Behavior of a vigorous alpha- or beta-hemolysin-producing strain of Staphylococcus aureus in the cutaneous tissue of mice.

Two strains of Staphylococcus aureus were examined for behavior in the cutaneous tissue of mice by the fluorescent antibody technique, hematoxylin and eosin staining. When about 10(8) viable cells of an alpha-hemolysin-producing strain (Wood 46) were inoculated subcutaneously into a mouse, they multiplied in the subcutaneous tissue of the mouse and gradually entered the corium to produce alpha-hemolysin and nuclease. Edematous and necrotic lesions were observed in the cutaneous tissue where the organisms had multiplied. When 10(8) viable cells of a beta-hemolysin-producing strain (Kitami 3-9D) were inoculated into a mouse, they multiplied within a narrow extent surrounded mainly by infiltrating leukocytes and produced mainly beta-hemolysin. The changes of cutaneous tissue were weaker in mice inoculated with Kitami 3-9D strain than in mice inoculated with strain Wood 46. When 10(6) viable cells of both strains were inoculated into mice, they were phagocytized by leukocytes. Neither multiplication of organisms nor production of any active extracellular substance was observed in these mice. Edema, degeneration, and necrosis were also noticed in the cutaneous tissue of mice inoculated with alpha- and beta-hemolysin. In addition, the infiltration of leukocytes was inhibited mainly by alpha-hemolysin.     

Acute oral intragastric pathogenicity and toxicity in mice of <Emphasis Type="Italic">Paecilomyces fumosoroseus</Emphasis> isolated from whiteflies

Paecilomyces fumosoroseus, monospore culture EH-506/3, isolated in Mexico from Bemisia tabaci whitefly was tested for acute oral intragastric pathogenicity and toxicity in CD-1 mice. Animals were inoculated by gavage with only one dose (10⁸ conidia/animal) of viable (72 mice), heat-killed (24 mice) fungus and compared to 18 control mice. Clinical observations were done daily; mycological and histological tests were performed during necropsies at days 3, 10, 17, and 21 after the inoculation. No mice were clinically ill or died. At the end of the study, their mean weight corresponded to healthy adults. Positive fungal cultures of feces were obtained only 24 h after inoculation. Positive cultures were found in 15 out of 360 organs (liver, spleen, kidney, brain, lung) in 12 of 72 mice inoculated with viable conidia. Gross pathology exhibited splenomegaly and liver paleness in mice inoculated with viable and heat-killed fungus. Non-germinated conidia were observed in studied organs, without any pathological tissue reaction, suggesting no mycological or histopathological evidence of fungal multiplication. The fungus was able to persist, but did not cause permanent damage to the host. This study supports the non-pathogenic/toxic status of P. fumosoroseus EH-506/3 when administered intragastrically in mice.     

Staphylococcal Footpad Infection in Mice

Local footpad infection in mouse was investigated with 55 clinically isolated strains of Staphylococcus aureus. When 10⁷ viable cells were inoculated into the footpad, local swelling and bacterial growth resulted after 24 hr. With a dose of 10⁶ cells, moderate swelling was observed after a few hours but the reaction had almost disappeared after 24 hr. About 75% of the staphylococcal strains tested caused footpad edema in mice at doses of 10⁷ cells. A statistical comparison of the virulence of the organisms on intravenous and intraperitoneal injection with that in inducing footpad swelling is also reported.     

Ultrastructural study ofCryptococcus neoformans by quick-freezing and deep-etching method

The three-dimensional ultrastructure ofCryptococcus neoformans was studied by quick-freezing and deep-etching (QF-DE) method.C. neoformans, strain CDC551, was cultured on agar. The viable yeast cells (10⁷ cells) were inoculated into each mouse from the tail vein. Three weeks after the inoculation, the brains of the mice were perfused with fixatives, quickly frozen, freeze-fractured, deeply etched and rotary shadowed with platinum and carbon. In addition, the viable cells ofC. neoformans on agar were picked up and quickly frozen, and replica membranes were prepared as described above. The ultrastructure ofC. neoformans was three-dimensionally demonstrated by the QF-DE method. The capsule was composed of fine meshworks of microfibrils (10–13 nm in diameter), which were directly attached to the cell walls. The capsule of the in vivo yeasts (yeast cells in the brain lesion) was thicker than that of the in vitro yeasts (yeast cells on agar culture). At the outer part of the cell wall, a particle-accumulating layer was observed. This layer in vivo was thicker than that in vitro. Occasionally, the yeast cells were ingested by phagocytes in the mouse brain. Although the cytoplasm of such yeast cells was destroyed, the capsular meshworks were well preserved. The ultrastructure of the capsule was the same both in cultured and phagocytized yeasts in the cystic lesions of the brains. This lack of morphological changes of the capsular meshworks suggests that they are resistant to the digestion by phagocytes. This stability of capsular structures may provide one of the important pathogenic factors in cystic lesions byC. neoformans.     

