Effect of capsular polysaccharide of Klebsiella pneumoniae on the differentiation and functional capacity of macrophages cultured in vitro.

The effect of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) on the differentiation and functional capacity of macrophages cultured in vitro from various lymphoid tissues was investigated. In cultures of peritoneal cells, the number of macrophages did not change throughout incubation periods of from 1 hr to 3 days, and the addition of CPS-K had no affect. It appears therefore that CPS-K does not exhibit cytotoxic effects on macrophages. In cultures of spleen cells, only a small number of macrophages appeared within 1 hr, but the number of macrophages increased during further incubation. The addition of CPS-K to cultures of spleen cells at the start of incubation suppressed markedly the increase in the numbers of macrophage. This finding indicates that CPS-K blocks the process of the generation of macrophages, probably from their precursor cells in cultures of spleen cells. Only a small number of macrophages appeared in cultures of thymocytes or lymph node cells either with or without CPS-K. The phagocytic capacity of either peritoneal macrophages or macrophages generated in cultures of spleen cells was activated during incubation in vitro. Macrophages cultured in the presence of CPS-K for 24 hr or longer appeared to have an enhanced phagocytic activity, although the enhancement of their phagocytic activity by the addition of CPS-K was less marked in cultures of spleen cells than in those of peritoneal macrophages. Morphologically, macrophages in both cultures of peritoneal cells and spleen cells incubated in the presence of CPS-K for 4 days possessed much longer cytoplasmic processes than those incubated in the absence of CPS-K. From the present study, it appears that CPS-K exhibits dual effects on macrophage precursor cells and macrophages, a blocking effect on the differentiation from the former to the latter and an enhancing effect on the functional capacity of the latter.     

Effect of Capsular Polysaccharide of Klebsiella pneumoniae on Host Resistance to Bacterial Infections

When Klebsiella pneumoniae capsular polysaccharide (CPS-K) from type 1, Kasuya strain, was injected intraperitoneally (i.p.) immediately before i.p. bacterial challenge, the survival time of mice infected with Salmonella enteritidis NUB 1 (virulent strain) was shortened and the mortality rate for mice infected with S. enteritidis NUB 31 (avirulent strain) was enhanced. The promotion of infection with S. enteritidis NUB 1 by CPS-K depended upon its dose, the effect of CPS-K being demonstrable up to as little as 0.2 μg per mouse. In the case of S. enteritidis NUB 31, the effect of CPS-K was detectable only when more than 20 μg per mouse was injected. As a result of enumeration of bacterial populations in the peritoneal washing, blood, liver and spleen, it was revealed that CPS-K promoted in vivo growth of S. enteritidis NUB 1 and NUB 31. In addition, CPS-K enhanced the mortality rate in mice infected with Streptococcus pyogenes or Streptococcus pneumoniae. The peak CPS-K effect on infection with S. enteritidis NUB 1 was seen when given immediately before bacterial challenge. The active substance responsible for the infection-promoting effect of CPS-K was neutral CPS-K, which is distinct from the O antigen and from acidic CPS-K (the type-specific capsular antigen). Preparations of neutral CPS-K isolated from the other three strains of K. pneumoniae exhibited a marked infection-promoting effect comparable with that of preparations from the Kasuya strain. Neutral CPS-K, with identical antigenicity to that from the Kasuya strain, has already been found to exert a strong adjuvant effect on antibody responses to various antigens in mice. No parallelism exists between infection-promoting activity and adjuvant activity of neutral CPS-K.     

Effect of capsular polysaccharide of Klebsiella pneumoniae on host resistance to bacterial infections. III. Further study of its effects on interactions between peritoneal leukocytes and virulent Salmonella enteritidis.

