Fate of Listeria monocytogenes in resident and activated macrophages

The receptor for the complement C3a anaphylatoxin (C3aR) provides host protection against Listeria monocytogenes-induced apoptosis

Listeria monocytogenes is a Gram-positive intracellular bacterium that is acquired through tainted food and may lead to systemic infection and possible death. Despite the importance of the innate immune system in fighting L. monocytogenes infection, little is known about the role of complement and its activation products, including the potent C3a anaphylatoxin. In a model of systemic L. monocytogenes infection, we show that mice lacking the receptor for C3a (C3aR(-/-)) are significantly more sensitive to infection compared with wild-type mice, as demonstrated by decreased survival, increased bacterial burden, and increased damage to their livers and spleens. The inability of the C3aR(-/-) mice to clear the bacterial infection was not caused by defective macrophages or by a reduction in cytokines/chemokines known to be critical in the host response to L. monocytogenes, including IFN-γ and TNF-α. Instead, TUNEL staining, together with Fas, active caspase-3, and Bcl-2 expression data, indicates that the increased susceptibility of C3aR(-/-) mice to L. monocytogenes infection was largely caused by increased L. monocytogenes-induced apoptosis of myeloid and lymphoid cells in the spleen that are required for ultimate clearance of L. monocytogenes, including neutrophils, macrophages, dendritic cells, and T cells. These findings reveal an unexpected function of C3a/C3aR signaling during the host immune response that suppresses Fas expression and caspase-3 activity while increasing Bcl-2 expression, thereby providing protection to both myeloid and lymphoid cells against L. monocytogenes-induced apoptosis.

Contribution of Catalase and Superoxide Dismutase to the Intracellular Survival of Clinical Isolates of Staphylococcus aureus in Murine Macrophages

The present study was performed in order to carefully investigate the interaction of Staphylococcus aureus with murine macrophages and the contribution of catalase and superoxide dismutase in intracellular persistence of Staphylococcus aureus within murine macrophages during in vitro infection. We have reported that Staphylococcus aureus internalized by murine macrophages did not appear to be rapidly killed. Data indicating the contribution of a single catalase and superoxide dismutase in intracellular survival of Staphylococcus aureus were provided using established biochemical assays. The results of the present experiment suggest that the survival of Staphylococcus aureus within phagocytic cells is facilitated by its ability to resist oxidative products. Organisms in the log phase of growth clearly demonstrate a resistance to oxidative products.

Erythrocyte-replaced mouse model for Haemoparasite studies: comparison of NOD/shi-scid and C.B-17/Jcl-scid mouse upon acceptability of human erythrocytes

The erythrocyte-exchanged chimera mouse model has become to be a significant tool for studying animal and human (hu) protozoan haemoparasites, though the usefulness of this model varies depending primarily on the acceptability of xenogeneic red blood cells (RBC). To find a superior recipient in comparison with C.B-17/Jcl mouse with severe combined immuno-deficiency (scid) mutation, we examined in this report the non-obese diabetes (NOD)/shi-scid mouse, a recently available strain of SCID. When 2.5 x 10(8) of fluorescent dye-labeled hu-RBCs were transfused, C.B-17scid mouse eliminated them logarithmically by a simple linear regression, while NOD-scid mouse eradicated hu-RBCs by a unique two-step fashion, i.e., a potent but only briefly functioning RBC eradication followed by a weak steadily functioning step. The means of regression line constance +/- their standard deviations (SD) of 205 C.B-17scid and of 213 NOD-scid mice for their short- and long-lasting steps were -0.73 +/- 0.63, -0.53 +/- 0.25 and -0.16 +/- 0.10, respectively. Hu-RBC half-lives determined from these means of C.B-17scid mice and of NOD-scid mice for the short- and long-living steps were 3.6, 4.9 and 16.3 hr, respectively. Higher hu-RBC acceptability of NOD-scid mouse, especially at their long-lasting step, was also demonstrated under at an activated state of mouse innate immunity. Treatment with 1.0 mg heat-killed Candida cells caused an acceleration of hu-RBC elimination in both mouse strains but the magnitudes for the short- and long-living steps of NOD-scid mice evaluated by "stimulation index" were only 1/2.6 and 1/7.6 of C.B-17scid mice, respectively.

Antibodies against listerial protein 60 act as an opsonin for phagocytosis of Listeria monocytogenes by human dendritic cells

Human-monocyte-derived dendritic cells (MoDC) are very efficient in the uptake of Listeria monocytogenes, a gram-positive bacterium which is an important pathogen in humans and animals causing systemic infections with symptoms such as septicemia and meningitis. In this work, we analyzed the influence of blood plasma on the internalization of L. monocytogenes into human MoDC and compared the uptake of L. monocytogenes with that of Salmonella enterica serovar Typhimurium and Yersinia enterocolitica. While human plasma did not significantly influence the uptake of serovar Typhimurium and Y. enterocolitica by human MoDC, the efficiency of the uptake of L. monocytogenes by these phagocytes was strongly enhanced by human plasma. In plasma-free medium the internalization of L. monocytogenes was very low, whereas the addition of pooled human immunoglobulins resulted in the internalization of these bacteria to a degree comparable to the highly efficient uptake observed with human plasma. All human plasma tested contained antibodies against the 60-kDa extracellular protein of L. monocytogenes (p60), and anti-p60 antibodies were also found in the commercially available pooled immunoglobulins. Strikingly, in contrast to L. monocytogenes wild type, an iap deletion mutant (totally deficient in p60) showed only a minor difference in the uptake by human MoDC in the presence or the absence of human plasma. These results support the assumption that antibodies against the listerial p60 protein may play an important role in Fc-receptor-mediated uptake of L. monocytogenes by human MoDC via opsonization of the bacteria. This process may have a major impact in preventing systemic infection in L. monocytogenes in immunocompetent humans.

