The two-step leukocyte migration inhibition factor (LIF) assay. Its use in evaluation of cellular immune function in patients with immunodeficiency diseases.

Administration of interferon (IF) inducers to mice enhances the uptake of antibody-coated erythrocytes (EA) by peritoneal macrophages. To evaluate the role of induced IF in macrophage activation, serum IF titers and phagocytosis of EA by macrophages were determined in recombinant inbred (RI) mice inoculated with Newcastle disease virus (NDV). RI strains carry either a “high” or a “low” response allele for a gene that controls their IF titers induced by NDV. C × BH and C × BK strains, both high responders for IF induction, were also found to be high responders for enhancement of phagocytosis by NDV. Conversely, strains C × BD, C × BI and C × BJ, low responders for IF induction, were also shown to be low responders for phagocytosis of EA by macrophages. In contrast, phagocytosis of EA by macrophages from high responder C × BH mice and low responder C × BD mice was similarly enhanced by the administration of a lipopolysaccharide. When data from all NDV-inoculated mice were analysed, a significant correlation was obtained between serum IF titers and the percentage of macrophages that ingested four or more EA. The results are compatible with two main possibilities: (i) IF induced by NDV enhances phagocytosis of EA by macrophages; or (ii) a macrophage-activating factor different from IF is released together with IF in response to NDV and the activity of this factor correlates with serum IF titers.     

Enhanced Production of Virus-Inhibiting Factor (Interferon) in Human Diploid Cells by Ultraviolet Irradiation and Temperature Shift-Down after Stimulation with Newcastle Disease Virus

The production of the virus-inhibiting factor or interferon (IF) was highest in cells incubated at 37 C after inoculation with Newcastle disease (ND) virus and decreased as the incubation temperature was lowered. Shift-down of incubation temperature to 32 C or 34 C after incubation at 37 C for 4–7 hr enhanced IF production in cell cultures stimulated with ND virus, as compared with cultures incubated continuously at 37 C. Shift-down to 32 C after incubation at 37 C for 6 hr. was optimal for this enhancement of IF yield. Enhanced IF production was also observed in cell cultures irradiated by ultraviolet light 4–7 hr after stimulation with ND virus.     

Assessment of Fc (IgG) receptor function in adherent murine peritoneal macrophages using soluble model immune complexes

Fc (IgG) receptor function on thioglycolate-elicited adherent peritoneal macrophages from normal mice (C3H/HeN) and mice with abnormal activation of macrophages (C3H/HeJ) was studied. For this, soluble model immune complexes composed of five to six mouse anti-dinitrophenyl (DNP) IgG antibodies (heavy oligomers) were incubated with adherent macrophages cultured for either 2 or 48 hr. Cells from both strains bound similar amounts of oligomers at both 2 and 48 hr of culture (about 10⁶ IgG protomers/cell). Uptake of oligomers measured at 37 °C was also similar at 2 and 48 hr of culture. Endocytosis of oligomers occurred rapidly with about 50% of surface-bound complexes being internalized within 30 min, but there was no evidence for catabolism of the endocytosed material. There was a 50% decrease in the ability of macrophages to bind oligomers following a prior exposure to soluble complexes. Return to maximal binding after the preincubation with soluble complexes was incomplete for cells of both strains at both 2 and 48 hr of culture even after 2 hr at 37 °C.     

Induction of interferon production in mouse spleen cell cultures by corynebacterium parvum.

Spleen cells of CS7BL/6 mice produced considerable amounts of interferon (IF) in vitro when tested 5 to 20 days after injection of killed Corynebacterium parvum. Interferon was also produced when C. parvum was added in vitro to spleen cell cultures of previously untreated mice. High levels were detected after 1 day of culture with some increment during subsequent days. In a number of experiments IF was also produced in untreated control cultures but only after prolonged cultivation and not after 1 day. The highest levels of IF were usually obtained when spleen cells of C. parvum-treated mice were challenged with additional C. parvum in vitro. The IF induced by C. parvum shared certain physicochemical properties with a tested immune IF and was not neutralized by an antiserum raised against a type I IF. Spleen cells of nu/nu mice and spleen cells treated by anti-θ serum plus complement did not differ from their respective controls, indicating that production of IF did not require mature T lymphocytes. Removal of B lymphocytes by nylon wool columns abolished the capacity of spleen cells to produce IF. When spleen cells were freed of adherent cells by the use of plastic surfaces, they no longer produced IF. Peritoneal exudate macrophages (PEC), which by themselves did not produce IF, in small numbers reconstituted nonadherent spleen cells. Nylon column-treated spleen cells, however, could not be restored by PEC. It is concluded that IF upon challenge with C. parvum is produced by B lymphocytes and requires the help of macrophages.     