The mechanism for the infection-promoting effect of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) was investigated using the experimental system in which mice were infected intraperitoneally (i.p.) with a virulent strain of Salmonella enteritidis immediately after i.p. injection of CPS-K. In the peritoneal phagocytes of CPS-K-untreated control mice, approximately 70, 3, and 10% of phagocytized bacteria survived 6, 12, and 24 hr after challenge, respectively, when calculated from the ratio of the number of cell-associated viable bacteria, which was estimated by direct plate count, to the number of phagocytized bacteria, which was estimated by microscopic observation of stained smears. In contrast, almost all of the phagocytized bacteria were viable throughout the experimental period in mice treated with CPS-K. The electron microscopical findings of the phagocytes obtained 12 hr after challenge showed that in the cells of mice treated with CPS-K almost all of the phagocytized bacteria were morphologically intact, with some of them in the stages of cell division, whereas in those of untreated control mice, almost all of the phagocytized bacteria underwent digestive changes. When the reaction product of acid phosphatase was examined by electron microscopy in the phagocytes obtained 12 hr after challenge, the enzyme activity in the phagosomes was very low in mice treated with CPS-K in comparison with that in untreated control mice. Enzyme assays of the lysosomal and extralysosomal fractions of peritoneal cells obtained at various times after challenge also showed that release of acid phosphatase from the lysosomal fraction to the extralysosomal fraction after bacterial challenge was inhibited in peritoneal cells of mice treated with CPS-K.     

DYNAMICS OF LEUKOCYTE MIGRATION INTO THE MOUSE ASCITES TUMOR

There is a marked increase in the number of peritoneal leukocytes (lymphocytes, monocytes and granulocytes) during the growth of Ehrlich ascites tumor in mice. No local proliferation (as indicated by a labeling at 1 hr following a single ³H-TdR injection) was observed in the normal peritoneal leukocytes or those in the ascites tumor, except for a very minor labeling of some tumor macrophages. Kinetics of peritoneal leukocytes was studied with a series of twelve injections of ³H-thymidine (20 μCi every 8 hr) in normal mice as well as mice injected with 10⁶ tumor cells i.p. 2 hr after the last ³H-TdR injection. Animals were sacrificed at intervals up to 6 days. Granulocyte labeling in the blood as well as peritoneal space was near 100% in both groups of animals at all the intervals. Temporal changes in the labeling of lymphocytes (from 10% at 0 day to 22% at day 6), and monocytes (from 20% at 0 day to 57% at day 6) were identical in the blood and peritoneal space of normal animals, indicating a free exchange of cells between these compartments. Higher labeling indices than those in the controls were attained in the blood of tumor-bearing hosts (viz 40% for lymphocytes and 80% for monocytes at 6 days) suggesting an increased turnover of these cells in the circulation. In addition, peritoneal mononuclear cells of tumor-bearing mice showed even a higher labeling than those in the blood (viz 65% for lymphocytes and 92% for monocytes at 6 days) indicating a selective migration and/or retention of newly formed cells within the tumor, in contrast to a random migration into the normal peritoneal cavity. Furthermore, an identical labeling of macrophages to that of monocytes within the tumor indicated a short monocyte-macrophage transition. The preferential accumulation of young mononuclear cells into the tumor may be of functional importance.     

Relationship between Immunity and Interferon Production in Macrophages

In vitro interferon (IF) production in peritoneal macrophages of normal and Newcastle disease virus (NDV)-immunized mice was studied. Of ascites cells used, 80% were macrophages, 14% lymphocytes, and 6% polymorphonuclear leukocytes. It was indicated that IF was produced mainly in the macrophages after NDV inoculation. IF production in the macrophages derived from immunized mice was more enhanced than that in those from normal mice. It is not clear at present, however, whether this enhancement is based on immunological specificity. The IF production in the culture of macrophages reached its maximum value in 6 to 9 hr after inoculation of the inducer. After 12 hr, the IF titer in the culture fluid decreased gradually. A possible explanation of this fact is that there may be partial inactivation of IF by some cellular components.     

