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      Dectin-1 Is A Major β-Glucan Receptor On Macrophages

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          Abstract

          Zymosan is a β-glucan– and mannan-rich particle that is widely used as a cellular activator for examining the numerous responses effected by phagocytes. The macrophage mannose receptor (MR) and complement receptor 3 (CR3) have historically been considered the major macrophage lectins involved in the nonopsonic recognition of these yeast-derived particles. Using specific carbohydrate inhibitors, we show that a β-glucan receptor, but not the MR, is a predominant receptor involved in this process. Furthermore, nonopsonic zymosan binding was unaffected by genetic CD11b deficiency or a blocking monoclonal antibody (mAb) against CR3, demonstrating that CR3 was not the β-glucan receptor mediating this activity. To address the role of the recently described β-glucan receptor, Dectin-1, we generated a novel anti–Dectin-1 mAb, 2A11. Using this mAb, we show here that Dectin-1 was almost exclusively responsible for the β-glucan–dependent, nonopsonic recognition of zymosan by primary macro-phages. These findings define Dectin-1 as the leukocyte β-glucan receptor, first described over 50 years ago, and resolves the long-standing controversy regarding the identity of this important molecule. Furthermore, these results identify Dectin-1 as a new target for examining the immunomodulatory properties of β-glucans for therapeutic drug design.

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          Most cited references49

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          Neurotransmitter synthesis and uptake by isolated sympathetic neurones in microcultures.

          Assays of isolated single sympathetic neurones show that their transmitter functions can be either adrenergic or cholinergic depending on growth conditions. The data suggest that the number of transmitters made by most mature individual neurones is restricted.
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            Isolation of a major cell surface glycoprotein from fibroblasts.

            A cell surface component has been isolated in partially purified form from cultured chick embryo and chick heart fibroblasts. This glycoprotein is similar to a protein recently reported to be present at the surface of normal cells, and missing after neoplastic transformation. It is a major cell surface glycoprotein that is synthesized by cultured fibroblasts, but is not collagen. It is shown to be markedly trypsin-sensitive, and its recovery from the cell surface is dependent on cell density. It is excluded from Sephadex G-200, but is not rapidly sedimented by ultracentrifugation, and has an apparent molecular weight of 220,000. The isolation of this cell surface glycoprotein may now provide a means of determining its function.
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              Induction of altered c-src product during neural differentiation of embryonal carcinoma cells.

              The expression of the cellular src gene product pp60c-src was examined in an embryonal carcinoma cell line that differentiates in vitro into neuronlike cells after being treated with retinoic acid. Quantitative and qualitative changes in c-src expression accompanied the events associated with neuronal differentiation. The levels of pp60c-src increased 8- to 20-fold during the period when the cells elaborated neuritic processes and expressed neuron-specific proteins. The electrophoretic mobility of pp60c-src induced in these cells was retarded in comparison with that in untreated cells or in treated cells before neurite elaboration. The shift in electrophoretic mobility was due to an alteration in the amino terminal 16,000 daltons of pp60c-src and similar to an alteration of c-src protein found in neural tissues and in pure primary cultures of neuronal cells. These results indicate that expression of pp60c-src induced by retinoic acid in these embryonal carcinoma cells mimics the expression of c-src in developing neurons. Therefore, this embryonal carcinoma cell line provides a model system to investigate the function of the src protein in neuronal differentiation.
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                Author and article information

                Journal
                J Exp Med
                The Journal of Experimental Medicine
                The Rockefeller University Press
                0022-1007
                1540-9538
                5 August 2002
                : 196
                : 3
                : 407-412
                Affiliations
                [1 ]Sir William Dunn School of Pathology, University of Oxford, Oxford OX1 3RE, United Kingdom
                [2 ]The Edward Jenner Institute for Vaccine Research, Compton, Berkshire RG20 7NN, United Kingdom
                [3 ]Department of Surgery, James H. Quillen College of Medicine, Johnson City, TN 37614
                Author notes

                Address correspondence to Dr. Gordon D. Brown, Sir William Dunn School of Pathology, University of Oxford, South Parks Rd., Oxford OX1 3RE, UK. Phone: 44-1865-27-5522; Fax: 44-1865-27-5515; E-mail: gbrown@ 123456molbiol.ox.ac.uk

                Article
                20020470
                10.1084/jem.20020470
                2193936
                12163569
                05bfc249-3e82-4abc-a0cf-fd3e67f388e8
                Copyright © 2002, The Rockefeller University Press
                History
                : 25 March 2002
                : 21 May 2002
                : 12 June 2002
                Categories
                Brief Definitive Report

                Medicine
                lectin,receptor,immunology,glucans,macrophage
                Medicine
                lectin, receptor, immunology, glucans, macrophage

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