Production of Tumor Necrosis Factor-α in Granulocytopenic Mice with Pulmonary Candidiasis and Its Modification with Granulocyte Colony-Stimulating Factor

In the present study, a lethal model of pulmonary candidiasis was established using granulocytopenic mice with cyclophosphamide. These mice started to die 1 day after infection and had all died within the next 48 hr. The counts of live C. albicans in the lung gradually increased with time, while the organisms were quickly eliminated in the normal mice. From the histology and measurements on bronchoalveolar lavage fluid (BALF), polymorphonuclear cells (PMN) response was almost zero up to 24 hr, and then a weak but significant response was observed at 48 hr, while a marked accumulation of PMN was detected from as early as 6 hr in normal mice. In contrast, macrophages had accumulated in BALF by 48 hr in granulocytopenic mice, but not in normal mice. Both in serum and BALF, a considerable level of tumor necrosis factor-α (TNF-α) was detected from 6 hr, peaking at 24 to 48 hr, while in normal mice the quantity was under the detection limit in serum and very low in BALF. The effects of administering granulocyte colony-stimulating factor (G-CSF) on these parameters were next examined. G-CSF significantly prolonged the survival time of granulocytopenic mice, promoted the clearance of organisms through increasing the counts of PMN in the lung, and strongly inhibited the production of TNF-α both in BALF and serum. These results suggest that this cytokine does not protect them, but plays some role in their death due to candidial infection in granulocytopenic mice.     

Endogenous interferon specifically regulates Newcastle disease virus-induced cytokine gene expression in mouse macrophages.

In macrophages from inbred mice, the magnitude of the interferon (IFN) response to Newcastle disease virus (NDV) infection is under genetic control of the If-1 locus, which carries the allele for either high (h) or low (l) IFN production. Here, we report that the activity of genes within the If-1 locus is influenced by macrophage-derived endogenous IFN. In addition to various other biological effects, we observed that endogenous IFN specifically downregulated NDV-induced IFN and interleukin 6 production. Preculture of bone marrow-derived macrophages (BMM) from BALB/c (If-1l) mice in macrophage colony-stimulating factor plus anti-IFN-beta provoked a 30- to 50-fold increase in NDV-induced cytokine production compared with induced control cultures in macrophage colony-stimulating factor alone, whereas only a 4- to 6-fold increase was observed in anti-IFN-beta-treated BMM from C57BL/6 (If-1h) mice. This resulted in nearly complete abrogation of the genetically determined difference in the response to NDV. The increase was specific for NDV and was marked by strong additional activation of IFN-alpha genes. Studies using BMM from B6.C-H28c If-1l congenic mice gave results identical to those obtained with BALB/c BMM. Addition of 20 IU of recombinant IFN-alpha 4 to anti IFN-beta-treated macrophages from B6.C-H28c mice 20 h prior to NDV infection strongly downregulated the IFN-alpha, IFN-beta, and interleukin 6 responses. The genetic difference between macrophages from If-1h and If-1l mice was thus reestablished, since the same treatment caused only weak reduction of NDV-induced cytokine gene expression in BMM from C57BL/6 mice. These data suggest that the If-1h and If-1l alleles harbor IFN-inducible genes that, following activation, specifically suppress subsequent cytokine gene expression in response to NDV.     

In Vitro Studies on the Mechanism of Acquired Resistance to Tuberculous Infection

The relationship between lymphocytes and macrophages in cellular immunity against tuberculous infection was studied by means of an in vitro cell culture system without addition of streptomycin. The peritoneal macrophages were obtained from normal mice or mice immunized with heat-killed tubercle bacilli in paraffin oil, boosted with live BCG and infected with H37Rv cells in vitro. The infected monolayers of macrophages were cultivated for 48 hr with immune lymphoid cells obtained from immunized mice. The intracellular growth of H37Rv cells 3,5 and 7 days after infection was examined by counting tubercle bacilli within infected macrophages under a microscope. 1) The increase of bacilli within macrophages derived from immunized mice was slightly smaller than that in normal macrophages. 2) The addition of immune lymph node cells to the macrophage monolayers resulted in a marked decrease in the number of bacilli within both normal and “immune” macrophages. Conversely, normal lymph node cells exhibited an enhancing effect on the intracellular bacillary growth. 3) Immune lymph node cells showed a higher capacity to cause macrophages to suppress intracellular growth of bacilli than that of splenic lymphoid cells or thymocytes after addition to macrophage monolayers. 4) The treatment of lymphoid cells with inhibitors of protein synthesis, cycloheximide or streptovitacin A, resulted in a remarkable reduction of the ability of sensitized lymphocytes to cause macrophages to suppress multiplication of intracellular bacilli.     