Essential fatty acid deficiency inhibits the in vivo generation of leukotriene B4 and suppresses levels of resident and elicited leukocytes in acute inflammation

Essential fatty acid (EFA) deficiency exerts an anti-inflammatory effect in several models of inflammation. In an effort to understand underlying mechanisms, the effect of EFA deficiency on the generation of eicosanoids and the elicitation of leukocytes in a model of acute inflammation was examined. Acute inflammation was induced by the i.p. injection of zymosan in mice. The injection of zymosan in normal mice was followed by a short burst of eicosanoid synthesis lasting 2 hr. Leukotriene (LT)B4, LTC4, LTD4, and LTE4, thromboxane B2, and 6-keto-prostaglandin F1 alpha were detected using high pressure liquid chromatography and specific radioimmunoassays. This initial phase of eicosanoid production was followed by a more prolonged infiltration of leukocytes (predominantly polymorphonuclear neutrophils (PMN)) lasting 48 hr with little eicosanoid synthesis. When challenged with zymosan, EFA-deficient mice exhibited a marked decrease in the production of eicosanoids during the early phase. No LTB could be detected at all. The number of resident peritoneal macrophages in EFA-deficient mice was also substantially decreased, and the influx of PMN during the inflammatory response was markedly diminished. In order to establish that the generation of eicosanoids during the early phase of this model of acute inflammation played a causal role in the later infiltration of PMN, the effect of the mixed lipoxygenase/cyclooxygenase inhibitor, BW755C, on LTB formation and PMN influx in this model of inflammation was assessed in control animals. BW755C completely blocked LTB synthesis and inhibited the subsequent influx of PMN. In conclusion, EFA deficiency inhibits eicosanoid generation, depresses levels of resident macrophages, and markedly diminishes the influx of PMN in the acute inflammatory response. The decrease in PMN influx appears to result from the inhibition of the antecedent generation of LTB.     

Further studies on generation of macrophages in in vitro cultures of mouse spleen cells and its inhibition by the capsular polysaccharide of Klebsiella pneumoniae.

Although the number of macrophages detected in cultures of mouse spleen cells at the start of the culture was very small, it markedly increased during further incubation. Macrophages were generated not only from the glass-adherent cell fraction of spleen cells, but also from the nonadherent cell fraction obtained after removal of adherent cells either by incubating in glass petri dishes or by passing through a glass bead column. The generation of macrophages from the nonadherent cell fraction occurred even when it was separated as late as 48 hr after the start of the culture. The phagocytic activity of macrophages newly generated from the nonadherent cell fraction was relatively weak, but it was activated during further incubation. Based on these results, the maturation process of macrophages can be divided into at least the following four stages; glass-nonadherent nonphagocytic precursor cells, glass-adherent nonphagocytic precursor cells, immature macrophages with low phagocytic activity, and mature macrophages with full phagocytic activity. The addition of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) to cultures of spleen cells markedly suppressed the generation of macrophages. The suppressive effect of CPS-K depended on its dosage, and the minimum concentration of CPS-K showing a definite effect was 0.05 μg/ml. CPS-K inhibited further generation of macrophages in either the nonadherent or adherent cell fraction at any time after the start of the culture. The suppressive effect of CPS-K on the generation of macrophages could not be reversed by simple washing of spleen cells which had been kept in contact with CPS-K for 3 hr. There was no evidence which showed that CPS-K exhibited direct cytotoxic effects on spleen cells in the culture.     

Adjuvant Action of Capsular Polysaccharide of Klebsiella pneumoniae on Antibody Response

The sequence of histological changes in the regional lymph node and other lymphoid organs of mice injected with the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) or bacterial lipopolysaccharide (LPS) was followed. Injection of CPS-K, but not LPS, induced the following characteristic histological changes in the regional lymph node. In the early stage there was a marked decrease in the number of small lymphocytes, accompanied by the appearance of scattered fragmented nuclei and infiltration of polymorphonuclear neutrophilic leukocytes, and in the late stage there was marked proliferation of macrophage-like cells and pyroninophilic cells. Histological changes in the thymus and spleen and changes in cell populations in the bone marrow and peripheral blood after CPS-K injection were essentially the same as after LPS injection. Since CPS-K has a much stronger adjuvant action on antibody response than does LPS, it is suggested that the characteristic histological changes in the regional lymph node after injection of CPS-K are closely related to its extraordinarily strong adjuvant action.     

