Carol A. Bickel scite author profile

Filarial nematode parasites establish long-term chronic infections in the context of an antiparasite immunity that is strongly biased toward a Th2 response. The mechanisms that lead to this Th2 bias toward filarial antigens are not clear, but one possibility is that the parasites produce molecules that have the capacity to proactively modify their immunological environment. Here we report that filarial parasites of humans secrete a homologue of the human proinflammatory cytokine macrophage migration inhibitory factor (MIF) that has the capability of modifying the activity of human monocytes/macrophages. A cDNA clone isolated from a Brugia malayi infective-stage larva expression library encoded a 12.5-kDa protein product (Bm-MIF) with 42% identity to human and murine MIF. MIF homologues were also found to be expressed in the related filarial species Wuchereria bancrofti and Onchocerca volvulus. Bm-mif was transcribed by adult and larval parasites, and the protein product was found in somatic extracts and in the parasite’s excretory-secretory products. Immunohistocytochemistry revealed that Bm-MIF was localized to cells of the hypodermis/lateral chord, the uterine wall, and larvae developing in utero. Unexpectedly, the activities of recombinant Bm-MIF and human MIF on human monocytes/macrophages were found to be similar. When placed with monocytes/macrophages in a cell migration assay,Bm-MIF inhibited random migration. When placed away from cells, Bm-MIF induced an increase in monocyte/macrophage migration that was specifically inhibited by neutralizing anti-Bm-MIF antibodies. Bm-MIF is the first demonstration that helminth parasites produce cytokine homologues that have the potential to modify host immune responses to promote parasite survival.

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Glucocorticosteroid inhibition of cytokine production: Relevance to antiallergic actions

Schwiebert¹,

Beck²,

Stellato³

et al. 1996

Journal of Allergy and Clinical Immunology

151

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Production of the novel C-C chemokine MCP-4 by airway cells and comparison of its biological activity to other C-C chemokines.

Stellato¹,

et al. 1997

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Monocyte chemotactic protein-4 (MCP-4) is a newly identified C-C chemokine with potent eosinophil chemoattractant properties. We describe studies of its biological activity in vitro to induce chemotaxis of peripheral blood eosinophils and to induce histamine release from IL-3-primed peripheral blood basophils. MCP-4 and eotaxin caused a similar rise in eosinophil intracytoplasmic Ca 2 ϩ and complete cross-desensitization. MCP-4 also abolished the eosinophil Ca 2 ϩ response to MCP-3 and partially desensitized the response to macrophage inflammatory protein-1 ␣ . MCP-4 activated cell migration via either CCR2b or CCR3 in mouse lymphoma cells transfected with these chemokine receptors. MCP-4 inhibited binding of 125 I-eotaxin to eosinophils and CCR3-transfected cells and inhibited

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Carol A. Bickel

Inhibition of FcεRI-dependent mediator release and calcium flux from human mast cells by sialic acid–binding immunoglobulin-like lectin 8 engagement

Filarial Nematode Parasites Secrete a Homologue of the Human Cytokine Macrophage Migration Inhibitory Factor

Glucocorticosteroid inhibition of cytokine production: Relevance to antiallergic actions

Production of the novel C-C chemokine MCP-4 by airway cells and comparison of its biological activity to other C-C chemokines.

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