In vitro production of immune interferon by spleen cells of mice immunized with herpes simplex virus.

In Vitro production of Immune Interferon (IF) in response to Herpes Simplex Virus (HSV) antigen by sensitized spleen cells from C57B1/6 (B6) mice could be detected as early as 3 and for at least 20 days after ip infection of HSV. Maximal levels of IF were produced after 10 hr of culture, but there was no decay of activity when supernatants were sampled during the subsequent 3 days. The IF produced shared certain known properties of immune IF and was not neutralized by an antiserum against viral-induced (type I) IF. DBA/2 (D2) mice which are considerably more sensitive in vivo to HSV infection than B6 mice produced significantly lower amounts of immune IF in the in vitro test system regardless whether high or low doses of virus were injected. The same pattern of results was observed when resistant B6D2F1 hybrid mice were compared with $\text{A}\text{J}$ and Balb/c mice which are about as sensible to ip infection with HSV as DBA/2 mice in our laboratory. These results demonstrate a remarkable defect of in vitro cellular immunity in mice susceptible to a virus infection when compared with resistant mice. Conceivably, a similar defect may be of in vivo relevance.     

Participation of macrophages in enhanced in vitro immune interferon (IFN gamma) production with mouse spleen cells

IFN gamma production in cultures of spleen cells obtained from mice sensitized with TH69, a live Streptococcus faecalis preparation, was examined to determine how macrophages participate. It was demonstrated that sensitized spleen macrophages participated in enhanced IFN gamma production by T cells at an early stage (0-6 hr) of incubation, and that this production is mainly dependent on Ia-bearing macrophages In the reconstitution experiments where different combinations of spleen macrophages and T cells obtained from mice sensitized with TH69, OK-432, and BCG were used, T cells required that the identity between the sensitizing organisms in vivo and the stimulating organisms in vitro be the same for enhanced IFN gamma production while macrophages did not. Macrophage-mediated production of IFN gamma appears to be genetically restricted because IFN gamma was only produced in cultures where the H-2 region of macrophages and T cells matched. Further examination revealed that for macrophages to participate in enhanced IFN gamma production, first contact between cycloheximide-treated macrophages and T cells was required. Second, enhanced IFN gamma production occurred when culture supernatants of macrophages obtained from sensitized spleen cells were added to T cells. However, the addition of culture supernatant obtained from sensitized peritoneal macrophages resulted in inhibition of IFN gamma production. These results clearly showed the crucial role of macrophages in enhanced IFN gamma production by spleen T cells in vitro.     

Optimum Culture Conditions for Production of Exfoliative Toxin by Staphylococcus hyicus

Optimum culture conditions for the production of exfoliative toxin by Staphylococcus hyicus (shET) were examined. High shET activity was obtained from the culture filtrate of HI and TY broth inoculated with S. hyicus. The pH in these two media ranged from 7 to 8.5 during bacterial culture, while the lowest pH in TS and BHI broth was less than 6. shET activity in the culture filtrate from TY broth inoculated with 10⁷ CFU of S. hyicus per ml was higher than that in TY broth inoculated with 10⁶ and 10⁸ CFU of bacteria per ml. When shET activity in the culture filtrate was measured under various shaking conditions, the culture filtrate shaken at 75 oscillations per min had the highest shET activity of the five shaking conditions. shET activity of the culture filtrate of TY broth to which protease inhibitor had been added was the same as that of TY broth without inhibitor. shET activity in a shaking culture in an Erlenmeyer flask was also the same as that in sac culture and that in shaking culture using a shaking (Sakaguchi) flask. shET activity in TY broth supplemented with 100 mM glucose was significantly lower than that in TY broth without glucose. Based on the above results, the optimum culture conditions for the production of shET were as follows: inoculation of 3 × 10⁹ CFU of S. hyicus strain P-1 into 300 ml of TY broth in a 2,000-ml Erlenmeyer flask, and incubation at 37 C with shaking at 75 oscillations per min. Then shET activity of the culture filtrate under appropriate culture conditions was measured after various incubation periods. shET activity was detected 6 hr after inoculation, reached the maximum (2⁵³ exfoliative unit/0.1 ml) at 16 hr and decreased between 20 and 48 hr. Thus, the optimum incubation period was determined to be 16 hr. Then the optimum concentration of ammonium sulfate for isolation of shET from the culture filtrate under appropriate culture conditions was examined. The greatest shET activity was obtained from the fraction salted out with 90% saturated ammonium sulfate. Thus, the optimum concentration of ammonium sulfate for the isolation of shET was determined to be 90% saturation.     