Adjuvant Action of Capsular Polysaccharide of Klebsiella pneumoniae on Antibody Response

Study was made to clarify the experimental conditions for the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) to exhibit maximum adjuvant effect on antibody production to bovine serum albumin (BSA) in mice. To obtain the maximum primary antibody response and also the strongest priming for a secondary response to BSA, 1000 μg of CPS-K had to be injected intramuscularly into the same or adjacent site of BSA injection within the period of 1 hr before to 6 hr after the BSA injection. The optimum amount of BSA giving the maximum antibody response and also the strongest priming under these experimental conditions was 15 mg. In mice thus primed, an extremely high secondary response was induced by injecting 0.5 mg of BSA 30 days after the initial injection. The minimum amount of CPS-K, to exhibit a strong adjuvant action, was 100 μg, which was equal to the minimum amount to induce immunologic paralysis to a homologous antigen. Extremely large amounts, such as 100 to 300 mg per mouse of BSA, were also strongly immunogenic when injected together with paralyzing doses of CPS-K. In vitro admixture of BSA and CPS-K before injection did not strengthen adjuvant action of CPS-K. Alum-precipitated BSA mixed with CPS-K was not more immunogenic than native BSA mixed with CPS-K. Addition of Freund's complete adjuvant to an injection of BSA and CPS-K mixture did not enhance the adjuvant effect of CPS-K.     

Tumoricidal effect of human macrophage-colony-stimulating factor against human-ovarian-carcinoma-bearing athymic mice and its therapeutic effect when combined with cisplatin

The effect of human macrophage-colony-stimulating factor (hM-CSF) on tumoricidal activity was examined in athymic mice bearing the human ovarian cancer cell line, HRA, injected intraperitoneally (i.p.). The survival period and survival rate in the groups treated daily with hM-CSF were significantly longer (P<0.01) than in the untreated group. The peritoneal cell smears showed that ascitic tumor cells were markedly decreased in the hM-CSF-treated groups, and macrophages phagocytosed tumor cells, indicating a contact-mediated direct cytolysis. The combined therapeutic effects of cisplatin and hM-CSF on HRA-bearing athymic mice were also studied. The mean survival period was 25.4, 47.2, 42.4 and 67.4 days, respectively, in the untreated group, and in the groups treated with cisplatin alone, with hM-CSF alone, and with combined cisplatin and hM-CSF. The survival period and rate were significantly longer (P<0.01) in the group treated with combined cisplatin and hM-CSF than in those treated with cisplatin or hM-CSF alone, indicating the therapeutic effectiveness of the combined use. Morever, hM-CSF is effective against granulocytopenia due to bone marrow suppression caused by cisplatin. Our data demonstrate that hM-CSF administered i.p. has a tumoricidal activity in athymic mice bearing human ovarian cancer i.p., which is mediated by activated macrophages, and that the combined administration of cisplatin and hM-CSF has a significant therapeutic effect.     

Formation of Mononuclear Phagocyte (Macrophage) Colonies by Mouse Spleen Cells in Liquid Culture

The effect of the capsular polysaccharide of Klebsiella pneumoniae type 1 Kasuya strain (CPS-K) on the formation of macrophage colonies in cultures of mouse spleen cells was investigated by the liquid culture technique during an incubation period of 7–8 days. CPS-K markedly inhibited further generation of macrophage colonies when added at any time after the beginning of culture, whereas it showed no destructive effect on macrophage colonies which were already formed before its addition. When CPS-K was present throughout the incubation period, such a low concentration as 0.05 μg/ml significantly inhibited colony formation, and the intensity of its inhibitory effect depended on its dose in the range of 0.005–50 μg/ml. The inhibitory effect persisted even if CPS-K was washed out after spleen cells were kept in contact with 20 μg of CPS-K per ml at 37 C for 6 hr. It was found that the inhibitory effect of CPS-K on colony formation was not mediated through its action on T cells, B cells or macrophages, and that it was not due to the generation of suppressor cells capable of inhibiting colony formation. It is concluded therefore that CPS-K directly inhibits the proliferation of macrophage colony-forming cells. The active substance responsible for the inhibitory effect of CPS-K on colony formation is the neutral polysaccharide fraction of CPS-K.     