Observations of endotoxin-like activity associated with the Legionnaires' disease bacterium

Suspensions of Legionnaires' disease bacterium stored in sterilized tap water 279–287 days produced gelation ofLimulus amebocyte lysate. A 1-ml suspension of washed cells containing 10⁹ viable organisms had aLimulus amebocyte lysate activity equivalent to 4 mg of endotoxin. This activity remained stable in samples that had been autoclaved at 121°C for 15 min. Both the autoclaved cells and filtrate of autoclaved cells were pyrogenic in inoculated rabbits. The Legionnaires' disease bacterium produces a substance or substances that have biological properties associated with endotoxin of more typical Gram-negative bacteria.     

Efficient production of endotoxin depleted bioactive α-hemolysin of uropathogenic Escherichia coli

Abstract

Uropathogenic E. coli (UPEC), especially associated with severe urinary tract infections (UTI) pathologies, harbors an important virulence factor known as α-hemolysin (110?kDa). Hemolytic activity of α-hemolysin (HlyA) requires modification (acylation) of two lysine residues of HlyA by HlyC, part of operon hlyCABD. Most of the previous studies had used whole operon hlyCABD and gene tolC cloning for the production of active α-hemolysin. Studies involving α-hemolysin are limited due to the cumbersome and manual method of purification for this toxin. Here, we report a simple method for production of both active and inactive recombinant α-hemolysin by cloning only hlyA and hlyC genes of operon hlyCABD. Presence of both active and inactive α-hemolysin would be advantageous for functional characterization. After translation, the yield of the purified α-hemolysin was 1?mg/200?ml. Functionality of the recombinant α-hemolysin protein was confirmed using hemolytic assay. This is the first report of the production of active and inactive recombinant α-hemolysin for functional studies.     

Gastrointestinal inoculation of Sporothrix schenckii in mice

Antibiotic-decontaminated and untreated conventional mice were inoculated intragastrically with 10⁷ viable cells of Sporothrix schenckii to compare the incidence of gastrointestinal (GI) colonization. In control mice, S. schenckii was completely eliminated from the GI tract by 12 h post-inoculation. Antibiotictreated mice also failed to become colonized with this fungus, however, higher population levels of Sporothrix cells remained in the GI tract for a longer period of time before being eliminated. The ability of S. schenckii to disseminate from the lumen of the bowel to infect other organs was also tested. Results indicate that the gastrointestinal tract is not a portal of entry into the host for S. schenckii.     

Phagocytized Beads Reduce the α5β1 Integrin Facilitated Invasiveness of Cancer Cells by Regulating Cellular Stiffness

Cell invasion through the extracellular matrix (ECM) of connective tissue is an important biomechanical process, which plays a prominent role in tumor progression. The malignancy of tumors depends mainly on the capacity of cancer cells to migrate and metastasize. A prerequisite for metastasis is the invasion of cancer cells through connective tissue to targeted organs. Cellular stiffness and cytoskeletal remodeling dynamics have been proposed to affect the invasiveness of cancer cells. Here, this study investigated whether highly invasive cancer cells are capable of invading into dense 3D-ECMs with an average pore-size of 1.3 or 3.0 μm when phagocytized beads (2.7 and 4.5 μm diameter) increased their cellular stiffness and reduced their cytoskeletal remodeling dynamics compared to weakly invasive cancer cells. The phagocytized beads decreased the invasiveness of the α5β1^high cancer cells into 3D-ECMs, whereas the invasiveness of the α5β1^low cancer cells was not affected. The effect of phagocytized beads on the highly invasive α5β1^high cells was abolished by specific knock-down of the α5 integrin subunit or addition of an anti-α5 integrin blocking antibody. Furthermore, the reduction of contractile forces using MLCK and ROCK inhibitors abolished the effect of phagocytized beads on the invasiveness of α5β1^high cells. In addition, the cellular stiffness of α5β1^high cells was increased after bead phagocytosis, whereas the bead phagocytosis did not alter the stiffness of α5β1^low cells. Taken together, the α5β1 integrin dependent invasiveness was reduced after bead phagocytosis by altered biomechanical properties, suggesting that the α5β1^high cells need an appropriate intermediate cellular stiffness to overcome the steric hindrance of 3D-ECMs, whereas the α5β1^low cells were not affected by phagocytized beads.     

