Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023241 (Legionella)
 6,990 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of Legionella species to multiply within human mononuclear phagocytes is usually regarded as being associated with their pathogenicity. Activation of host cells results in inhibition of intracellular Legionella multiplication. The most effective substance to induce macrophage activation, both in vivo and in vitro, is interferon-gamma. In addition, some evidence exists that macrophage-derived cytokines may contribute to the host defense against L. pneumophila, but the production of pro- and antiinflammatory cytokines by monocytes after infection with different Legionella species has not been reported with regard to their ability to multiply within the host cells. We therefore examined the production of TNF-alpha, IL-1, IL-6, IL-8, IL-10 and TGF-beta by Mono Mac 6 cells after infection with Legionella species of different human prevalence that differ in their ability to replicate within this macrophage-like cell line. After infection, Mono Mac 6 cells showed a cytokine response with time kinetics characteristic for the cytokine. Maximum cytokine levels produced differed with Legionella species, but were not related to intracellular multiplication rates. Moreover, LPS-tolerant Mono Mac 6 cells, which failed to produce cytokines, showed intracellular increase or decrease of bacterial numbers identical to that of untreated Mono Mac 6 cells. By FACS analysis, an up-regulation of CD14 (LPS receptor) and CD54 (ICAM-1) could be demonstrated. We conclude that, in the Mono Mac 6 cell line, induction of macrophage-derived cytokines after infection with members of the genus Legionella mimics an inflammatory reaction without association with intracellular multiplication rate.
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PMID:Induction of cytokines and expression of surface receptors in Mono Mac 6 cells after infection with different Legionella species. 953 66

Legionella pneumophila, the causative agent of Legionnaires' disease, is able to survive and multiply efficiently in a variety of mammalian cells. By using in vitro assays, the uptake of L. pneumophila into monocytes has shown to be mediated, at least in part, through attachment of complement-coated bacteria to complement receptors, but complement-independent phagocytosis could also be demonstrated. Since complement levels in the human lung are normally low, the role of complement-dependent phagocytosis in the pathogenesis of Legionnaires' disease is doubtful. However, the contribution of other potential phagocytosis-related host cell surface molecules to the phagocytosis of L. pneumophila has never been investigated. We therefore analyzed the role of complement receptors 1 (CD35) and 3 (CD11b/18), the lipopolysaccharide (LPS) receptor (CD14), the beta(1)-integrin chain of the fibronectin receptor (CD29), the intercellular adhesion molecule 1 (ICAM-1, CD54) and the transferrin receptor (CD71) in the complement-independent uptake of L. pneumophila. To exclude any influence of culture conditions onto phagocytosis rates, we compared a fresh clinical isolate with an agar-adapted isolate of L. pneumophila. In addition, we used three different host cell types (MM6, HeLa and Jurkat cells) expressing different rates of complement receptors. We could show that both strains of L. pneumophila were phagocytized by the three host cell lines to the same extent, but intracellular multiplication was only found in MM6 and, although to a much lesser degree, in Jurkat cells. Preincubation of MM6 cells with monoclonal antibodies directed against the above cited phagocytosis-related receptors did not result in inhibition of L. pneumophila uptake. We therefore conclude that typical phagocytosis-related cell surface receptors are not involved in the complement-independent phagocytosis of L. pneumophila.
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PMID:Investigation of mechanisms involved in phagocytosis of Legionella pneumophila by human cells. 1262 Jun 17