Microbial adjuvant and autoimmunity. II. Production of lesions in mice immunized with syngeneic tissue extracts together with the capsular polysaccharide of Klebsiella pneumoniae.

The target organs of mice immunized with the respective syngeneic tissue extracts together with the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) as a powerful adjuvant were examined for production of lesions. In 15 out of 24 mice injected three times or more with syngeneic eyeball extracts and CPS-K adjuvant at intervals approximately 30 days, severe eyeball lesions developed in which the normal structure was almost completely lost. A large part of the eyeball tissue of these mice was replaced by infiltration with cells such as lymphocytes, plasma cells and other mononuclear cells and by connective tissue. No definite eye lesions developed in mice injected with CPS-K alone, eyeball extracts alone or eyeball extracts emulsified in complete Freund's adjuvant (CFA). In all of mice injected four times with thyroid gland extracts and CPS-K at intervals of approximately 30 days, definite thyroid gland lesions were produced. In three out of five mice of this group, the thyroid lesions were so severe that the normal thyroid follicular structure was almost completely lost, and a large part of the thyroid gland was replaced by infiltration with lymphocytes, plasma cells and other mononuclear cells and in part by connective tissue. In only one out of five mice injected with thyroid gland extracts emulsified in CFA, definite but milder thyroid gland lesions developed. No definite thyroid lesions developed in the remaining four mice of this group and also in any of the mice injected with thyroid gland extracts alone or CPS-K alone. Repeated injections of lymphoid tissue extracts and CPS-K also induced pathological changes in the spleen and lymph nodes, although less marked than those in the cases of the eyes and thyroid gland. The most remarkable change was a decrease in numbers of small lymphocytes at the areas surrounding the central arterioles in the white pulp of the spleen and the post-capillary venules in the cortex of the lymph nodes. From these results it has been concluded that our system can provide new and useful models for autoimmune diseases in man.     

Adjuvant Action of Capsular Polysaccharide of Klebsiella pneumoniae on Antibody Response

The neutral fraction (neutral CPS-K) of Klebsiella pneumoniae capsular polysaccharide (CPS-K) from type 1, Kasuya strain, has already been reported as the active substance responsible for the strong adjuvant effect of CPS-K. The present results demonstrate that neutral CPS-K exhibits further common biological activities with lipopolysaccharide (LPS) isolated from Salmonella enteritidis. The intensity of the lethality in mice of neutral CPS-K by the intraperitoneal route is very similar to that of LPS. Its lethality for mice by the intravenous (i.v.) route is significantly stronger than that of LPS, because the degree of increase in the sensitivity to their lethality by i.v. challenge is smaller for LPS than for neutral CPS-K. The intensity of the pyrogenicity of neutral CPS-K in rabbits is approximately one-tenth of that of LPS as judged by the minimal pyrogenic doses and fever indices. The skin-preparatory potency of neutral CPS-K for the dermal Shwartzman phenomenon in rabbits is also approximately one-tenth of that of LPS compared on the basis of the minimal skin-preparatory doses. When injected i.v., neutral CPS-K exhibits a provocative effect on hemorrhagic reactions in skin sites prepared with neutral CPS-K or LPS.     

Effect of capsular polysaccharide of Klebsiella pneumoniae on host resistance to bacterial infections. I. Induction of increased susceptibility to infections in mice.

