IL-15 regulates Bcl-2 family members Bim and Mcl-1 through JAK/STAT and PI3K/AKT pathways in T cells.

Maintenance of T cells is determined by their survival capacity, which is regulated by Bcl-2 proteins. Cytokines signalling through the common gamma chains such as IL-2, IL-7 and IL-15 are important for T-cell survival but how these cytokines determine the expression of Bcl-2-family proteins is not clear. We report signalling events of cytokines that regulate expression of two key Bcl-2 proteins, pro-apoptotic Bim and anti-apoptotic Mcl-1, in resting C57BL/6 mouse T cells. IL-2, IL-7 and IL-15 inhibited apoptosis but paradoxically induced the expression of Bim, countered by concomitant induction of Mcl-1. Bim induction by IL-15 was found at the mRNA and protein levels and depended on both JAK/STAT and PI3K signals. A new STAT5-binding site was identified in the Bim promoter, which was occupied by STAT5 upon IL-15 stimulation. Although it also depended on JAK/STAT- and PI3K signalling, Mcl-1 regulation was independent of Mcl-1 mRNA levels and of regulation of protein stability, suggesting translational regulation. Concurrent CD3 signals inhibited some of the IL-7 effect but not the IL-15 effect on Bcl-2 proteins. The data suggest that cytokines induce Bim and prime T cells for apoptosis, but also inhibit apoptosis by stabilising Mcl-1. Later downregulation of short-lived Mcl-1 may induce efficient, Bim-dependent apoptosis.

Citalopram suppresses thymocyte cytokine production.

Antidepressant drugs, in particular those targeting the serotonin (5-HT)-reuptake system via the serotonin transporter (5-HTT), are known to exhibit antiinflammatory properties and have demonstrated therapeutic efficacy in rodent models of autoimmune disease like experimental autoimmune encephalomyelitis or experimental rheumatoid arthritis. A crucial difference between animal models and the actual human autoimmune disease is the fact that in animals predominantly induced T cells are studied after sensitization with autoantigen. In humans, however, naturally occurring cytokine-producing T cells might play a significant role as well. For this reason, we investigated the effect of the selective serotonin reuptake inhibitor citalopram on cytokine-producing cells in the thymus of C57BL/6 mice, focusing on the (predominantly) T-cell-produced cytokines IL-2, IL-4 and IL-17. Citalopram was able to strongly reduce the frequency of IL-4- and IL-2-producing cells triggered by CD3 stimulation, but exhibited a less pronounced effect on IL-17-producing cells. 5-HTT expression was found to be very low in thymocytes in comparison with splenocytes, and the effect of free extracellular serotonin on CD3-induced thymocyte cytokine production did not mimic the effect of citalopram. We conclude that citalopram has a potent suppressive effect on cytokine production in the thymus, and that this effect is unlikely to be mediated by elevation of extracellular serotonin levels via the 5-HTT.

Chromium-picolinate therapy in diabetes care: molecular and subcellular profiling revealed a necessity for individual outcome prediction, personalised treatment algorithms and new guidelines.

AIMS: Global figures clearly demonstrate inadequacy of current diabetes care: every 10 seconds one patient dies of diabetes-related pathologies. Nephropathy is the leading secondary complication of the disease. Nutritional supplement by chromium-picolinate is assumed to have beneficial therapeutic effects. However, potential toxic effects reported increase concerns about safety of chromium-picolinate. The experimental design aimed at determining, whether the treatment with clinically relevant doses of chromium-picolinate can harm through DNA damage and extensive alterations in central detoxification / cell-cycle regulating pathways in treatment of diabetes. METHODS: Well-acknowledged animal model of db/db-mice and clinically relevant doses of chromium-picolinate were used. As an index of DNA-damage, measurement of DNA-breaks was performed using "Comet Assay"-analysis. Individual and group-specific expression patterns of SOD-1 and P53 were evaluated to give a clue about central detoxification and cell-cycle regulating pathways under treatment conditions. The study was performed in a double-blind manner. RESULTS: Experimental data revealed highly individual reaction under treatment conditions. However, group-specific patterns were monitored: highest amount of damaged DNA--under the longest treatment with high doses, in contrast to groups with low doses of chromium-picolinate. Comet patterns were intermediate between untreated diabetised and control animals. Expression patterns demonstrated a correlation with subcellular imaging and dosage-dependent suppression under chromium-picolinate treatment. CONCLUSIONS: This article highlights possible risks for individual long-term effects, when chromium-picolinate is used freely as a therapeutic nutritional modality agent without application of advanced diagnostic tools to predict risks and individual outcomes. Targeted measures require a creation of new guidelines for advanced Diabetes care.