The immunoregulatory protein T cell immunoglobulin- and mucin-domain-containing molecule-3 (Tim-3) mediates T cell exhaustion and contributes to the suppression of immune responses in both viral infections and tumors. Tim-3 blockade reverses the exhausted phenotype of CD4+ and CD8+ T cells in several chronic diseases including melanoma. Interestingly, natural killer (NK) cells constitutively express Tim-3; however, its role in modulating the function of these innate effector cells remains unclear, particularly in human disease. In this study, we compared the function of Tim-3 in NK cells from healthy donors and patients with metastatic melanoma. NK cells from the latter were functionally impaired/exhausted and Tim-3 blockade reversed this exhausted phenotype. Moreover, Tim-3 expression levels correlated with the stage of the disease and poor prognostic factors. These data indicate that Tim-3 can function as an NK cell exhaustion marker in advanced melanoma and supports the development of Tim-3-targeted therapies to restore antitumor immunity.
Ultraviolet-A light associated with riboflavin CXL is an efficient procedure to stabilize and improve progressive keratoconus. The results reinforce previous studies highlighting the efficacy and safety of the procedure. A large prospective randomized clinical trial is needed.
Dendritic cells (DC) are the mononuclear cells that initiate adaptive immune responses.Osteoclasts (OC) are the multinucleated giant cells that resorb bone. As previously described for human conventional DC (cDC), we demonstrate that murine cDC, either in vitro generated from Fms-like tyrosine kinase 3 (Flt3) + bone marrow progenitors or ex vivo purified from spleen, are able to develop into OC in response to M-CSF and receptor activator of NF-jB ligand (RANKL) in vitro. This transdifferentiation is driven by the immune environment that controls cDC maturation, cell fusion, tartrate-resistant acid phosphatase (TRAP) and bone resorption activities. Only immature cDC have the capacity to become OC since mature cDC or plasmacytoid DC do not. Additions of the pro-inflammatory cytokines, such as IL-1b and TNF-a, or human rheumatoid synovial fluid, increase murine cDC transdifferentiation into OC, whereas IFN-a inhibits it. The adaptive cytokine, IFN-c, inhibits cDC fusion while IL-4 increases it. IL-2, IFN-c and IL-4 inhibit TRAP and bone resorption activities contrary to IL-10, which enhances both activities. A putative new "immune multinucleated giant cell" unable to resorb bone, which is formed owing to IL-4, is underlined. The future analysis of cDC transdifferentiation into OC in murine models of inflammatory arthritis will give us the quantitative importance of this phenomenon in vivo.
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