Nitric oxide production and iNOS mRNA expression in mice induced by repeated stimulation with live Fusobacterium nucleatum

There have been few studies on the detection of direct nitric oxide (NO) production and interferon-gamma (IFN-gamma) in vivo without using animal cell culture. We questioned whether NO and IFN-gamma could be produced at the site of infection. The peritoneal cavity of mice was used as the local infection model. NO and IFN-gamma in abdominal washings from these mice were measured directly at various times after injection of Fusobacterium nucleatum, a gram-negative rod periodontal pathogen. The mice were divided into three groups: those treated with live bacteria (LB), those treated with heat-killed bacteria (HKB) and those untreated: normal (N). These mice were compared on the basis of cell filtration, NO and IFN-gamma production by injection of live bacteria (LFn) or heat-killed bacteria (HKFn). In the LB group, the total cell number increased corresponding to an increase in neutrophils after injection of both LFn and HKFn. A low level of NO was constantly produced in abdominal washings, but a significant amount of NO was synthesized in the LB group only 12 hr to 24 hr after injection of LFn. At the same time iNOS enzyme activity and iNOS mRNA expression were detected. IFN-gamma, which may contribute to enhance NO production, was also secreted at a high level from peritoneal exudate cells (PEC) at 12 hr and 24 hr in the LB group by stimulation of LFn. At 12 hr and 24 hr, iNOS positive cells in the LB group by infection of LFn were identified and shown to contain mostly macrophages. These findings indicate that live bacteria play important roles in NO production by macrophages. It is suggested that NO may contribute to the inflammatory response during F. nucleatum infection in periodontitis.     

Production of Mouse Interferon with High Titers in a Large-Scale Suspension Culture System1

L-MS cells, adapted to grow in suspension, were obtained by selection from a high interferon (IF)-producing line of mouse L cell monolayers. A large volume of L-MS cells (20 liters or more; 1–2 × 10¹⁰ cells) was readily grown in a spinner culture, retaining their ability to produce high yields of IF in serum-free medium following induction with Newcastle disease virus (NDV). The optimal condition for the production of IF in the suspension culture of L-MS cells was established. The system also proved itself to be susceptible to IF induction by polyinosinic-polycytidylic acid (Poly I · Poly C) and by NDV inactivated with ultraviolet light (NDV-UV). By employing the present system, large quantities of mouse IF of a high titer could be routinely prepared.     

Different Sensitivity of Complement to Salmonella typhimurium Accounts for the Difference in Natural Resistance to Murine Typhoid between A/J and C57BL/6 Mice

The difference in natural resistance to Salmonella typhimurium between S. typhimurium-resistant A/J mice and S. typhimurium-susceptible C57BL/6 mice was analyzed. In both strains, the growth of S. typhimurium was controlled in the spleen until 48 hr of infection, while serum C3b levels were increased in A/J mice immediately after infection but not in C57BL/6 mice. Incubation of A/J mouse serum with S. typhimurium or its lipopolysaccharide (LPS) generated sufficient amounts of C3b, but that of C57BL/6 mouse serum with them did not. A/J macrophages had higher intracellular killing activity in vitro than did C57BL/6 cells against S. typhimurium pre-opsonized with each corresponding fresh serum. However, the cells from both mice exhibited a similar level of killing activity against S. typhimurium pre-opsonized with fresh A/J serum or rabbit complement. The resistance of C57BL/6 mice was significantly increased by opsonizing S. typhimurium with fresh A/J serum or rabbit complement before inoculation. The serum level of interferon-γ (IFN-γ) in A/J mice was 2.7 times as high as in C57BL/6 mice at 48 hr post-infection. Recombinant murine IFN-γ enhanced the intracellular killing activity of macrophages from both mice when S. typhimurium was pre-opsonized with fresh A/J serum but not with fresh C57BL/6 serum. These findings suggest that A/J macrophages exhibit maximal killing activity against A/J serum-opsonized S. typhimurium in vivo when the cells are activated with IFN-γ. Therefore, the rapid and sufficient activation of complement by Salmonella LPS may render A/J mice more resistant against murine typhoid.     