Host and bacterial factors involved in the innate ability of mouse macrophages to eliminate internalized unopsonized Escherichia coli

In an effort to better understand genetic and cellular factors that influence innate immunity, we examined host and bacterial factors involved in the nonopsonic phagocytosis and killing of Escherichia coli K-12 by mouse macrophages. Unelicited (resident) peritoneal macrophages from five different mouse strains, BALB/c, C57BL/6, CD-1, C3H/HeJ, and C3H/HeN, were employed. Additional macrophage populations were obtained from CD-1 mice (bone marrow-derived macrophages). Also, for BALB/c and C57BL/6 mice, peritoneal macrophages elicited with either thioglycolate or proteose peptone, bone marrow-derived macrophages, and macrophage-like cell lines derived from the two strains were employed. Two E. coli K-12 strains that differed specifically in their abilities to produce type 1 pili containing the adhesive protein FimH were examined. The parameters used to assess macrophage bacteriocidal activity were (i) the killing of internalized (gentamicin-protected) E. coli during the approximately 4-h assay and (ii) the initial rate at which internalized E. coli were eliminated. Data on these parameters allowed the following conclusions: (i) unelicited or proteose peptone-elicited peritoneal macrophages were significantly better at eliminating internalized bacteria than thioglycolate-elicited peritoneal macrophages, bone marrow-derived macrophages, or macrophage cell lines; (ii) the host genetic background had no significant effect upon the ability of unelicited peritoneal macrophages to kill E. coli (even though the mouse strains differ widely in their in vivo susceptibilities to bacterial infection); and (iii) the FimH phenotype had no significant effect upon E. coli survival once the bacterium was inside a macrophage. Additionally, there was no correlation between the bacteriocidal effectiveness of a macrophage population and the number of bacteria bound per macrophage. However, macrophage populations that were the least bacteriocidal tended to bind higher ratios of FimH(+) to FimH(-) E. coli. The effect of gamma interferon, fetal calf serum, and the recombination proficiency of E. coli were examined as factors predicted to influence intracellular bacterial killing. These had no effect upon the rate of E. coli elimination by unelicited peritoneal macrophages.

Docosahexaenoic acid, a constituent of fetal and neonatal serum, inhibits nitric oxide production by murine macrophages stimulated by IFN gamma plus LPS, or by IFN gamma plus Listeria monocytogenes

Murine macrophage activation is deficient in the fetus and the neonate, and in areas of the placenta perfused by the fetal circulation. Fetal and neonatal serum concentrations of docosahexaenoic acid (DHA) are 150 microM, or approximately 50-fold higher than in the adult. We previously showed that DHA inhibits activation of the gene for inducible nitric oxide synthase (iNOS) in murine macrophages stimulated in vitro with interferon gamma (IFN gamma) plus lipopolysaccharide (LPS). We have now pursued these observations in greater depth. An assay system was developed which separated the stimulation of macrophages by IFN gamma plus LPS, and the actual production of nitric oxide (NO). It was found that macrophages do not produce NO until they have been stimulated by IFN gamma plus LPS for a period of 10 h. NO is produced during the subsequent 10 h, even though IFN gamma plus LPS are not longer present. DHA, if present, inhibited only during the initial 10 h stimulation; DHA did not inhibit the production of NO by macrophages which had previously been stimulated by IFN gamma plus LPS, and were already producing NO. It was also found that DHA was less inhibitory if given prior to the IFN gamma plus LPS stimulation. In a dose-responsive manner, DHA inhibited the increased abundance of iNOS mRNA by macrophages stimulated by IFN gamma plus LPS. NO contributes to the host defense against Listeria monocytogenes and other intracellular pathogens. We therefore investigated the ability of DHA to inhibit NO production by macrophages stimulated by IFN gamma plus Listeria monocytogenes in vitro; DHA inhibited transcription of the iNOS gene and also the listeriocidal activity of activated macrophages. Inhibition of NO production by DHA may contribute to the increased susceptibility of the fetoplacental unit and neonate to intracellular infections.

Influence of steric stabilization of liposome-encapsulated hemoglobin on Listeria monocytogenes host defense

Liposome-encapsulated hemoglobin (LEH) products are being investigated as potential blood substitutes. To determine if changes in LEH composition can modify the immune response, red blood cell substitutes based on conventional lipids containing phosphatidylinositol (LEH1) and sterically stabilized lipid vesicles containing polyethylene glycol phosphatidylethanolamine (LEH2) were tested for effects on host resistance. On Day 0, groups of 18 to 20 female CD-1 mice were given an intravenous (i.v.) infectious challenge with a 20% lethal dose of Listeria monocytogenes. Mice received a single i.v. dose of LEH1, LEH2, or albumin vehicle on Day +1 or Day -3 relative to infectious challenge. Mice dosed with LEH1 and LEH2 on Day +1 died rapidly from Listeria infection; but mice dosed with LEH2 lived significantly longer than did mice receiving LEH1. By contrast, when administered on Day -3, LEH1 had no significant effect on host immunity, while LEH2 increased susceptibility to Listeria infection. In addition, LEH1 and LEH2 both caused significant reduction of phagocytic activity as measured by rat alveolar macrophage (AM) ingestion of latex microspheres. AM incubated 4 hr with either LEH1 or LEH2 prior to addition of microspheres ingested fewer beads in a dose-dependent manner. No difference in in vitro phagocytic activity was observed between LEH1 or LEH2. The inability to differentiate LEH formulations based on in vitro phagocytic activity suggests that the in vivo Listeria infection model may be more relevant in discerning the immunotoxicity of the LEH formulations tested.

