Evelin Grage-Griebenow scite author profile

Based on CD14 and CD16 expression, human peripheral blood monocytes (MO) can be divided into a major CD14high CD16− population and two minor CD14high CD16+ and CD14dim CD16+ subpopulations. CD14dim CD16+ MO are well characterized and regarded as pro‐inflammatory because upon stimulation produce TNF‐α but little, if any, IL‐10. By contrast, little is known about CD14high CD16+ MO. We investigated the surface expression of selected determinants by CD16+ MO subpopulations, cytokine production, phagocytosis and antigen presentation. We found that both CD16+ subpopulations had a higher expression of HLA‐DR, CD86, CD54 and a lower expression of CD64 than CD14high CD16− population. In addition, CD14high CD16+ MO showed a higher expression of CD11b and TLR4 than CD14dim CD16+ and CD14high CD16− subpopulations. CD14high CD16+ MO exhibited an increased phagocytic activity and a decreased antigen presentation in comparison with CD14dim CD16+. As expected, lipopolysaccharide (LPS)‐stimulated CD14dim CD16+ MO produced TNF‐α but little IL‐10. By contrast, LPS‐stimulated CD14high CD16+ subpopulation produced significantly more IL‐10 than CD14dim CD16+ and CD14high CD16− MO. In conclusion, our data show that human peripheral blood CD16+ MO are heterogeneous in function and consist of two subpopulations: CD14dim CD16+ pro‐inflammatory and CD14high CD16+ with anti‐inflammatory potential.

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Tumor‐associated macrophages exhibit pro‐ and anti‐inflammatory properties by which they impact on pancreatic tumorigenesis

Helm¹,

Held‐Feindt

Grage-Griebenow³

et al. 2014

Intl Journal of Cancer

239

201

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Pancreatic ductal adenocarcinoma (PDAC) still ranking 4th in the order of fatal tumor diseases is characterized by a profound tumor stroma with high numbers of tumor-associated macrophages (TAMs). Driven by environmental factors, monocytes differentiate into M1-or M2-macrophages, the latter commonly regarded as being protumorigenic. Because a detailed analysis of TAMs in human PDAC development is still lacking, freshly isolated PDAC-derived TAMs were analyzed for their phenotype and impact on epithelial-mesenchymal-transition (EMT) of benign (H6c7) and malignant (Colo357) pancreatic ductal epithelial cells. TAMs exhibited characteristics of M1-macrophages (expression of HLA-DR, IL-1b, or TNF-a) and M2-macrophages (expression of CD163 and IL-10). In the presence of TAMs, H6c7, and Colo357 cells showed an elongated cell shape along with an increased expression of mesenchymal markers such as vimentin and reduced expression of epithelial E-cadherin. Similar to TAMs, in vitro generated M1-and M2-macrophages both mediated EMT in H6c7 and Colo357 cells. M1-macrophages acquired M2-characteristics during coculture that could be prevented by GM-CSF treatment. However, M1-macrophages still potently induced EMT in H6c7 and Colo357 cells although lacking M2-characteristics. Overall, these data demonstrate that TAMs exhibit anti-as well as proinflammatory properties that equally contribute to EMT induction in PDAC initiation and development.Pancreatic ductal adenocarcinoma (PDAC) is a highly malignant tumor, still with a dismal prognosis. In Western countries, PDAC ranks 4th in the order of death related tumor diseases with a still increasing prevalence.1 Commonly, PDAC is detected in an advanced stage when the tumor has already metastasized so that therapeutic options are very limited, in line with low overall 5-year survival rates of <5%. 2One hallmark of PDAC which is supposed to originate from the ductal epithelium is the pronounced tumor stroma. This marked stromal enrichment is already present in

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The CXC-chemokine platelet factor 4 promotes monocyte survival and induces monocyte differentiation into macrophages

et al. 2000

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Unstimulated monocytes rapidly undergo physiological changes resulting in programmed cell death (apoptosis) while stimuli promoting differentiation of these cells into macrophages were shown to inhibit apoptotic processes. In the present study, we report that the platelet-derived -chemokine platelet factor 4 (PF4) induces the differentiation of monocytes into macrophages, as is evident from morphological changes as well as from the up-regulation of differentiation markers (carboxypeptidase M/MAX1 and CD71). Significant alterations of the phenotype were observed after 72 hours of culture in the presence of the chemokine and required a minimal concentration of 625 nmol/L PF4. PF4-induced macrophages were characterized by a lack of HLA-DR antigen on their surface but showed a strong increase in the expression of the CD28 ligand B7-2. Furthermore, PF4 stimulation prevented monocytes from undergoing spontaneous apoptosis during 72 hours of culture as determined in an annexin-V–binding assay. Although PF4 induced the secretion of relevant amounts of TNF-, neutralizing antibodies directed against TNF- or granulocyte-macrophage colony–stimulating factor (GM-CSF) did not revert PF4-induced rescue from programmed cell death, suggesting that PF4 exerts its antiapoptotic effects in a TNF-– or GM-CSF–independent fashion. On the basis of these results, we propose a novel role for PF4 in the control of monocyte differentiation during an inflammatory process in vivo.

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Phenotypical and functional characterization of Fey receptor I (CD64)‐negative monocytes, a minor human monocyte subpopulation with high accessory and antiviral activity

et al. 1993

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Fc gamma receptor I-positive (CD64+) and Fc gamma receptor I-negative (CD64-) monocytes were prepared from highly purified (elutriation-derived) human monocytes by cytofluorograph cell sorting, and a phenotypical and functional dissociation of the isolated CD64+ and CD64- monocyte subsets is demonstrated. Surface analyses revealed that the surface antigen pattern of CD64+ monocytes corresponds to the phenotype of typical unseparated monocytes. In contrast, CD64- monocytes are characterized by high expression of major histocompatibility complex (MHC) class I antigens (HLA-A, -B, -C) and MHC class II antigens (HLA-DR, -DP, -DQ), and low expression of the monocyte-specific marker CD14 which is found on nearly all CD64+ monocytes. However, 75% of the CD64- cells were found to be esterase-positive, and 85% were positive for the the CD64- cells were found to be esterase-positive, and 85% were positive for the monocyte/macrophage-specific intracellular antigen CD68. Furthermore, CD64- monocytes show significantly higher expression of CD45RA and Fc gamma receptor III (CD16) than CD64+ monocytes, but lack the natural killer cell markers CD56 and CD57. Functional studies showed that cells of the minor CD64- monocyte subset have a higher accessory cell capacity in antigen-driven T cell activation than CD64+ monocytes. CD64- monocytes pretreated with PPD (purified protein derivative of tuberculin) induced up to tentimes more interferon-gamma and also higher proliferation in responding autologous T cells than PPD-pretreated CD64+ monocytes. Similar results were obtained for T cells in mixed leukocyte reaction. Interferon-gamma release and proliferation of allogeneic lymphocytes were consistently higher in the presence of irradiated CD64- monocytes than of irradiated CD64+ monocytes. Furthermore, when CD64- and CD64+ monocytes were stimulated with Newcastle disease virus, we measured an up to 67-fold higher interferon-alpha release from CD64- than from CD64+ monocytes, indicating a higher anti-viral capacity of this subset. CD64- monocytes showed lower activity in the phagocytosis of unopsonized particles and also lower zymosan- or latex-induced chemiluminescence than CD64+ monocytes. These findings indicate that CD64- monocytes, although comprising only less than 10% of all peripheral blood monocytes, represent a monocyte subpopulation efficiently interacting in vitro with T cells and, additionally, are the major source of interferon-alpha.

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