Neutrophils participate in the maintenance of host integrity by releasing various cytotoxic proteins during degranulation. Due to recent advances, a major role has been attributed to neutrophil-derived cytokine secretion in the initiation, exacerbation, and resolution of inflammatory responses. Because the release of neutrophil-derived products orchestrates the action of other immune cells at the infection site and, thus, can contribute to the development of chronic inflammatory diseases, we aimed to investigate in more detail the spatiotemporal regulation of neutrophil-mediated release mechanisms of proinflammatory mediators. Purified human neutrophils were stimulated for different time points with lipopolysaccharide. Cells and supernatants were analyzed by flow cytometry techniques and used to establish secretion profiles of granules and cytokines. To analyze the link between cytokine release and degranulation time series, we propose an original strategy based on linear fitting, which may be used as a guideline, to (i) define the relationship of granule proteins and cytokines secreted to the inflammatory site and (ii) investigate the spatial regulation of neutrophil cytokine release. The model approach presented here aims to predict the correlation between neutrophil-derived cytokine secretion and degranulation and may easily be extrapolated to investigate the relationship between other types of time series of functional processes.
Recently, we found upregulation of fibroblast growth factor receptor 4 (FGFR4) in a subset of hepatocellular carcinoma (HCC). Here, we provide mechanistic insight into the role of FGFR4-mediated signalling for the aggressive behaviour of HCC cells. To overexpress FGFR4, hepatoma/hepatocarcinoma cells were transfected with a construct coding for FGFR4. For downmodulation of endogenous FGFR4, we used small interfering RNA or adenoviral infection with dominant-negative FGFR4 constructs being either kinase dead (kdFGFR4) or coding for the autoinhibitory soluble domain (solFGFR4). FGFR4 overexpression in non-tumourigenic hepatocarcinoma cells significantly reduced cell-matrix adhesion, enabled cells to grow anchorage-independently in soft agar, to disintegrate the lymph-/blood-endothelial barrier for intra-/extravasation of tumour cells and to form tumours in SCID mice. Transcriptome analysis revealed altered expression of genes involved in cell-matrix interactions. Conversely, in highly tumourigenic cell lines, kdFGFR4 or solFGFR4 lowered the proportion of cells in S phase of the cell cycle, enhanced the G0/G1 and G2/M-phase proportions, reduced anchorage-independent growth in vitro and attenuated disintegration of the lymph-/blood-endothelium and tumour formation in vivo. These findings were confirmed by altered expression profiles of genes being important for late stages of cell division. Deregulated FGFR4 expression appears to be one of the key drivers of the malignant phenotype of HCC cells. Accordingly, blockade of FGFR4-mediated signalling by soluble dominant-negative constructs, like solFGFR4, may be a feasible and promising therapeutic approach to antagonize aggressive behaviour of hepatoma/hepatocarcinoma cells.
Besides their roles in the killing of pathogens, neutrophils have the capacity to package a variety of cytokines into cytoplasmic granules for subsequent release upon inflammatory conditions. Because the rapid secretion of cytokines orchestrates the action of other immune cells at the infection site and thus, can contribute to the development and chronicity of inflammatory diseases, we aimed to determine the intracellular SNARE machinery responsible for the regulation of cytokine secretion and degranulation. From a constructed gene-expression network, we first selected relevant cytokines for functional validation by the CBA approach. We established a cytokine-secretion profile for human neutrophils and dHL-60 cells, underlining their similar ability to secrete a broad variety of cytokines within proinflammatory conditions mimicked by LPS stimulation. Secondly, after screening of SNARE genes by microarray experiments, we selected STX3 for further functional studies. With the use of a siRNA strategy, we show that STX3 is clearly required for the maximal release of IL-1α, IL-1β, IL-12b, and CCL4 without alteration of other cytokine secretion in dHL-60 cells. In addition, we demonstrate that STX3 is involved in MMP-9 exocytosis from gelatinase granules, where STX3 is partly localized. Our results suggest that the secretion of IL-1α, IL-1β, IL-12b, and CCL4 occurs during gelatinase degranulation, a process controlled by STX3. In summary, these findings provide first evidence that STX3 has an essential role in trafficking pathways of cytokines in neutrophil granulocytes.
Erst kürzlich, im Oktober des vergangenen Jahres, haben Forscher Mikroplastik in menschlichen Stuhlproben nachgewiesen. Obwohl zu diesem Zeitpunkt noch nicht viele Erkenntnisse zum Thema Mikroplastik im Menschen vorlagen, hat diese Schlagzeile weithin schockiert. Denn die Belastung von Mikroplastik ist heute in unserer Umwelt überall vorzufinden: in unserer Atemluft, in unserem landwirtschaftlichen Boden und in unserem Grundwasser.
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