Activation of the human complement alternative pathway by Listeria monocytogenes: evidence for direct binding and proteolysis of the C3 component on bacteria

The capacity of the intracellular pathogen Listeria monocytogenes to activate the alternative pathway of human complement was examined. Incubation of L. monocytogenes with human serum in optimal conditions (20% Mg2+EGTA [ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid]-chelated serum) consumed (31.3 +/- 3.9)% of C3 hemolytic activity and led to similar amounts of C3 deposition among the 27 strains tested, except for a rough mutant and the penicillin-induced L forms of strain EGD, which bound reduced amounts of C3. The same results were obtained with strains belonging to related species (L. innocua, L. seeligeri, L. welshimeri, and L. ivanovii). Direct evidence is provided that L. monocytogenes induces the deposition of C3b and its cleavage products iC3b and C3d through ester and amide linkages, as demonstrated by the analysis of the released products of radiolabelled purified C3 after treatment with hydroxylamine. Our results clearly demonstrate that L. monocytogenes activates the alternative pathway of human complement, suggesting that bacteria in the blood or in tissues of infected patients are opsonized and targeted to C3 receptor-bearing cells such as macrophages.

In vitro study of contact-mediated killing of Candida albicans hyphae by activated murine peritoneal macrophages in a serum-free medium

Activated peritoneal macrophages obtained from Listeria-immune mice were demonstrated to kill nonphagocytosable Candida albicans hyphae by contact-mediated mechanisms in a serum-free synthetic medium. The actual killing of hyphae was confirmed by a microculture technique utilizing the dimorphic nature of the fungus. The most efficient candidacidal activity was demonstrated by the macrophages obtained from mice first immunized with live Listeria monocytogenes and then elicited with heat-killed L. monocytogenes cells. Resident macrophages from control mice showed only low candidacidal activity against C. albicans hyphae and yeast cells. Direct physical contact appeared to be required for macrophages to efficiently kill oversized C. albicans hyphae. Efficient in vitro killing of hyphae also required relatively high effector/target cell ratios (50 or higher). The contact-mediated candidacidal activity of activated macrophages was not significantly abrogated by oxygen-radical scavengers, suggesting the involvement of oxygen-independent mechanisms. These results suggest that the enhanced nonspecific immunity to candidiasis seen in Listeria-immune hosts can be attributed, at least in part, to activated fungicidal macrophages. The ability of macrophages to detect and destroy both yeast and hyphal C. albicans cells is clearly an important element of the host defense against candidiasis.

Roles of complement and complement receptor type 3 in phagocytosis of Listeria monocytogenes by inflammatory mouse peritoneal macrophages

Listeria monocytogenes is a facultative intracellular bacterium that is phagocytosed by and can proliferate within cells of the mononuclear phagocyte system. However, the receptors used by macrophages to internalize this organism have not been identified. In the experiments described here, the contributions of serum complement component C3 and macrophage complement receptor type 3 (CR3) to opsonization and phagocytosis of L. monocytogenes by mouse inflammatory peritoneal macrophages were studied. An assay which allowed the distinction of adherent versus internalized bacteria was used to show that following mixing of L. monocytogenes with inflammatory macrophages, greater than 95% of the bacteria bound were internalized by these phagocytes. When immunofluorescent antibodies to C3 and immunoglobulin were used, C3 but not immunoglobulin was detected on L. monocytogenes following incubation in normal serum or ethylene glycol-bis(beta-aminoethyl ether)-N,N'-tetracetic acid-Mg(2+)-chelated serum. When macrophages were incubated with 5% serum and L. monocytogenes in a standard assay, approximately 80% of the phagocytosis was inhibited by heat-inactivated serum or by the addition of F(ab')2 anti-C3 antibody. The role of macrophage CR3 was demonstrated by the ability of anti-CR3 monoclonal antibody M1/70 to decrease phagocytosis to the same levels as those seen with heat-inactivated serum. These experiments indicated that in the presence of normal serum, L. monocytogenes is phagocytosed by inflammatory macrophages primarily because CR3 on these cells binds to C3 deposited on the bacterial surface.

Inhibition of Listeria monocytogenes growth by the lactoperoxidase-thiocyanate-H2O2 antimicrobial system

The lactoperoxidase-thiocyanate-H2O2 system (LP system), consisting of lactoperoxidase (0.37 U/ml), KSCN (0.3 mM), and H2O2 (0.3 mM), delayed but did not prevent growth of L. monocytogenes Scott A at 5, 10, 20, and 30 degrees C in broth and at 20 degrees C in milk. The net lag periods determined spectrophotometrically varied inversely with temperature and were shorter at 5 and 10 degrees C for cultures from shaken versus from statically grown inocula. Lag periods for cultures from shaken and statically grown inocula, respectively, were 73 and 98 h at 5 degrees C, 22 and 32 h at 10 degrees C, both 8.9 h at 20 degrees C, and both 2.8 h at 30 degrees C. After the lag periods, the maximum specific growth rates were similar for each of the three treatments (complete LP system, H2O2 alone, or control broth) at 5, 10, and 20 degrees C and were 0.06 to 0.08, 0.09 to 0.1, and 0.32 to 0.36/h, respectively. At 20 degrees C in sterile reconstituted skim milk, the LP system restricted growth of Scott A, with log CFU counts per ml at 0, 36, and 68 h being 5.7, 6.4 and 7.9 (versus 5.7, 9.8, and 11.2 for controls). Possible explanations for the decreased lag times observed for cultures from aerobically grown inocula are discussed.

