Macrophages are sentinels of the innate immune system, and the human monocytic cell line THP-1 is one of the widely used in vitro models to study inflammatory processes and immune responses. Several monocyte-to-macrophage differentiation protocols exist, with phorbol 12-myristate-13-acetate (PMA) being the most commonly used and accepted method. However, the concentrations and duration of PMA treatment vary widely in the published literature and could affect the probed phenotype, however their effect on protein expression is not fully deciphered. In this study, we employed a dimethyl labeling-based quantitative proteomics approach to determine the changes in the protein repertoire of macrophage-like cells differentiated from THP-1 monocytes by three commonly used PMA-based differentiation protocols. Employing an integrated network analysis, we show that variations in PMA concentration and duration of rest post-stimulation result in downstream differences in the protein expression and cellular signaling processes. We demonstrate that these differences result in altered inflammatory responses, including variation in the expression of cytokines upon stimulation with various Toll-like receptor (TLR) agonists. Together, these findings provide a valuable resource that significantly expands the knowledge of protein expression dynamics with one of the most common in vitro models for macrophages, which in turn has a profound impact on the immune as well as inflammatory responses being studied.
The correlation between an increased production of reactive oxygen species (ROS) and an enhanced calcium entry in primed neutrophils stimulated with fMLP suggests that endogenous ROS could serve as an agonist to reinforce calcium signaling by positive feedback. This work shows that exogenous H2O2 produced a rapid influx of Mn2+ and an increase of intracellular calcium. The H2O2 was insufficient to produce significant changes in the absence of extracellular calcium but addition of Ca2+ to H2O2-treated cells suspended in a free Ca2+/EGTA buffer resulted in a great increase in [Ca2+]i reflecting influx of Ca2+ across the cell membrane. The increase of intracellular calcium was inhibited by Ni2+, La3+, and hyperosmotic solutions of mannitol and other osmolytes. This raises the possibility that the secretion of H2O2 by activated neutrophils could act as an autocrine regulator of neutrophil function through the activation of calcium entry.
Glycogen synthase kinase 3 (GSK-3) is associated with several cellular systems, including immune response. Lithium, a widely used pharmacological treatment for bipolar disorder, is a GSK-3 inhibitor. GSK-3α is the predominant isoform in human neutrophils. In this study, we examined the effect of GSK-3 inhibition on the production of TNF-α by neutrophils. In the murine air pouch model of inflammation, lithium chloride (LiCl) amplified TNF-α release. In lipopolysaccharide-stimulated human neutrophils, GSK-3 inhibitors mimicked the effect of LiCl, each potentiating TNF-α release after 4 h, in a concentration-dependent fashion, by up to a 3-fold increase (ED50 of 1 mM for lithium). LiCl had no significant effect on cell viability. A positive association was revealed between GSK-3 inhibition and prolonged activation of the p38/MNK1/eIF4E pathway of mRNA translation. Using lysine and arginine labeled with stable heavy isotopes followed by quantitative mass spectrometry, we determined that GSK-3 inhibition markedly increases (by more than 3-fold) de novo TNF-α protein synthesis. Our findings shed light on a novel mechanism of control of TNF-α expression in neutrophils with GSK-3 regulating mRNA translation and raise the possibility that lithium could be having a hitherto unforeseen effect on inflammatory diseases.
The murine dorsal air pouch model is a valuable tool for studying acute peripheral inflammatory reactions. We used this model to study the effect of diet on the onset of acute inflammation. Mice were fed a normal or a high-fat diet (HFD) for 5 weeks. Air pouches were raised and injected with non-stimulating (saline) or stimulating solution (saline containing lipopolysaccharides). After 4 h, leukocytes in the pouch fluid were enumerated, sorted and their viability measured. Cytokine/chemokine levels in the cell-free fluid were measured using a cytometric bead assay. Gene expression level was measured in leukocytes and in lining tissues using comparative real-time PCR. Leukocyte migration and cytokine/chemokine secretion were decreased substantially in mice fed the HFD. In contrast, leptin levels were elevated. Gene expression profiles in leukocytes recovered from the pouch and in the pouch-lining tissue (believed to have an important role in the initiation of granulocyte recruitment) were depressed. Genes encoding CC and CXC family chemokines were among the most negatively affected. These results suggest that a HFD can alter peripheral tissue activation as well as leukocyte recruitment and response, thereby affecting the development of an effective local immune response, which could have deleterious consequences.
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