CDC are exotoxins secreted by many Gram-positive bacteria that bind cholesterol and oligomerize to form pores in eukaryotic cell membranes. We demonstrate that CDC TLO induces caspase-1 cleavage and the rapid release of IL-1beta from LPS-primed murine BMDM. IL-1beta secretion depends on functional toxin pore formation, as free cholesterol, which prevents TLO binding to cell membranes, blocks the cytokine release. Secretion of the mature forms of IL-1beta and caspase-1 occurs only at lower TLO doses, whereas at a higher concentration, cells release the biologically inactive proforms. IL-1beta release at a low TLO dose requires potassium efflux, calcium influx, and the activities of calcium-independent PLA(2), caspase-1, and cathepsin B. Additionally, mature IL-1beta release induced by a low TLO dose is dependent on the NLRP3 inflammasome, and pro-IL-1beta release induced by a high TLO dose occurs independently of NLRP3. These results further elucidate a mechanism of CDC-induced IL-1beta release and suggest a novel, immune evasion strategy in which IL-1beta-containing macrophages might release primarily inactive cytokine following exposure to high doses of these toxins.
Antibodies acquired naturally through repeated exposure to Plasmodium falciparum are essential in the control of blood-stage malaria. Antibody-dependent functions may include neutralization of parasite–host interactions, complement activation, and activation of Fc receptor functions. A role of antibody-dependent cellular cytotoxicity (ADCC) by natural killer (NK) cells in protection from malaria has not been established. Here we show that IgG isolated from adults living in a malaria-endemic region activated ADCC by primary human NK cells, which lysed infected red blood cells (RBCs) and inhibited parasite growth in an in vitro assay for ADCC-dependent growth inhibition. RBC lysis by NK cells was highly selective for infected RBCs in a mixed culture with uninfected RBCs. Human antibodies to P. falciparum antigens PfEMP1 and RIFIN were sufficient to promote NK-dependent growth inhibition. As these results implicate acquired immunity through NK-mediated ADCC, antibody-based vaccines that target bloodstream parasites should consider this new mechanism of action.
Binding of natural killer (NK) cell inhibitory receptors to MHC-I confers increased responsiveness to NK cells by a process known as NK cell licensing/education. Reduced MHC-I expression or a lack of inhibitory receptors for MHC-I results in diminished NK cell responsiveness. In this study, we evaluated the effect of human and mouse NK cell licensing on early stages of natural cytotoxicity. Unlicensed NK cells did not form as many stable conjugates with target cells. The reduction of NK cell conjugation to target cells was not attributed to altered β2 integrin LFA-1 properties but was instead due to reduced inside-out signaling to LFA-1 by activating receptors. For those unlicensed NK cells that did form conjugates, LFA-1-dependent granule polarization was similar to that in licensed NK cells. Thus, licensing controls signals as proximal as inside-out signaling by activating receptors but not integrin outside-in signaling for granule polarization.
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