Decreased resistance to Listeria monocytogenes in mice following vanadate exposure: effects upon the function of macrophages

We have previously demonstrated that ammonium metavanadate has a broad immunomodulating effect in mice after subchronic exposure. Because host resistance to pathogenic Listeria monocytogenes and in vitro phagocytic activity of harvested peritoneal macrophages (PEM) were strongly affected by vanadate treatment, we investigated the effect of vanadate on the functional role of resident PEM in active listeriosis in the mouse. Vanadium treatment results in altered patterns of clearance of the organism from the peritoneal cavity, liver and spleen. The total in vitro phagocytic uptake of Listeria by PEM was consistently decreased as a function of infection period. Similarly, intracellular killing of Listeria was decreased although the PEM from the vanadate-treated and control mice were more bacteriostatic than bactericidal. Population distributions of Listeria within infected PEM were not affected by host pretreatment with vanadate. Vanadate exposure interferes with both the uptake and ultimate intraphagolysosomal killing of Listeria. These results were expected in light of our previous studies of the effects of vanadate on PEM superoxide production, and hexose monophosphate shunt and glutathione redox cycle activity. The results provide additional information for the development of a mechanism to explain why workers exposed to vanadium-containing dusts have increased susceptibility to bacterial respiratory diseases.

Human tumor necrosis factor increases the resistance against Listeria infection in mice

The resistance in mice against Listeria infection was augmented by treatment with recombinant human tumor necrosis factor (TNF). To elucidate this phenomenon, we examined the effect of TNF on macrophage activation. TNF-treated macrophages had listericidal activity in vitro and superoxide anion production. In addition, macrophage migration was inhibited in the presence of TNF. Therefore, activation of macrophages by TNF was similar to activation by macrophage-activating factor or macrophage-migration-inhibitory factor.

Susceptibility of HRS/J mice to listeriosis: dynamics of infection

Congenitally hairless HRS/J homozygous (hr/hr) mice as well as phenotypically normal littermates (hr/+) were found to exhibit unusual susceptibility to infection with Listeria monocytogenes with 50% of the animals dying within a 10-day period (LD50) at an infecting inoculum approaching 200 microorganisms. In marked contrast to the outbred CD-1 strain as well as other Listeria-susceptible mice, HRS/J hosts are virtually incapable of limiting infection with virulent Listeria. The dynamics of infection reveal early uncontrolled bacterial growth within the peritoneal cavity, followed by a sharp increase of bacterial load in the spleen of both HRS/J homozygotes and heterozygous littermates. Spleen indices obtained for mutant mice indicate substantial splenomegaly which parallels the onset of infection in that organ. Assessment of the exudate population within the peritoneal cavity during infection indicates that HRS/J mice produce an early sustained influx of polymorphonuclear leukocytes while exhibiting a diminished macrophage inflammatory response. Additionally, it was shown that the mutant strain expresses significant increases in the total number of recoverable peritoneal leukocytes in response to other phlogistic stimuli.

Susceptibility of HRS/J mice to listeriosis: macrophage activity

Macrophage functions, including phagocytosis and bactericidal and oxidative activities, were measured in highly susceptible Listeria monocytogenes-sensitive HRS/J homozygous and heterozygous mice. Phagocytic studies with both caseinate-elicited and L. monocytogenes-immune macrophages revealed comparable engulfment of latex particles, zymosan, and bacteria by mononuclear phagocytes obtained from all experimental mouse strains. Elicited macrophages cultivated from mutant hairless and heterozygous littermates exhibited a reduced capacity to control Listeria infection compared with cells derived from CD-1 mice. However, intracellular killing of the microorganisms by immune macrophages was comparable to that observed with the outbred controls. Studies on oxidative metabolic activities associated with the respiratory burst indicate that while intracellular nitroblue tetrazolium reduction was comparable for macrophages cultivated from all mouse strains, the liberation of superoxide anion and chemiluminescence responses were significantly diminished in caseinate-elicited HRS/J cells. Moreover, immune elicited hr/hr and hr/+ macrophages generated oxidative species at levels comparable to that observed with cells derived from resistant animals. Thus, immunologically elicited HRS/J mice are capable of responding to sublethal Listeria infection with heightened antibacterial and oxidative activities.

Immunologic and clinicopathologic evaluation of adult dogs inoculated with Encephalitozoon cuniculi

Beagle dogs inoculated intravenously with 1.75 x 10(9) viable Encephalitozoon cuniculi spores at 12.5 months of age were monitored for 18 months to assess infection in the adult dog. Parameters monitored included packed cell volume, total and differential leukocyte counts, and humoral and cellular responses to infection. Immunoglobulin M and G antibodies directed against the parasite tegument were present throughout the 18 months. Peripheral blood monocytes treated with lymphokines, either antigen specific (E. cuniculi) or nonspecific (concanavalin A), killed E. cuniculi spores in vitro. Pretreatment of E. cuniculi spores with normal dog serum or infected dog serum enhanced the killing of the parasite (normal dog serum less than infected dog serum) by canine monocytes. Histologic examination of selected tissues revealed microfocal plasma cell and lymphocyte aggregates at the renal corticomedullary junction and in the medullary interstitium. The results of these experiments suggest that the adult dog is able to mount an effective defense to infection, to minimize host tissue damage, and to eliminate the parasite through complex interactions between monocytes-macrophages and lymphocytes.