Influence of Pregnancy on the Course of Malaria in Mice Infected with Plasmodium berghei

The course of malarial infection was compared in pregnant mice inoculated with Plasmodium berghei at different stages of gestation. When 12–14 wk old, pregnant BALB/c mice were inoculated with 1 × 10⁶ of P. berghei NK65-infected red cells at gestation day 0, 2, 4, 6, 8, 10, 12, 14 or 16, the mice inoculated on gestation days 6–12 expired 6.5 days after inoculation compared to 9.5 days in non-pregnant mice. Parasitemia in these pregnant mice increased rapidly on day 4 after inoculation and anemia also developed earlier on day 5. However, the degree of parasitemia and anemia in the terminal stage of infection in these pregnant mice was milder than that of non-pregnant controls. Blood urea nitrogen increased at the terminal stage although the degree of increase in mice inoculated on gestation days 6–10 was comparatively small. Pregnant malarial mice died earlier with less physiological changes than non-pregnant controls. It was concluded that pregnancy makes the host susceptible to physiological changes caused by malaria.     

Experimental Infection with Pseudomonas aeruginosa in Mice

Comparative studies on the virulence of 22 clinical isolates of Pseudomonas aeruginosa were made by means of intraperitoneal inoculation in mice. The LD₅₀ values of these strains for mice ranged from 10^{5 0} to 10^7.5 viable cells per mouse and the average was 10^6.6. The virulence of certain strains was significantly enhanced when these strains were inoculated mixed with mucin. The highly virulent strains were often found among the strains which were serologically untypable though no relationship could be found between the virulence of test strains and their other biological characteristics such as pigments, hemolysins and extracellular enzymes. The facts suggest that pigments and extracellular enzymes play no important role in the pathogenicity of P. aeruginosa for mice. Moreover, no difference was seen on virulence among the strains isolated from the patients and healthy carriers. The susceptibility of ICR, ddN and CF#1 mice for P. aeruginosa was investigated. There was no clear difference in susceptibilities to P. aeruginosa infection.     

Hemolytic action of staphylococcal α-hemolysin on human erythrocytes in a Na+- and K+-containing suspending fluid

The hemolytic action of staphylococcal α-hemolysin on human erythrocytes was studied. In a Na⁺- and K⁺-containing suspending fluid α-hemolysin caused a rapid potassium release from the cells, which probably preceded hemoglobin release, and an influx of sodium. After storage of the cells for 4 days the same dose of α-hemolysin lyzed more cells. Lysis increased with the potassium concentration in the suspending fluid, while no correlation could be demonstrated between lysis and intracellular potassium concentration nor between lysis and potassium leakage from the cells. α-Hemolysin stimulated Mg²⁺-activated ATPase activity but did not change Na⁺-K⁺-Mg²⁺-ATPase activity. α-Hemolysin may cause increased membrane permeability for sodium ions and still more so for potassium ions, which may lead to hemolysis through swelling of the cells.     

Effect of staphylococcal alpha-hemolysin upon anion transport in the rabbit erythrocyte

Equilibrium exchange of SO₄^2? was measured prior to and during hemolysis in rabbit erythrocytes exposed to staphylococcal α-hemolysin. The anion-transport protein of the rabbit erythrocyte has also been identified. Equilibrium exchange of SO₄^2? was measured by both efflux and influx of ³⁵SO₄^2?. The rate of influx of SO₄^2? in rabbit erythrocytes exposed to α-hemolysin was twice that of the untreated cells. The rate of SO₄^2? efflux was unchanged by α-hemolysin. Inhibition of anion exchange with 4,4′-diisothiocyano-2,2′-stilbenedisulfonic acid (DIDS) did not inhibit hemolysis, therefore, the increased influx of SO₄^2? may occur through a DIDS-insensitive pathway.     