When Klebsiella pneumoniae capsular polysaccharide (CPS-K) from type 1, Kasuya strain, was injected intraperitoneally (i.p.) immediately before i.p. bacterial challenge, the survival time of mice infected with Salmonella enteritidis NUB 1 (virulent strain) was shortened and the mortality rate for mice infected with S. enteritidis NUB 31 (avirulent strain) was enhanced. The promotion of infection with S. enteritidis NUB 1 by CPS-K depended upon its dose, the effect of CPS-K being demonstrable up to as little as 0.2 mug per mouse. In the case of S. enteritidis NUB 31, the effect of CPS-K was detectable only when more than 20 mug per mouse was injected. As a result of enumeration of bacterial populations in the peritoneal washing, blood, liver and spleen, it was revealed that CPS-K promoted in vivo growth of S. enteritidis NUB 1 and NUB 31. In addition, CPS-K enhanced the mortality rate in mice infected with Streptococcus pyogenes or Streptococcus pneumoniae. The peak CPS-K effect on infection with S. enteritidis NUB 1 was seen when given immediately before bacterial challenge. The active substance responsible for the infection-promoting effect of CPS-K was neutral CPS-K, which is distinct from the O antigen and from acidic CPS-K (the type-specific capsular antigen). Preparations of neutral CPS-K isolated from the other three strains of K. pneumoniae exhibited a marked infection-promoting effect comparable with that of preparations from the Kasuya strain. Neutral CPS-K, with identical antigenicity to that from the Kasuya strain, has already been found to exert a strong adjuvant effect on antibody responses to various antigens in mice. No parallelism exists between infection-promoting activity and adjuvant activity of neutral CPS-K.     

Temperature Effects on Legionella pneumophila Killing by and Multiplication in Phagocytes of Guinea Pigs

We examined the effects of temperature on the interaction between Legionella pneumophila and phagocytes of guinea pigs. The body temperatures of guinea pigs infected with a sublethal dose (1.2 × 10⁴ CFU) or a lethal dose (1.0 × 10⁵ CFU) of L. pneumophila elevated from 38.4±0.15 C to 40.2±0.42 C or 40.3 ± 0.62 C, respectively. The intracellular bacterial killing by and bacterial proliferation in the phagocytes were examined at 33, 37, 40, and 42 C, using in vitro culture systems of peritoneal macrophages or polymorphonuclear leukocytes (PMN) of guinea pigs. In all the macrophages incubated at different temperatures, significant intracellular bacterial killings were observed at 4 hr after in vitro phagocytosis. After 24 hr of incubation, there was about a 100-fold increase of CFU and the number reached a maximum after 48 hr of incubation in the macrophages incubated at 42 C as well as 37 and 40 C, suggesting that macrophages support the intracellular bacterial growth in hyperthermia. In the PMN, L. pneumophila CFU 4 hr or 12 hr after the infection were significantly lower at 42 C than those at 37 C (P<0.05), indicating that the bactericidal capacity of PMN was enhanced at 42 C compared to 37 C. However, in all the PMN incubated at different temperatures, there were about 10-fold increases of CFU 24 hr after the infection, suggesting that PMN as well as macrophages support intracellular bacterial growth in hyperthermia. The extracellular bacterial growth was examined at 33, 37, 40, and 42 C in buffered yeast extract (BYE) broth or RPMI 1640 medium containing 50% guinea pig serum as a permissive or non-permissive liquid medium for the bacterial growth, respectively. Inhibition of bacterial growth in BYE broth at 42 C, and a decrease of CFU in RPMI 1640 medium containing 50% guinea pig serum at 42 C were observed. In conclusion, hyperthermia may be beneficial by restricting extracellular bacterial survival, but it exerts no beneficial effect on the restriction of intracellular bacterial growth in phagocytes, though PMN showed enhanced initial killing at 42 C. These results suggest that fever, or hyperthermia itself, may not largely contribute as a nonspecific host defense early in the course of legionellosis.     