Growth of Legionella pneumophila in thioglycolate-elicited peritoneal macrophages from A/J mice

Legionella pneumophila is a facultative intracellular bacterium which readily grows in cultures of guinea pig and human mononuclear phagocytes. In this report, we demonstrate that the Legionella sp. also grows in thioglycolate-elicited macrophages obtained from A/J mice but not in cells from other mouse strains tested, such as BDF1, DBA/2, C3H/HeN, C57BL/6, and BALB/c. Growth of Listeria monocytogenes and interleukin-1 production in A/J mice were similar to their growth and production in other strains tested, and the growth of Staphylococcus epidermidis was restricted by A/J macrophages. This finding suggests that although A/J macrophages share functional capabilities with cells from other mouse strains, they differ in growth restriction capacity for the Legionella sp. Resident macrophages were less permissive than were thioglycolate-elicited cells in that resident cells from A/J mice failed to support the growth of Legionella pneumophila. Also, resident cells from BDF1 mice rapidly eliminated the bacteria, rather than merely restricting growth. This finding was also observed in in vivo studies in which thioglycolate pretreatment of mice resulted in the enhanced recovery of viable bacteria from the peritoneal cavity of mice infected intraperitoneally. Higher numbers of bacteria were obtained from A/J mice and, in addition, this strain was more susceptible to the lethal effects of Legionella infection. These data suggest that, as with other intracellular bacteria, macrophages may serve a pivotal role in the early stages of Legionella infection and further suggest that the A/J mouse represents a useful animal model for the study of Legionella infection and immunity.

Hemolysin supports survival but not entry of the intracellular bacterium Listeria monocytogenes

The gram-positive bacterium Listeria monocytogenes is a facultative intracellular pathogen. The only known property of L. monocytogenes which has been shown to be involved in virulence is a hemolysin, listeriolysin (J. L. Gaillard, P. Berche, and P. Sansonetti, Infect. Immun. 52:50-55, 1986; S. Kathariou, P. Metz, H. Hof, and W. Goebel, J. Bacteriol. 169:1291-1297, 1987). Using our previously obtained transposon Tn916-induced hemolysin-negative mutants of L. monocytogenes Sv1/2a (Mackaness strain), we demonstrated that the loss of hemolysin reduced significantly the rate of survival of the bacteria in mouse peritoneal macrophages but did not reduce their uptake. It was further shown that virulent L. monocytogenes strains could invade the mouse embryo fibroblast 3T6 cell line, i.e., mammalian cells which are nonprofessional phagocytes. This uptake was inhibited by cytochalasin B and hence seems to be accomplished by parasite-induced endocytosis. Hemolysin was not essential for this step. Strains of other Listeria species could not efficiently penetrate the 3T6 cells.

Relationship of bacterial growth phase to killing of Listeria monocytogenes by oxidative agents generated by neutrophils and enzyme systems

Listeria monocytogenes, a gram-positive motile bacterium which can cause severe bacterial infection in humans, is considered to be pathogenic by virtue of its ability to resist intracellular killing. Since the mechanism of intracellular survival is poorly understood, we assessed the sensitivity of L. monocytogenes to several potent antibacterial products. Phorbol myristate acetate (PMA)-stimulated polymorphonuclear cells (PMNs) produced extracellular antibacterial products which were inhibited completely by catalase, suggesting a role for oxidative agents in this process. L. monocytogenes in logarithmic (log) growth phase resisted PMA-stimulated PMN extracellular products significantly more than L. monocytogenes in stationary (stat) growth phase or Escherichia coli (three strains) in either phase of growth. The role of oxidative agents was studied further by using xanthine oxidase-xanthine, glucose oxidase-glucose, and myeloperoxidase enzyme systems to generate hydroxyl radical (.OH), hydrogen peroxide (H2O2), and hypochlorous acid (OCl-), respectively. L. monocytogenes in log phase resisted the antibacterial products of these enzyme systems under conditions which produced superoxide (O2-) and H2O2 at concentrations similar to those produced extracellularly by PMA-stimulated PMNs, while stat-growth-phase L. monocytogenes and E. coli in either phase of growth were susceptible. Antibacterial activity could be blocked or inhibited by exogenous catalase (for all oxygen radical-generating systems), mannitol, or desferoxamine (for xanthine oxidase-xanthine) and alanine (for myeloperoxidase), suggesting that .OH and OCl- were responsible for this activity. Log-phase L. monocytogenes had 2.5-fold higher bacteria-associated catalase activity, as compared with stat-phase L. monocytogenes. These experiments, therefore, suggest that log-phase L. monocytogenes resists oxidative antibacterial agents by producing sufficient catalase to inactivate these products. This may contribute to the ability of L. monocytogenes to survive intracellularly.

Thermal resistance of intracellular Listeria monocytogenes cells suspended in raw bovine milk

The thermal resistance of Listeria monocytogenes associated with a milk-borne outbreak of listeriosis was determined in parallel experiments by using freely suspended bacteria and bacteria internalized by phagocytes. The latter inoculum was generated by an in vitro phagocytosis reaction with immune-antigen-elicited murine peritoneal phagocytes. The heat suspension medium was raw whole bovine milk. Both suspensions were heated at temperatures ranging from 52.2 to 71.7 degrees C for various periods of time. Mean D values for each temperature and condition of heated suspension revealed no significant differences. The extrapolated D71.7 degrees C (161 degrees F) value for bacteria internalized by phagocytes was 1.9 s. Combined tube and slug-flow heat exchanger results yielded an estimated D71.7 degrees C value of 1.6 s for freely suspended bacteria. The intracellular position did not protect L. monocytogenes from thermal inactivation.