A Staphylococcus aureus pore-forming toxin subverts the activity of ADAM10 to cause lethal infection in mice

Staphylococcus aureus is a major cause of human disease, responsible for half a million infections and approximately 20,000 deaths per year in the United States alone. This pathogen secretes α-hemolysin, a pore-forming cytotoxin that contributes to the pathogenesis of pneumonia. α-hemolysin injures epithelial cells in vitro by interacting with its receptor, the zinc-dependent metalloprotease ADAM10 (ref. 6). We show here that mice harboring a conditional disruption of the Adam10 gene in lung epithelium are resistant to lethal pneumonia. Investigation of the molecular mechanism of toxin-receptor function revealed that α-hemolysin upregulates ADAM10 metalloprotease activity in alveolar epithelial cells, resulting in cleavage of the adherens junction protein E-cadherin. Cleavage is associated with disruption of epithelial barrier function, contributing to the pathogenesis of lethal acute lung injury. A metalloprotease inhibitor of ADAM10 prevents E-cadherin cleavage in response to Hla; similarly, toxin-dependent E-cadherin proteolysis and barrier disruption is attenuated in ADAM10-knockout mice. Together, these data attest to the function of ADAM10 as the cellular receptor for α-hemolysin. The observation that α-hemolysin can usurp the metalloprotease activity of its receptor reveals a previously unknown mechanism of pore-forming cytotoxin action in which pathologic insults are not solely the result of irreversible membrane injury and defines ADAM10 inhibition as a strategy to attenuate α-hemolysin-induced disease.     

Pathogenesis of paracoccidioidomycosis: A histopathological study of the experimental murine infection

The pathogenesis of primary pulmonary P. brasiliensis infection, the systemic dissemination which followed, and the histopathology of the main organs involved was studied in a murine model of chronic paracoccidioidomycosis. Adult male BALB/C mice, were challenged intranasally with 26×10^–6 viable P. brasiliensis yeast cells. We inoculated 86 animals which were sacrificed from 0 h to 20 weeks. As controls, 11 mice were instilled with saline solution, and 48 with 26×10^–6 heat-killed. P. brasiliensis yeast cells. None of the animals receiving saline, exhibited pathologic alterations; 11.6% of those inoculated with the heatkilled cells, revealed mild, transitory acinopulmonary neutrophilic infiltrates. The animals infected with viable cells, developed a systemic process affecting mainly the lungs (46.5%), liver (18.6%), lymphnodes (18.6%), and spleen (3.5%). In this group of animals, lung lesions were detected regularly at all time periods from 3 h to 20 weeks. A multiple bronchoneumonic process was initially observed at 6 h, reached its maximum intensity around the third day, subsided thereafter but did not disappear and reactivated after the fifth week to become stationary until the end of experiments. Dissemination to other organs occurred early, and apparently by the hematogenous route. Initially the inflammatory cell infiltrate was mainly neutrophilic. With time, these cells were gradually replaced by lymphocytes, histiocytes and plasmocytes. Granuloma configuration of the cell infiltrate was distinctly seen around the fifth week, with multinucleated giant cells appearing at the ninth week. Hiliary lymphnode involvement was rare (7%) and primary lung lesions, as seen in tuberculosis and histoplasmosis, were not observed.     

