Modification of anti-tumor immunity by tolerogenic dendritic cells

<p>Immunosuppressive functions of glucocorticoids (GC) can be mediated via various mechanisms, including the modulation of dendritic cells (DC). Our study investigates the effects of tolerogenic GC-treated DCs on NK and T cell anti-tumor responses in OT-1/Rag^−/− mice, expressing a transgenic TCR in CD8⁺ T cells. The effects caused by GC-treated DCs were compared to the responses to immunogenic, CpG-activated DCs. The effects of DCs on anti-tumor immune responses were analyzed using the EG7 tumor model, where the tumor cells express the peptide epitope recognized by OT-1 T cells. We observed that immunization with CpG and peptide-treated DCs protected against tumor growth by activation of NK cell response. Also, immunogenic DCs induced the expansion of cytotoxic CD8⁺OT-1 cells, expressing activation markers CD44 and CD69 and producing IFNγ. In contrast, the peptide and GC-treated DCs in OT-1 mice increased the numbers of immature Mac-1⁺CD27⁻ NK cells as well as Foxp3⁺ and IL-10 secreting CD8⁺OT-1 cells with suppressive properties. We conclude that the generation of tolerogenic DCs is one of many immunosuppressive mechanisms that can be induced by GC. Our study demonstrated that tolerogenic DCs modify anti-tumor immune response by suppressing NK cell activity and stimulating the formation of IL-10-secreting CD8⁺ Tregs.</p

Thymus-derived glucocorticoids mediate androgen effects on thymocyte homeostasis

Androgens contribute to the involution process of the aging thymus gland. However, molecular mechanisms behind this effect remain largely unknown. We have investigated the influence of testosterone on the ectopic synthesis of glucocorticoids (GCs) in thymocytes, an activity recently shown by us to be important for the homeostatic regulation of these cells. Castration, which leads to a strong increase in thymus tissue and function, was associated with a reduced GC release from thymocytes caused by down-regulated expression of several enzymes involved in GC synthesis, without affecting GC synthesis in the adrenals. Testosterone treatment of castrated male mice reversed these effects, also without affecting adrenal GC synthesis. The effects of testosterone in castrated mice on thymocyte homeostasis and GC release were strongly reduced in mice pretreated with the CYP11B1 enzyme inhibitor metyrapone, acting on the last step in the corticosterone synthesis. The androgen-induced thymic involution was dependent on GC action, because this was completely absent in mice lacking GC receptor (GR) expression specifically in thymocytes. We provide here an unrecognized mechanism how androgens contribute to thymic involution by stimulating local synthesis and release of GCs in the thymus.—Chen, Y., Qiao, S., Tuckermann, J., Okret, S., Jondal, M. Thymus-derived glucocorticoids mediate androgen effects on thymocyte homeostasis

Major histocompatibility complex class I binding glycopeptides for the estimation of 'empty' class I molecules

Different forms of major histocompatibility complex (MHC) class I heavy chains are known to be expressed on the cell surface, including molecules which are functionally 'empty'. Direct peptide binding to cells is obvious during sensitization of target cells in vitro for cytotoxic T lymphocyte killing and 'empty' MHC-I molecules are comparatively abundant on TAP- 1 2 peptide transporter mutant cells. In the present work we have estimated the fraction of 'empty' MHC class I molecules using glycosylated peptides and cellular staining with carbohydrate specific monoclonal antibodies. Synthetic Db and Kb binding peptides were coupled at different positions with different di- or trisaccharides, using different spacing between the carbohydrate and the peptide backbone. Binding of sugar specific mAbs was compared in ELISA and cellular assays. An optimal Db binding glycopeptide was used for comparative staining with anti-Db and anti-carbohydrate monoclonal antibodies to estimate fractions of 'empty' molecules on different T lymphoid cells. On activated normal T cells, a large fraction of Db molecules were found to be 'empty'. The functional cole of such 'empty' MHC class I molecules on T cells is presently unclear. However, on antigen presenting cells they might participate in the antigen presentation process