Listeria monocytogenes adhered to and multiplied intracellularly in murine peritoneal macrophages in the absence of opsonins. The infective process in these cells was evaluated by viable bacterial cell colony counts of intracellular organisms and documented by transmission and scanning electron microscopy. Adherence of listeriae to macrophages involved surface interactions of the prokaryotic cell surface and eukaryotic cell membranes. Subsequent phagocytosis was seen to occur through a process in which host cell-derived pseudopodia surrounded and engulfed organisms leaving them within phagosomes in the cytoplasm of infected cells. This process of uptake of L. monocytogenes by macrophages occurred at 4°C. Following invasion of the cell, escape of L. monocytogenes from the phagosome into the cytoplasm was initiated as early as 10 min into the infective process. Intracellular multiplication of bacteria continued for 8 h after inoculation at which point loss of adherent macrophages due to cell lysis was evident. The mean generation time of the organism in these cells was 58 min. The cellular and ultrastructural events of L. monocytogenes adherence to and phagocytosis by murine macrophages in the absence of antibody or complement have been defined.
The adhesion of listeriae to host cells employs mechanisms which are complex and not well understood. Listeria monocytogenesis a facultative intracellular pathogen responsible for meningoencephalitis, septicemia, and abortion in susceptible and immunocompromised individuals. Subsequent to colonization and penetration of the gut epithelium, the organism attaches to resident macrophages and replicates intracellularly, thus evading the humoral immune system of the infected host. The focus of these studies was to investigate the attachment of the organism to murine peritoneal macrophages in an opsonin-dependent and opsonin-independent fashion. Assessment of competitive binding experiments by immunofluorescence and enzyme-linked immunosorbent assays showed that adhesion of the organism to macrophages in the presence or absence of opsonins was inhibited (90%) by N-acetylneuraminic acid (NAcNeu). In addition, the lectin from Maackia amurensis, with affinity for NAcNeu-α(2,3)galactose, blocked binding of L. monocytogenes to host cells. Oxidation of the surface carbohydrates on the organism by using sodium metaperiodate resulted in a dose-dependent reduction (up to 98%) in adherence to macrophages. Monoclonal antibody to complement receptor 3 did not prevent listeriae from binding to mouse macrophages or from replicating within the infected cells whether or not normal mouse serum was present. Based on our results, we propose the involvement of NAcNeu, a member of the sialic acid group, in the attachment of L. monocytogenes to permissive murine macrophages.
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