Analysis of macrophage bactericidal function in genetically resistant and susceptible mice by using the temperature-sensitive mutant of Listeria monocytogenes

Innate resistance to infection by Listeria monocytogenes is genetically controlled and is critically dependent on prompt macrophage recruitment to the sites of infection. Experiments reported here were designed to examine whether there was an additional, qualitative difference between the intrinsic bactericidal activity of the inflammatory macrophages of genetically resistant (C57BL/6J) and susceptible (A/J) hosts. To critically evaluate the bactericidal (rather than bacteriostatic) function of the macrophage, a temperature-sensitive (ts) mutant of L. monocytogenes was developed. Mutagenesis was induced with nitrosoguanidine, and the ts mutants were isolated following enrichment with penicillin-gentamicin combinations. The ts mutants were found to carry the cell surface and biochemical characteristics of the original wild-type strain of L. monocytogenes. Inflammatory peritoneal macrophages from resistant C57BL/6J mice were found to have enhanced listericidal activity when compared with inflammatory macrophages from susceptible A/J mice. However, further analysis of the macrophage populations revealed that this seemingly qualitative advantage was due to the relatively greater proportion of inflammatory macrophages present in the inflammatory exudates of resistant C57BL/6J mice. When homogeneous populations of pure inflammatory macrophages were compared, no interstrain differences in their listericidal activity in vitro were seen. These results suggest that the susceptibility of A/J strain mice to L. monocytogenes is not due to an intrinsic deficiency of the listericidal activity of the inflammatory macrophage. The slight increase in bactericidal activity of macrophages from resistant mice that was reported by others (C. J. Czuprynski, B. P. Canono, P. M. Henson, and P. A. Campbell, Immunology 55:511-518, 1985) is caused by the difference in the relative percentage of resident cells present in the peritoneal exudates from resistant and susceptible mice.

Opsonization of Listeria monocytogenes type 4b by human adult and newborn sera

We studied the requirements for opsonization of Listeria monocytogenes type 4b with chemiluminescence and bactericidal assays and electron microscopy. Preopsonization with 3% adult serum had good opsonic activity (27,300 +/- 11,000 [standard deviation] counts, chemiluminescence assay), while 3% newborn cord serum was not opsonically active (820 +/- 530 counts, P less than 0.001 versus adult serum). In addition, organisms opsonized with cord serum were not killed (0% bacterial killing) and were less frequently visualized intracellularly on electron micrographs (0 to 4 bacteria per cell) than organisms opsonized with adult serum (70% killing and 10 to 20 bacteria per cell). Opsonic requirements for L. monocytogenes type 4b at low concentrations of serum were studied in detail with Sepharose-protein A-treated adult serum to obtain immunoglobulin G (IgG) and IgM fractions and zymosan-absorbed and C4 inactivator-treated serum to obtain alternative and classical complement pathway-deficient sera, respectively. In the presence of complement, IgM was opsonically active (59% of control) while IgG was not (6% of control). In addition, classical complement activity was required for efficient opsonization (greater than 100% of control) while the alternative complement pathway was unnecessary (3% of control). Since IgM is absent and classical complement activity is low in neonatal serum and at the common sites of neonatal Listeria infection, the requirement for IgM and classical complement activity for efficient opsonization of L. monocytogenes type 4b at low serum concentrations may be a factor in the pathogenesis of neonatal disease.

Induction by immunomodulatory agents of a macrophage antigen recognized by monoclonal antibody 158.2 and correlation with macrophage function

MA158.2, a rat monoclonal antibody with binding specificity for cells of the monocyte-macrophage lineage, reacts with an antigen (158.2) whose expression is enhanced on mononuclear cells activated to the tumoricidal phenotype by treatment with lymphokine supernatant containing macrophage activating factor (MAF). The functional relevance of enhanced expression of this antigen has been examined in mouse peritoneal macrophages treated with a variety of immunomodulatory agents and assayed for augmented macrophage-mediated defense reactions, including O-2 production, microbicidal, and tumoricidal activity. An interferon-gamma (IFN-gamma) preparation produced by recombinant DNA technology induced a dose-dependent increase in expression of the 158.2 antigen in inflammatory macrophages which was accompanied by acquisition of microbicidal activity against Listeria monocytogenes. However, these cells did not express tumoricidal activity and induction of this property required concomitant exposure to lipopolysaccharide (LPS). Similar results were obtained using macrophages elicited with pyran copolymer. Exposure to LPS alone induced enhanced expression of antigen 158.2 but did not elicit microbicidal activity. Macrophages challenged with IFN-alpha, IFN-beta, MDP, and bestatin did not exhibit increased 158.2 and also failed to acquire tumoricidal activity when treated concomitantly with LPS. Collectively, these data indicate that the MA 158.2 antibody recognizes an antigen expressed by macrophage populations displaying the so-called primed phenotype in which microbicidal activity is expressed but in which induction of tumoricidal activity requires the addition of a second signal such as LPS.