Changes in the activities of enzymes, especially lactate dehydrogenase, in endotoxin-poisoned mice.

Carbohydrate metabolic disorders were investigated by means of enzyme activities in mice (ddYS) injected intraperitoneally with endotoxin from Salmonella typhimurium. The mice exhibited hyperglycemia 2 hr after administration of endotoxin and hypoglycemia at 18 hr. Activity of hepatic phosphorylase in the endotoxin-poisoned mice at 2 hr was slightly higher than that in the control mice, whereas the level of this activity was not significantly different from that in the controls after 18 hr. Glucose-6-phosphatase activity in the poisoned mice increased by 2 hr after injection, but decreased by 18 hr. The blood lactate level in the poisoned mice transiently decreased until 3 hr after injection, but the mice exhibited a marked lactacidemia by 8–24 hr. The time course of lactate dehydrogenase (LDH) activity in various tissues was examined in mice injected with endotoxin. The activity of hepatic LDH declined to about two-thirds of that of the control mice after 16 hr, and was restored to the normal level by 48 hr. LDH in the cardiac muscle was markedly activated (by about 37%) in the early period (3–6 hr) after administration of endotoxin, and this activity gradually declined. However, the activity of LDH in the skeletal muscle showed a tendency similar to the rise and fall of the levels of blood lactate, and was restored to the normal value at 72 hr after injection. On the other hand, the serum LDH activity in the poisoned mice increased about 1.75-fold by 16 hr after injection. Mice injected with endotoxin exhibited a leakage of the isozymes LDH 3 and 5, but the origin of the leakage is uncertain. Similar elevation in the activities of transaminases (GPT and GOT) and malate dehydrogenase was found in the mouse serum at 16 hr after injection of endotoxin.     

Suppression of lymphokine production: I. Macrophage-mediated inhibition of MIF production

Macrophages have been found to suppress the in vitro production by stimulated T lymphocytes of a lymphokine, migration inhibitory factor. When macrophages isolated from primary MSV-induced tumors were added to antigen-stimulated MSV-immune spleen cells, a complete suppression of MIF production was observed. This suppression was nonspecific, since MIF production by antigen-stimulated alloimmune spleen cells and by PHA-stimulated normal spleen cells was also inhibited. Suppressor macrophages could also be induced by inoculation with Corynebacterium parvum, whereas light mineral oil-induced peritoneal macrophages had no detectable effect on MIF production. The failure to detect MIF in the supernatants of stimulated cultures containing activated macrophages appeared to be due to inhibition of lymphokine production rather than to absorption or inactivation of MIF or to interference with the assay for detection of MIF. Macrophages were able to suppress MIF production only when added during the first 4–5 hr of culture and they had no effect when added later. These data show that activated macrophages can nonspecifically suppress lymphokine production and that this appears to be due to inhibition of an early step in lymphocyte stimulation.     

The participation of nitric oxide in peritoneal exudate cell cytotoxicity of mice by Fusobacterium nucleatum

Previously we reported that mice infected recurrently with live Fusobacterium nucleatum(Fn) synthesize a significant amount of NO between 12 hr and 24 hr after Fn injection. Fn is a gram-negative rod periodontal pathogen. NO could not be induced by heat-killed Fn or in untreated mice. This NO, derived from the iNOS after infection of live Fn, was not involved in the Fn reduction because Fn clearance occurs within 6 hr. We investigated in this study whether this NO was involved in cytotoxicity in peritoneal exudate cells (PEC) in vivo. The mice were divided into two groups: those treated with live Fn (immune) and those left untreated (normal). PEC number, NO production, detection of apoptosis or death cells, and lactate dehydrogenase (LDH) release activity after injection of live Fn were compared in these groups. In the immune group, the increase of the total cell numbers caused by an increase in neutrophils, a significant NO production only after injection of live Fn at 24 hr and identification of iNOS positive macrophages were confirmed. The apoptotic rate was very low and did not increase at 24 hr in vivo. Therefore, apoptosis was seldom relevant to the NO. In the immune group, LDH activity was remarkable high at 24 hr, and dead cells and macrophages phagocytizing cell fragments increased at the same time. Pretreatment of L NMMA, an inhibitor of iNOS, suppressed LDH activity and cell death. Therefore, the NO derived from the iNOS is involved in the cytotoxicity. These results suggest that NO may contribute to the inflammatory response during Fn infection in periodontitis.     

