G Konwalinka scite author profile

SummaryCD34 § cells in human cord blood and marrow are known to give rise to dendritic cells (DC), as well as to other myeloid lineages. CD34 § cells are rare in adult blood, however, making it difficult to use CD34 + ceils to ascertain if DC progenitors are present in the circulation and if blood can be a starting point to obtain large numbers of these immunostimulatory antigenpresenting cells for clinical studies. A systematic search for DC progenitors was therefore carried out in several contexts. In each case, we looked initially for the distinctive proliferating aggregates that were described previously in mice. In cord blood, it was only necessary to deplete erythroid progenitors, and add granulocyte/macrophage colony-stimulating factor (GM-CSF) together with tumor necrosis factor (TNF), to observe many aggregates and the production of typical DC progeny. In adult blood from patients receiving CSFs after chemotherapy for malignancy, GM-CSF and TNF likewise generated characteristic DCs from HLA-DR negative precursors. However, in adult blood from healthy donors, the above approaches only generated small DC aggregates which then seemed to become monocytes. When interleukin 4 was used to suppress monocyte development (Jansen, J. H., G.-J. H. M. Wientjens, W. E. Fibbe, K. Willemze, and H. C. Kluin-Nelemans. 1989. J. Exp. Med. 170:577.), the addition of GM-CSF led to the formation of large proliferating DC aggregates and within 5-7 d, many nonproliferating progeny, about 3-8 million cells per 40 ml of blood. The progeny had a characteristic morphology and surface composition (e.g., abundant HLA-DK and accessory molecules for cell-mediated immunity) and were potent stimulators of quiescent T cells. Therefore, large numbers of DCs can be mobilized by specific cytokines from progenitors in the blood stream. These relatively large numbers of DC progeny should facilitate future studies of their FceRI and CD4 receptors, and their use in stimulating T cell-mediated resistance to viruses and tumors.

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The immunomodulator FTY720 interferes with effector functions of human monocyte‐derived dendritic cells

Müller

et al. 2005

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The potent immunomodulator FTY720 elicits immunosuppression via acting on sphingosine 1-phosphate receptors (S1PR), thereby leading to an entrapment of lymphocytes in the secondary lymphoid tissue. To elucidate the potential in vitro effects of this drug on human monocyte-derived DC, we used low nanomolar therapeutic concentrations of FTY720 and phosphorylated FTY720 (FTY720-P) and investigated their influence on DC surface marker expression, protein levels of S1PR and DC effector functions: antigen uptake, chemotaxis, cytokine production, allostimulatory and Thpriming capacity. We report that both FTY720 and FTY720-P reduce chemotaxis of immature and mature DC. Mature DC generated in the presence of FTY720 or FTY720-P showed an impaired immunostimmulatory capacity and reduced IL-12 but increased IL-10 production. T cells cultured in the presence of FTY720-or FTY720-P-treated DC showed an altered cytokine production profile indicating a shift from Th1 toward Th2 differentiation. In treated immature and mature DC, expression levels for two S1PR proteins, S1P 1 and S1P 4, were reduced. We conclude that in vitro treatment with FTY720 affects DC features that are essential for serving their role as antigen-presenting cells. This might represent a new aspect of the overall immunosuppressive action of FTY720 and makes DC potential targets of further sphingolipid-derived drugs.

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Changes of mitochondrial respiration, mitochondrial content and cell size after induction of apoptosis in leukemia cells

Renner

Amberger

Konwalinka

et al. 2003

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

111

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Mitochondrial damage with release of cytochrome c is implicated in cell death signalling pathways. To examine mitochondrial function in apoptotic cells, we applied high-resolution respirometry to human leukemia cells arrested in the G1- and S-phase by exposure to the glucocorticoid dexamethasone and nucleotide analogue gemcitabine. At 30% apoptosis, opposite effects were observed on respiratory capacity (71% and 131% of controls, respectively). These changes correlated with alterations in cell size, cytosolic, and mitochondrial marker enzymes. Mitochondrial ATP production and membrane potential were maintained in all treatments, as deduced from high respiratory uncoupling control ratios (UCR). Bcl-2 over-expression did not prevent apoptosis after gemcitabine-treatment, but protected dexamethasone-treated cells from apoptosis, without fully preventing the decline of respiration and cell size. These results, therefore, provide conclusive evidence that alterations in respiratory capacity and enzyme activities per cell are mainly caused by opposite changes in cell size, occurring upon cell cycle arrest triggered by dexamethasone and gemcitabine in the early phase of apoptosis.

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Urinary incontinence in the elderly and age-dependent apoptosis of rhabdosphincter cells

et al. 1999

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Age Dependent Apoptosis and Loss of Rhabdosphincter Cells

et al. 2000

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G Konwalinka

Proliferating dendritic cell progenitors in human blood.

The immunomodulator FTY720 interferes with effector functions of human monocyte‐derived dendritic cells

Changes of mitochondrial respiration, mitochondrial content and cell size after induction of apoptosis in leukemia cells

Urinary incontinence in the elderly and age-dependent apoptosis of rhabdosphincter cells

Age Dependent Apoptosis and Loss of Rhabdosphincter Cells

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