Stimulation of the multiplication of Micrococcus luteus by an autocrine growth factor

Viable cells of Micrococcus luteus secrete a proteineous growth factor (Rpf) which promotes the resuscitation of dormant, nongrowing cells to yield normal, colony-forming bacteria. When washed M. luteus cells were used as an inoculum, there was a pronounced influence of Rpf on the true lag phase and cell growth on lactate minimal medium. In the absence of Rpf, there was no increase in colony-forming units for up to 10 days. When the inoculum contained less than 10⁵ cells ml^–1, macroscopically observable M. luteus growth was not obtained in succinate minimal medium unless Rpf was added. Incubation of M. luteus in the stationary phase for 100 h resulted in a failure of the cells to grow in lactate minimal medium from inocula of small size although the viability of these cells was close to 100% as estimated using agar plates made from lactate minimal medium or rich medium. The underestimation of viable cells by the most-probable-number (MPN) method in comparsion with colony-forming units was equivalent to the requirement that at least 10⁵ cells grown on succinate medium, 10³ cells from old stationary phase, or approximately 10–500 washed cells are required per millilitre of inoculum for growth to lead to visible turbidity. The addition of Rpf in the MPN dilutions led to an increase of the viable cell numbers estimated to approximately the same levels as those determined by colony-forming units. Thus, a basic principle of microbiology –“one cell-one culture”– may not be applicable in some circumstances in which the metabolic activity of “starter” cells is not sufficient to produce enough autocrine growth factor to support cell multiplication. Received: 7 December 1998 / Accepted: 7 April 1999     

Five birds,one stone: Neutralization of α-hemolysin and 4 bi-component leukocidins of Staphylococcus aureus with a single human monoclonal antibody

Staphylococcus aureus is a major human pathogen associated with high mortality. The emergence of antibiotic resistance and the inability of antibiotics to counteract bacterial cytotoxins involved in the pathogenesis of S. aureus call for novel therapeutic approaches, such as passive immunization with monoclonal antibodies (mAbs). The complexity of staphylococcal pathogenesis and past failures with single mAb products represent considerable barriers for antibody-based therapeutics. Over the past few years, efforts have focused on neutralizing α-hemolysin. Recent findings suggest that the concerted actions of several cytotoxins, including the bi-component leukocidins play important roles in staphylococcal pathogenesis. Therefore, we aimed to isolate mAbs that bind to multiple cytolysins by employing high diversity human IgG1 libraries presented on the surface of yeast cells. Here we describe cross-reactive antibodies with picomolar affinity for α-hemolysin and 4 different bi-component leukocidins that share only ～26% overall amino acid sequence identity. The molecular basis of cross-reactivity is the recognition of a conformational epitope shared by α-hemolysin and F-components of gamma-hemolysin (HlgAB and HlgCB), LukED and LukSF (Panton-Valentine Leukocidin). The amino acids predicted to form the epitope are conserved and known to be important for cytotoxic activity. We found that a single cross-reactive antibody prevented lysis of human phagocytes, epithelial and red blood cells induced by α-hemolysin and leukocidins in vitro, and therefore had superior effectiveness compared to α-hemolysin specific antibodies to protect from the combined cytolytic effect of secreted S. aureus toxins. Such mAb afforded high levels of protection in murine models of pneumonia and sepsis.     

<Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>, the Baker’s Yeast,suppresses the growth of Ehrlich carcinoma-bearing mice

This study was undertaken to evaluate the effectiveness and mechanisms of anti-tumor activity of Baker’s yeast, Saccharomyces cerevisiae, in immunocompetent mice. Swiss albino mice were inoculated intramuscularly in the right thigh with Ehrlich Ascites Carcinoma (EAC) cells. At day 8, mice bearing Solid Ehrlich Carcinoma tumor (SEC) were intratumorally (IT) injected with killed S. cerevisiae (10 × 10⁶ and 20 × 10⁶ cells) for 35 days. Histopathology of yeast-treated mice showed extensive tumor degeneration, apoptosis, and ischemic (coagulative) and liquefactive necrosis. These changes are associated with a tumor growth curve that demonstrates a significant antitumor response that peaked at 35 days. Yeast treatment (20 × 10⁶ cells) three times a week resulted in a significant decrease in tumor volume (TV) (67.1%, P < 0.01) as compared to PBS-treated mice. The effect was determined to be dependent on dose and frequency. Yeast administered three and two times per week induced significant decrease in TV as early as 9 and 25 days post-treatment, respectively. Administration of yeast significantly enhanced the recruitment of leukocytes, including macrophages, into the tumors and triggered apoptosis in SEC cells as determined by flow cytometry (78.6%, P < 0.01) at 20 × 10⁶ cells, as compared to PBS-treated mice (42.6%). In addition, yeast treatment elevated TNF-α and IFN-γ plasma levels and lowered the elevated IL-10 levels. No adverse side effects from the yeast treatment were observed, including feeding/drinking cycle and life activity patterns. Indeed, yeast-treated mice showed significant final body weight gain (+21.5%, P < 0.01) at day 35. These data may have clinical implications for the treatment of solid cancer with yeast, which is known to be safe for human consumption.     

