Arising in inflammatory conditions, myeloid-derived suppressor cells (MDSCs) are constantly confronted with intracellular and extracellular reactive oxygen species molecules and oxidative stress. Generating mice with a constitutive activation of Nuclear factor (erythroid-derived 2)-like 2 (Nrf2) we show a pivotal role of the antioxidant stress defense for development of these immune-modulatory cells. These mice are characterized by a massive increase of splenic CD11b+Gr-1+ cells, which exhibit typical suppressive characteristics of MDSCs. Whole transcriptome analysis revealed Nrf2-dependent activation of cell cycle and metabolic pathways, which resemble pathways in CD11b+Gr-1+ MDSCs expanded by in vivo LPS exposure. Constitutive Nrf2 activation thereby regulates activation and balance between glycolysis and mitochondrial metabolism and hence expansion of highly suppressive MDSCs, which mediate protection in LPS-induced sepsis. Our study establishes Nrf2 as key regulator of MDSCs and acquired tolerance against LPS-induced sepsis.
Background Allergic diseases and especially allergic asthma are widespread diseases with high prevalence in childhood, but also in adults. Acid sphingomyelinase (ASM) is a key regulator of the sphingolipid pathway. Previous studies defined the association of ASM with the pathogenesis of TH1‐directed lung diseases like cystic fibrosis and acute lung injury. Here, we define the role of ASM in TH2‐regulated allergic bronchial asthma. Methods To determine the role of Asm under baseline conditions, wild‐type (WT) and Asm−/− mice were ventilated with a flexiVent setup and bronchial hyperresponsiveness was determined using acetylcholine. Flow cytometry and cytokine measurements in bronchoalveolar lavage fluid and lung tissue were followed by in vitro TH2 differentiations with cells from WT and Asm−/− mice and blockade of Asm with amitriptyline. As proof of principle, we conducted an ovalbumin‐induced model of asthma in WT‐ and Asm−/− mice. Results At baseline, Asm−/− mice showed better lung mechanics, but unaltered bronchial hyperresponsiveness. Higher numbers of Asm−/− T cells in bronchoalveolar lavage fluid released lower levels of IL‐4 and IL‐5, and these results were paralleled by decreased production of typical TH2 cytokines in Asm−/− T lymphocytes in vitro. This phenotype could be imitated by incubation of T cells with amitriptyline. In the ovalbumin asthma model, Asm−/− animals were protected from high disease activity and showed better lung functions and lower levels of eosinophils and TH2 cytokines. Conclusion Asm deficiency could induce higher numbers of TH2 cells in the lung, but those cells release decreased TH2 cytokine levels. Hereby, Asm−/− animals are protected from bronchial asthma, which possibly offers novel therapeutic strategies, for example, with ASM blockade.
In the isolation of polymorphonuclear neutrophils (PMNs) the technique and other external factors can have great influence on the quality and quantity of isolated neutrophils. To elucidate the influence of the blood collection technique, anticoagulants and storing temperature on isolated PMNs healthy volunteers provided blood samples with different needles and collection techniques, anticoagulants (EDTA, heparin, citrate) and storing temperatures (4, 22, 37 °C). From each blood sample PMNs were isolated and compared regarding number of PMNs and oxidative burst. The blood collection technique, anticoagulants and storing temperature had minor impact on isolated PMNs. All three tested cannulas and anticoagulants can be used to obtain blood samples for PMN isolation. For storing temperatures 37 °C should be preferred. Regarding time between the PMN isolation and the actual experiments, a time span of maximum 1 h should be targeted.
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