells control the reactivity of potentially harmful, self-reactive T cells and prevent autoimmune diseases.
16Such low levels could induce negative selection, but even lower levels could induce regulatory T cells.
Translations for regulatory t cell