Dietary conjugated linoleic acid decreased cachexia,macrophage tumor necrosis factor-alpha production,and modifies splenocyte cytokines production

The effect of conjugated linoleic acid (CLA) on macrophage functions were studied in vitro, in vivo, and ex vivo. In RAW macrophage cell line, CLA (mixed isomers) was shown to inhibit lipopolysaccharide (LPS)-stimulated tumor necrosis factor-alpha (TNF-alpha) production. Two CLA isomers, c9,t11 and t10,c12, were tested on RAW cells and it was found that the c9,t11 was the isomer responsible for the inhibition of LPS-induced TNF-alpha production. BALB/c mice were used to determine the effect of dietary CLA on body weight wasting and feed intake after LPS injection. CLA was protective against LPS-induced body weight wasting and anorexia. Plasma TNF-alpha levels after LPS injection were lower in the CLA group compared with the corn oil-fed control group 2 hr post-LPS injection. In a separate experiment, 30 mice were fed a CLA-supplemented diet or a corn oil-supplemented diet for 6 weeks and peritoneal resident macrophages were obtained for measuring TNF-alpha and nitric oxide production after in vitro exposure to interferon-gamma (IFN-gamma) and/or LPS. TNF-alpha production was not found to be different in peritoneal macrophages from mice fed the dietary treatments, but less nitric oxide was produced in macrophages from CLA-fed mice upon stimulation when compared with macrophages from control-fed mice. Splenocytes were also collected from the mice fed the dietary treatments and stimulated to produce cytokines in culture. Supernatant was used to run cytokine enzyme-linked immunoabsorbant assays. Interleukin-4 (IL-4) was decreased in CLA-fed mice when splenocytes were stimulated with concanavalin A (Con A) for 44 hr; however, IL-2 and the IL-2-to-IL-4 ratio were elevated.     

Macrophage activation for tumor cytotoxicity: induction of tumoricidal macrophages by supernatants of PPD-stimulated Bacillus Calmette-Guérin-immune spleen cell cultures.

Resident peritoneal macrophages from normal mice were activated for tumor cytotoxicity in vitro by co-cultivation with BCG1-immune spleen cells and PPD and by incubation with supernatants of PPD-stimulated BCG-immune spleen cell cultures (lymphokine supernatants). Lymphokine activation of macrophages occurred in unfractionated PC suspensions as well as in macrophage monolayers depleted of nonadherent PC. Tumor cytotoxicity by lymphokine-activated macrophages was evident by 3 to 4 hr of culture in active supernatants, reached maximal levels by 8 to 12 hr. and was absent by 20 hr. Continued incubation in lymphokines or even re-exposure after washing did not maintain macrophage cytotoxicity. The capacity of normal resident macrophages to be activated by lymphokines in vitro progressively decreased and was absent by 20 hr in culture. This decrease did not necessarily reflect cell death; macrophage viability as estimated by exclusion of trypan blue or by phagocytic responses did not change over the 20-hr culture period. The short lived nature of both macrophage tumoricidal capacity and capacity of precursor cells to be activated by lymphokines may function as negative feedback mechanisms in immune reactions.     

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

In normal mice, the total count of peritoneal leukocytes was markedly decreased after intraperitoneal (i.p.) injection of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) depending on the dosage injected. This decrease was mainly due to the depletion of macrophages, and a decrease in the number of lymphocytes occurred to a lesser extent. CPS-K in relatively smaller doses mobilized polymorphonuclear neutrophilic leukocytes (PMN) into the peritoneal fluid but it decreased them transiently in larger doses. In mice infected i.p. with a virulent strain of Salmonella enteritidis, there was an abundant emigration of PMN into the peritoneal fluid. When 200 μg of CPS-K was injected i.p. immediately before bacterial challenge, emigration of PMN was markedly delayed for 48 hr after infection. Associated with this suppressed emigration of PMN, the numbers of macrophages and lymphocytes in the peritoneal fluid were significantly less in mice treated with CPS-K than those in untreated control mice for 48 hr after infection. The numbers of both cell-associated and extracellular bacteria in the peritoneal fluid were markedly greater in mice treated with CPS-K than those in untreated control mice. In both in vivo and in vitro experiments, ingestion of bacteria by macrophages and PMN was not blocked by CPS-K or neutral CPS-K, the active substance responsible for the infection-promoting effect of CPS-K. It appeared that CPS-K somehow impaired the intraphagocytic bactericidal activity.