An in vitro system to study listericidal capacity of macrophages from separate mice: resident macrophages exhibit different activation patterns

An in vitro system with macrophages from individual mice was established to study their listericidal capacity. Because no antibiotics were used, bacterial killing was really due to macrophages in short-term culture. To restrict the extracellular growth of bacteria, cell culture medium was changed at 1-h intervals. We demonstrated that intracellular growth of listeria in macrophage pools from untreated animals varies considerably. Obviously, preactivated macrophages are constantly present, so that the common procedure of using macrophage pools from several animals is no longer acceptable. In addition, we demonstrated that in vitro mixtures of listeria-immune macrophages of one animal with cells from untreated animals at different ratios exhibit enhanced bacterial killing above a mere additive effect. Consequently, by using macrophages from individual untreated mice, we found that cells of different animals exhibited various activation stages, although unstimulated, inbred specific-pathogen-free mice of the same age, weight, and sex were used. When equal numbers of macrophages from untreated separate animals were mixed in vitro, intracellular growth of listeria was only moderate; that is, the number of preactivated macrophages of the individual animals determined listerial growth in the pooled preparation. Furthermore, we showed that identical doses of phorbol myristate acetate exerted different effects on the listericidal activities of macrophages as a function of their preactivation states. These experiments clearly demonstrate the advantage of using macrophages from individual mice for in vitro studies of macrophage activation.

Killed Listeria-induced suppressor T cells involved in suppression of delayed-type hypersensitivity and protection against Listeria infection

Pretreatment of mice by intravenous injection with killed Listeria provided neither delayed-type hypersensitivity to Listeria protoplasm nor protection against Listeria infection. Assuming that this suppression is due to suppressor cells, we attempted to clarify their induction and characterization. Pretreatment with killed BCG instead of killed Listeria suppressed the induction of DTH and protection in subsequent Listeria-immunized mice. Conversely, pretreatment with killed Listeria suppressed subsequent induction of DTH to PPD or protection from tuberculosis. Thus, these suppressions were induced antigen nonspecifically. Transfer of splenic non-adherent cells from killed Listeria-injected mice which had been treated with anti-BA theta serum plus complement, or had been passed through Sephadex G-10 columns, resulted in both afferent and efferent DTH suppression, suggesting that the DTH suppression is closely associated with suppressor T cells. Moreover, the splenic nonadherent cells from killed Listeria-injected mice showed suppression in vitro of listericidal activity of PEC from Listeria-immune mice in the presence of Listeria protoplasm.

Microbicidal activity and morphological characteristics of lung macrophages in Mycobacterium bovis BCG cell wall-induced lung granuloma in mice

Morphological and functional changes in lung macrophages from mice injected intravenously with Mycobacterium bovis BCG cell walls (CWs) were studied. In BCG CW high-responder mice (C57BL/6 [B6] strain), an increase in the size and the acid phosphatase activity of lung macrophages was observed. These lung macrophages showed greater microbicidal activity to M. bovis Ravenel and Listeria monocytogenes EGD, enhanced superoxide anion production index, and greater macrophage migration inhibition activity, as compared with lung macrophages from BCG CW low-responder mice (C3H/He strain), which were small in size and showed weak acid phosphatase activity, low antimicrobial activity, and low superoxide anion production index upon intravenous injection of the mice with BCG CW. These results indicated that lung macrophages from B6 mice injected with BCG CWs were morphologically and functionally activated, but not those from C3H mice.

Activation of murine polymorphonuclear neutrophils for fungicidal activity with supernatants from antigen-stimulated immune spleen cell cultures

An in vitro model of in vivo immunological activation of murine polymorphonuclear neutrophils (PMN) was developed. Culture supernatants of spleen cells from Blastomyces dermatitidis-immunized mice stimulated with B. dermatitidis antigens in vitro were studied. Incubation of the supernatants with thioglycolate-elicited PMN enabled the cells to significantly reduce (31 +/- 6%) B. dermatitidis inoculum CFU. Optimum production of active supernatants occurred after 4 to 6 days of stimulation in vitro and required 200 micrograms of nonviable B. dermatitidis cells per ml. Generation of activity by immune spleen cells was shown to be antigen specific in that stimulation with a heterologous antigen or stimulation of nonimmune spleen cells with B. dermatitidis antigen did not produce active supernatants. The activity in supernatants was dose dependent, nondialyzable (molecular weight greater than or equal to 14,000), and relatively heat labile (80 degrees C, 30 min). Activation of PMN by supernatants for fungicidal activity against B. dermatitidis required only a short incubation period (1 h) followed by a 2-h coculture (challenge) period. Stimulation of normal spleen cells with concanavalin A also resulted in the production of supernatants capable of activating PMN for significant fungicidal activity (31.1 +/- 8.5%). These findings demonstrate for the first time a link between soluble factors produced by antigen stimulation of sensitized lymphoid cells and activation of PMN for enhanced microbicidal activity. Such a process defines an additional immune defense mechanism whereby the immune host may clear specific microorganisms.

The regulation of macrophage activity in congenitally athymic mice

It has been suggested that non-T cell-mediated cellular immune mechanisms might be elevated in nude mice, which could contribute to their partial resistance to intracellular infectious agents and to the development of spontaneous tumors. In this study we have examined macrophages (M phi) from athymic, euthymic and athymic T cell-reconstituted mice in terms of their phagocytic capacity, microbicidal and tumoricidal activity, and the production of hydrogen peroxidase and superoxide anions. These studies have demonstrated the presence of activated M phi in nude mice and suggest that this activation is associated with the absence of T cell-mediated suppression. We have also compared M phi activation levels in germ-free nude mice which have received a defined intestinal bacterial flora. We have found M phi activity to be significantly elevated in microbiologically defined nude mice when compared to germ-free nude mice, indicating that a resistant gut flora is capable of nonspecifically stimulating nude mouse M phi.