Antimetastatic effect of immunomodulators from Nocardia opaca in mice and rats activation of peritoneal macrophages by these fractions

Summary Nocardia delipidated cell mitogen (NDCM), a particulate fraction prepared from Nocardia opaca, injected i.p. in an oil/water emulsion to F6 rhabdomyosarcoma-bearing rats, inhibited the development of pulmonary metastases; 6 out of 10 rats were protected. Repeated i.p. administration of emulsified NDCM and of two other compounds, a Nocardia water soluble mitogen (NWSM a hydrosoluble fraction) and purified cell walls (CW, an insoluble macromolecular fraction) in Lewis lung carcinoma (LLC)-bearing mice resulted in a significant reduction of lung metastases. The efficiency of these fractions was enhanced by association with monokines. A combination regimen of NDCM, NWSM, and CW (100 g/0.1 ml) and monokines (0.1 ml), injected i.p. in LLC-bearing mice, yielded a greater antimetastatic effect than either therapy alone. Peritoneal macrophages from mice which had been injected i.p. with NWSM or CW, when triggered either by TPA (tetradecanoyl phorbol acetate) or by zymosan, released large quantities of hydrogen peroxide and had a high rate of glucose consumption. These macrophages were activated as judged by their cytostatic activity against syngeneic P815 mastocytoma growth; they expressed biochemical markers which have been reported to characterize the activated state. Incubation of thioglycollate-elicited peritoneal macrophages with NWSM, and monokines for 72 h resulted in a cytotoxic activity against labeled LLC cells; addition of macrophage activating factor significantly increased the cytotoxic capacity of these macrophages. In view of this we postulate that the antimetastatic effect of soluble and insoluble N. opaca fractions and monokines might be mediated by activated peritoneal macrophages.     

In vivo studies of the early, peritoneal, cellular and free radical response in rats infected with Fasciola hepatica by flow cytometric analysis

Early recruitment of the peritoneal cell population was observed during migration of newly excysted juvenile flukes. The peritoneal lavages were examined for T cells, cytotoxic NK cells (CNK) and free radicals production of rats at an early stage of infection by Fasciola hepatica. Male Sprague–Dawley rats were infected with 50 metacercariae of F. hepatica and non-infected controls were euthanized 2, 4 and 7 days post infection (d.p.i.), respectively. The peritoneal fluid of experimental animals was analyzed by flow cytometry to estimate cell phenotypes. The peritoneal areas were infiltrated by inflammatory cells, particularly from numerous neutrophils, eosinophils and CD4+ lymphocytes, which were significantly higher for infected rats than non-infected. CNK cells dominated in the peritoneal fluid of infected rats as early as 2 d.p.i. However, after 4 d.p.i. there was a decreased level of CNK cells which may indicate a change from a cytotoxic natural killer (NK) to a regulatory NK response. The challenged group generated very high in vivo levels of inducible nitric oxide (NO) from eosinophils. Superoxide expression was very high in macrophages and neutrophils compared to the uninfected control. In conclusion, our studies suggest that early F. hepatica infection could directly affect lymphoid cells and generate a high in vivo NO production by eosinophils in the peritoneal cavity. Moreover juvenile flukes could stimulate the macrophages and neutrophils to generate H₂O₂ radicals. The host parasite interactions resulting from immune response regulation by effector cells and immune evasion are discussed.     

Correlation between increase in Ia-bearing macrophages and induction of T cell-dependent antitumor activity by Lactobacillus casei in mice

Summary When Lactobacillus casei YIT 9018 (LC 9018) or Corynebacterium parvum, known to be immunomodulators possessing antitumor activity, were injected i.p. into BALB/c mice, peritoneal exudate macrophage Ia antigen detected by indirect immunofluorescence method was expressed on their cell surface, but it was not expressed following the injection of 10% proteose peptone, an inflammatory agent, or Lactobacillus fermentum YIT 0159 (LF 0159), which have no antitumor activity. The percentage and absolute number of Ia-positive peritoneal macrophages were maximum on the 7th day after the injection of LC 9018. Immunization by injection of Meth A fibrosarcoma cells treated with mitomycin C (MMC-Meth A) 7 days after LC 9018 injection suppressed the growth of Meth A implanted i.p. 14 days after MMC-Meth A injection. A shorter interval between the injections of LC 9018 and MMC-Meth A did not allow suppression of Meth A growth. These results showed that the increase in Ia-positive macrophages in the peritoneal cavity coincided with the effective interval for induction of the antitumor activity by LC 9018. The antitumor activity induced by injections of LC 9018 and MMC-Meth A did not affect the growth of RL l leukemic cells, syngeneic to BALB/c mice. Neutralization (Winn type) tests showed that peritoneal T lymphocytes possessed tumor cytotoxicity and that the antitumor capacity was reduced by in vivo treatment with anti I-A^d monoclonal antibody simultaneously with and 1 day prior to MMC-Meth A injection. These results indicate that LC 9018-induced Ia-positive macrophages, which first encounter a tumor antigen in the peritoneal cavity, play an important role in the in vivo induction of tumor specific T cell-mediated antitumor immunity.     