Adjuvant Activity of Mycobacterial Fractions

A quantitative assay and characterization of oil-attached cell wall of Mycobacterium bovis BCG (BCG-CWS) which stimulates cell-mediated immunity of spleen cells to alloantigens in mice were carried out by an in vitro cell-mediated cytotoxicity test using ⁵¹Cr-labeled target cells. C57BL/6J mice (H-2^b) were immunized intraperitoneally with mastocytoma cells (H-2^d) with or without oil-attached BCG-CWS. The cytotoxicity, comparable to that of spleen cells from mice immunized with mastocytoma cells (3 × 10⁷), could be induced in spleens of mice immunized with a mixture of mastocytoma cells (10⁴) and oil-attached BCG-CWS. The enhancing effect persisted for 55 days or more after the alloantigenic immunization. Oil-attached BCG-CWS enhanced cell-mediated cytotoxicity of T cells in the spleen and the mesenteric lymph node, but not in the thymus. The cytotoxicity showed specificity toward the alloantigen used for immunization. In addition to BCG-CWS, the cell walls of Nocardia rubra and Corynebacterium diphtheriae PW8 and the peptidoglycolipids of Mycobacterium tuberculosis Aoyama B were found to be potent stimulants of cell-mediated cytotoxicity in mice. Oil-attached BCG-CWS did not enhance humoral response to mastocytoma cells but enhanced cell-mediated cytotoxicity when viable mastocytoma cells were used as antigen. The above result was supported by the fact that anti-hapten antibody response induced by viable trinitrophenyl (TNP)-mastocytoma cells (10⁴) plus oil-attached BCG-CWS did not increase to the maximum level as was observed in mice immunized with a larger number of mastocytoma cells (3 × 10⁷) alone, while cell-mediated cytotoxicity induced by the same treatment increased to the maximum level obtained by immunization with mastocytoma cells (3 × 10⁷) alone.     

The effect of radiation therapy combined with natural killer cells against spontaneous murine fibrosarcoma

The effect of radiation therapy combined with lymphoid cells against spontaneous murine fibrosarcoma (FSa-II) was investigated bothin vivo andin vitro. In thein vivo experiment, syngeneic C3H mice were divided into 3 groups. Animals in the first group were injected with 1 x 10⁵ tumor cells into the right hind leg. Animals in the second and third groups were injected with 1 x 10⁵ tumor cells mixed with 1 x 10⁷ normal lymphoid cells (NLC) or effector lymphoid cells (ELC), respectively. ELC were obtained from spleen and lymph nodes of FSa-II-bearing mice and incubatedin vitro for 40 hr to eliminate suppressor T cell function. NLC were obtained from normal mice and incubated in the same way. Irradiation was given using¹³⁷Cs unit 3 days after cell inoculation. 12 out of 14 mice (85.7%) inoculated with tumor cells mixed with NLC did not show any tumor growth at 60 Gy local irradiation. 12 out of 21 mice (57.1 %) inoculated with tumor cells alone and 6 out of 10 (60%) with tumor cells mixed with ELC rejected tumors at the same radiation dose. This synergistic effect with NLC was not observed when NLC was inoculated after irradiation, indicating that lymphoid cells should be in contact with tumor cells before irradiation. In the⁵¹Cr release assay, lymphoid cells obtained from whole body irradiated (WBI) mice showed 17.8% lysis without irradiation and 28.8% lysis at 5 Gy irradiation. Untreated NLC showed almost no cytotoxic effect at the same radiation dose. This synergistic effect disappeared when WBI lymphoid cells were treated with anti asialo GM1 and complement. These results suggested that NK cells might be important in this synergistic effect with irradiation. To obtain a sufficient level of synergistic effect by in vitro combined treatment of mixed tumor cell - NLC culture and irradiation - incubation for more than 12 hrs and 8 hrs appeared to be necessary before and after irradiation, respectively.     

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.