Human peritoneal macrophage phagocytic, killing, and chemiluminescent responses to opsonized Listeria monocytogenes

Opsonization with normal human serum, purified immunoglobulin G, or immunoglobulin G-deficient serum promoted phagocytosis of Listeria monocytogenes by human peritoneal macrophages. However, normal human serum was the most effective opsonin in elicting killing and chemiluminescent responses. Macrophages phagocytized and killed almost as much as polymorphonuclear leukocytes but produced considerably less chemiluminescence.

Time course of antilisterial activity by immunologically activated murine peritoneal macrophages

Murine peritoneal macrophages were rapidly rendered listericidal after exposure to lymphokine-rich supernatants (LRSs) derived from antigen-pulsed Listeria monocytogenes-immune spleen cells. A 6-h incubation period with LRSs was sufficient to induce microbicidal activity in resident macrophages. In vitro induction of macrophage listericidal activity by constant exposure to LRSs persisted for 18 h, after which time spleen cell factors were no longer capable of modifying intracellular inactivation of Listeria. Results obtained by utilizing a short assay indicated that the killing kinetics is extremely rapid, with large numbers of bacteria destroyed during the first 15 min of infection. Intracellular killing at this time appeared to be greatly dependent upon the stage of growth from which the microorganisms were harvested. Induction of bactericidal macrophages by infection of mice with a sublethal dose of virulent Listeria cells and subsequent intraperitoneal elicitation with heat-killed homologous bacteria was similarly a transient event. Macrophages harvested 18 h after antigenic challenge displayed dramatic antibacterial activity during the first 22 h in culture. After 22 h, activity was lost, and stasis was observed during the ensuing 23 h. At 68 h, macrophages were devoid of antilisterial action. Activity, however, could be recalled after incubation with LRSs.

Tissue localization of complement component 3 receptor-bearing cells in lymphoid tissue after injection with complete Freund adjuvant

Localizations of complement component 3 (C3) receptor (C3R)-bearing cells in lymph nodes obtained from normal guinea pigs or from guinea pigs inoculated with complete Freund adjuvant were examined by staining with fluorescein-labeled anti-guinea pig C3 antibody after treatment with aggregated rabbit immunoglobulin M bound with guinea pig complement. In normal lymph nodes, a small number of C3R-positive cells were observed in the cortical and medullary areas. Non-granulomatous lymph nodes from complete Freund adjuvant-inoculated animals showed a number of C3R-positive lymphocytes in a mantle zone of the secondary follicles between the follicles and medullary cords, whereas in the paracortical areas and germinal centers, only a few positive cells were scattered. Long-lasting existence of positive cells was seen in the epithelioid cell granuloma, although the staining patterns were different from those of the lymphocytes. The appearance of a number of C3R-bearing lymphocytes in lymph nodes from complete Freund adjuvant-inoculated animals might be an expression of adjuvant activity.

Nonphagocytic clearance of Staphylococcus aureus from murine lungs

Several investigations of host and bacterial factors critical to staphylococcal clearance from lungs suggest that alveolar macrophages may not provide the principal defense against inhaled staphylococci. We evaluated possible contributions of extracellular bactericidal activities in lungs with a standard aerosol challenge model by using methods which allowed recovery of macrophages for in vitro bactericidal assays and recovery of intrapulmonary staphylococci for clearance studies. Macrophages recovered by a gentle lavage technique immediately after aerosol exposure contained 6.0 +/- 2.3 colony-forming units of viable staphylococci per 100 glass-adherent macrophages. These intracellular staphylococci were killed in vitro with a half-life of 10.8 +/- 2.1 h, which is identical to our results with a completely in vitro system for ingestion and killing. However, 99.4 +/- 0.2% and 94.9 +/- 1.5% of the viable cocci recovered in bronchoalveolar lavage at 0.5 and 6.0 h after aerosol exposure were sensitive to lysostaphin, a rapidly bactericidal enzyme with no demonstrable activity against intracellular organisms and therefore, presumably extracellular. Photomicrographs from lavage pellets obtained 0.5, 1.5, 3.0, and 5.5 h after aerosol exposure confirmed the presence of numerous extracellular cocci. These extracellular cocci were eliminated at the same rate as whole lung cocci (half-life = 3.07 and 3.14 h, respectively) and at a much faster rate than intracellular cocci. In summary, we found large numbers of extracellular staphylococci in bronchoalveolar spaces during the first 6 h after aerosol exposure that are inactivated at the same rate as the whole lung bacterial population. Since only a small number of staphylococci are ingested by macrophages and intracellular bactericidal activity appears too slow to explain intrapulmonary killing, we conclude that an as yet unidentified extracellular killing process contributed to staphylococcal clearance.

Fate of Listeria monocytogenes in murine peritoneal macrophage subpopulations

Peritoneal macrophages derived from CD-1 and C57BL/6 mice were separated into distinct groups based on their buoyant densities on discontinuous gradients of Percoll and assayed for antibacterial activity against Listeria monocytogenes. Subpopulations of peritoneal macrophages derived from Listeria-immune mice present a wide variation in their ability to control intracellular infection. Distinct subsets were found which exhibited bacteriostatic and listericidal activity. The fractionation procedure yielded a population of peroxidase-positive macrophages which were devoid of antilisterial action. Subpopulations of resident and elicited macrophages were also functionally heterogeneous in their ability to restrict intracellular growth of bacterial. In some experiments, subclasses were examined for secretion of plasminogen activator and phagocytosis of latex particles. These activities varied considerably with the status of activation of the macrophages, but failed to correlate with antimicrobial activity within given subpopulations.