Different effects of the capsular polysaccharide of Klebsiella pneumoniae on the functions of various subpopulations of B cells in the immune response of mice to T-dependent antigen.

Using the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) as a polyclonal B-cell activator (PBA) and sheep red blood cells (SRBC) as a T-dependent antigen, we studied the effects of PBA on the functions of various subpopulations of B cells in the immune response of mice to T-dependent antigen. Antibody-forming cells (AFC) of IgM and IgG types were estimated as anti-SRBC direct and indirect plaque-forming cells (PFC), and the B cells with precursor activities involving generation of AFC and supplementing new B cells as rosette-forming cells (RFC) of the B-cell type. Stimulation of normal mice by CPS-K caused a definite increase in the number of direct PFC but not in that of indirect PFC and RFC in the spleens. The responsiveness of spleen cells of CPS-K-treated mice to generate PFC and RFC responses to a subsequent injection of SRBC was lower than that of CPS-K-untreated normal mice. In this case, the responsiveness to generate RFC and indirect PFC was inhibited more strongly by CPS-K than that to generate direct PFC. When CPS-K was injected into normal mice simultaneously with SRBC, CPS-K never decreased but increased the levels of PFC and RFC responses to SRBC. In the spleens of SRBC-primed mice, the number of RFC was markedly decreased following injection of CPS-K, the number of direct PFC was increased only slightly and the number of indirect PFC was increased very slightly. The responsiveness of spleen cells of these CPS-K-treated SRBC-primed mice to generate secondary PFC and RFC responses to a subsequent injection of SRBC was much lower than that of CPS-K-untreated SRBC-primed mice. In this case, the responsiveness to generate the secondary RFC and indirect PFC responses was more strongly inhibited by CPS-K than that to generate the secondary direct PFC response. When CPS-K was injected into SRBC-primed mice simultaneously with the secondary injection of SRBC, there were marked decreases in the level of the secondary RFC response and slight decreases in that of the secondary indirect PFC response, but little change in that of the secondary direct PFC response. From these results it has been concluded that CPS-K provides the positive signal (the minor action) and the negative signal (the major action) to various subpopulations of B cells functioning at various stages of the immune response to T-dependent antigen in different ways, and acts to regulate the levels of B-cell responses to the antigen-mediated positive signal.     

Induction of cytotoxicity of peritoneal exudate cells by agrimoniin,a novel immunomodulatory tannin of Agrimonia pilosa Ledeb

Summary The cytotoxic activities of the PEC after an i.p. injection of agrimoniin, a tannin contained in Agrimonia pilosa Ledeb. were studied. The plastic nonadherent PEC had significantly higher NK cell activity than the untreated control, and the adherent PEC were cytostatic toward MM2 and MH134 cells. The adherent PEC did not cause tumor cell lysis by themselves, but were cytolytic against MM2 cells in the presence of anti-MM2 sera. In the course of these effects of PEC after the i.p. injection of agrimoniin, the augmentation of NK cell activity was the earliest reaction, reaching a peak at 2 days after the injection; then, cytostatic activity increased. The induction of antibody-dependent cell lytic activity was a later reaction, which reached a peak at 6 days after the injection. Abbreviations used: PEC, peritoneal exudate cells; NK cell, natural killer cell; ADCC, antibody-dependent cell-mediated cytotoxicity; PMN, polymorphonuclear leukocytes