Dendritic cells use macropinocytosis and the mannose receptor to concentrate macromolecules in the major histocompatibility complex class II compartment: downregulation by cytokines and bacterial products

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Dendritic cells use macropinocytosis and the mannose receptor to concentrate macromolecules in the major histocompatibility complex class II compartment: downregulation by cytokines and bacterial products

F Sallusto, M Cella, C Danieli and A Lanzavecchia
Basel Institute for Immunology, Switzerland.

We have previously demonstrated that human peripheral blood low density mononuclear cells cultured in granulocyte/macrophage colony-stimulating factor (GM-CSF) and interleukin (IL)-4 develop into dendritic cells (DCs) that are extremely efficient in presenting soluble antigens to T cells. To identify the mechanisms responsible for efficient antigen capture, we studied the endocytic capacity of DCs using fluorescein isothiocyanate-dextran, horseradish peroxidase, and lucifer yellow. We found that DCs use two distinct mechanisms for antigen capture. The first is a high level of fluid phase uptake via macropinocytosis. In contrast to what has been found with other cell types, macropinocytosis in DCs is constitutive and allows continuous internalization of large volumes of fluid. The second mechanism of capture is mediated via the mannose receptor (MR), which is expressed at high levels on DCs. At low ligand concentrations, the MR can deliver a large number of ligands to the cell in successive rounds. Thus, while macropinocytosis endows DCs with a high capacity, nonsaturable mechanism for capture of any soluble antigen, the MR gives an extra capacity for antigen capture with some degree of selectivity for non-self molecules. In addition to their high endocytic capacity, DCs from GM-CSF + IL-4-dependent cultures are characterized by the presence of a large intracellular compartment that contains high levels of class II molecules, cathepsin D, and lysosomal- associated membrane protein-1, and is rapidly accessible to endocytic markers. We investigated whether the capacity of DCs to capture and process antigen could be modulated by exogenous stimuli. We found that DCs respond to tumor necrosis factor alpha, CD40 ligand, IL-1, and lipopolysaccharide with a coordinate series of changes that include downregulation of macropinocytosis and Fc receptors, disappearance of the class II compartment, and upregulation of adhesion and costimulatory molecules. These changes occur within 1-2 d and are irreversible, since neither pinocytosis nor the class II compartment are recovered when the maturation-inducing stimulus is removed. The specificity of the MR and the capacity to respond to inflammatory stimuli maximize the capacity of DCs to present infectious non-self antigens to T cells.
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Batista, D. G.J., Silva, C. F., Mota, R. A., Costa, L. C., Meirelles, M. N.L., Meuser-Batista, M., Soeiro, M. N.C. (2006). Trypanosoma cruzi Modulates the Expression of Rabs and Alters the Endocytosis in Mouse Cardiomyocytes In Vitro. J. Histochem. Cytochem. 54: 605-614 [Abstract] [Full Text]
Canetti, C., Aronoff, D. M., Choe, M., Flamand, N., Wettlaufer, S., Toews, G. B., Chen, G.-H., Peters-Golden, M. (2006). Differential regulation by leukotrienes and calcium of Fc{gamma} receptor-induced phagocytosis and Syk activation in dendritic cells versus macrophages. J. Leukoc. Biol. 79: 1234-1241 [Abstract] [Full Text]
Kato, M., McDonald, K. J, Khan, S., Ross, I. L, Vuckovic, S., Chen, K., Munster, D., MacDonald, K. P., Hart, D. N. (2006). Expression of human DEC-205 (CD205) multilectin receptor on leukocytes. Int Immunol 18: 857-869 [Abstract] [Full Text]
Burgdorf, S., Lukacs-Kornek, V., Kurts, C. (2006). The Mannose Receptor Mediates Uptake of Soluble but Not of Cell-Associated Antigen for Cross-Presentation.. J. Immunol. 176: 6770-6776 [Abstract] [Full Text]
Holl, V., Peressin, M., Schmidt, S., Decoville, T., Zolla-Pazner, S., Aubertin, A.-M., Moog, C. (2006). Efficient inhibition of HIV-1 replication in human immature monocyte-derived dendritic cells by purified anti-HIV-1 IgG without induction of maturation. Blood 107: 4466-4474 [Abstract] [Full Text]
Csernok, E., Ai, M., Gross, W. L., Wicklein, D., Petersen, A., Lindner, B., Lamprecht, P., Holle, J. U., Hellmich, B. (2006). Wegener autoantigen induces maturation of dendritic cells and licenses them for Th1 priming via the protease-activated receptor-2 pathway. Blood 107: 4440-4448 [Abstract] [Full Text]
Hu, L., Bray, M. D., Osorio, M., Kopecko, D. J. (2006). Campylobacter jejuni Induces Maturation and Cytokine Production in Human Dendritic Cells.. Infect. Immun. 74: 2697-2705 [Abstract] [Full Text]
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Albrecht, I., Gatfield, J., Mini, T., Jeno, P., Pieters, J. (2006). Essential role for cholesterol in the delivery of exogenous antigens to the MHC class I-presentation pathway. Int Immunol 18: 755-765 [Abstract] [Full Text]
Schuurhuis, D. H., van Montfoort, N., Ioan-Facsinay, A., Jiawan, R., Camps, M., Nouta, J., Melief, C. J. M., Verbeek, J. S., Ossendorp, F. (2006). Immune complex-loaded dendritic cells are superior to soluble immune complexes as antitumor vaccine.. J. Immunol. 176: 4573-4580 [Abstract] [Full Text]