MICROBIOLOGY and IMMUNOLOGY Volume 28, Issue 7

Studies on the Enteropathogenic Mechanism of Non-O 1 Vibrio cholerae Isolated from the Environment and Fish in Toyama Prefecture

Enteropathogenic mechanisms of non-O 1 Vibrio cholerae were investigated using strains from the environment and those from fish in Toyama Prefecture.
None of the 93 non-O 1 V. cholerae strains produced a detectable level of cholera-toxin-like-enterotoxin (CT-like-enterotoxin) in Syncase medium, while 23 strains showed a distinct fluid accumulation in the rabbit ileal loop test (RIL). These RIL-positive strains neither produced CT-like-enterotoxin in vitro in the other four kinds of media which are considered suitable for CT production, nor in vivo in the ligated ileal loop. Approximately one-third of RIL-positive strains produced a fluid accumulating factor (FAF) which was not neutralized with anti-CT serum. FAF of a representative strain (Strain 79-9-2) was inactivated by heating at 100C for 10min, and has a molecular weight within the range of 50, 000 to 100, 000 daltons. Most accumulated fluids in RIL after inoculation with whole cultures of RIL-positive strains contained both hemolytic and cytotoxic principles.
Desquamation of epithelial cells, inflammatory edema, neutrophile infiltration, loss of goblet cells and frequent hemorrhages were observed in sections of ligated ileal loop inoculated with whole cultures or concentrated culture filtrates of CT-like-enterotoxin-negative but RIL-positive strains. In contrast, neither desquamation of epithelial cells nor hemorrhage was observed in sections after inoculation with those of a CT-like-enterotoxin positive strain (Strain E 8498).
These results indicated that most RIL-positive non-O 1 V. cholerae strains from the environment and fish isolated in Toyama Prefecture produce little CT-like-enterotoxin, but some of them produce FAF with cytotoxic activities.

Phospholipases of Leptospira

The hydrolysis of phosphatidylethanolamine, phosphatidylcholine, lysophosphatidylcholine, and trioleoylglycerol by Leptospira biflexa strain Urawa was studied in vitro.
Phospholipase A₁ was identified by the formation of ³²P- and ¹⁴C-labeled lyso-derivatives from ³²P-phosphatidylcholine, ³²P-phosphatidylethanolamine, or 1-acyl-2-[1-¹⁴C]oleoyl-sn-glycero-3-phosphorylcholine. Phospholipase A₁ activity was independent of lipase in the microorganism since ¹⁴C-labeled trioleoylglycerol was scarcely attacked under the same conditions in which the phospholipids were hydrolyzed.
Lysophospholipase activity was also demonstrated using ³²P- and non-labeled lysophosphatidylcholine.
The activity of phospholipase A₁ was found in a broad range of pH but no optimal pH was determined. The pH optimum of lysophospholipase was 8.0. Both enzymes were labile to heat.
Phospholipase C activity, however, could not be detected because no radioactive di- and monoacylglycerol was found in the experiment with 1-acyl-2-[1-¹⁴C]-oleoyl-sn-glycero-3-phosphorylcholine as the substrate.
It was inferred that phosphatidylethanolamine, which was the major component of phospholipids in leptospirae, was hydrolyzed serially by phospholipase A (A₁ and/or A₂?) and lysophospholipase to glycerophosphorylethanolamine via 2-acyltype-lyso-derivative as one metabolic pathway of the substrate.

Slow Development of Measles Virus (Edmonston Strain) Infection in the Brain of Nude Mice

The Edmonston strain of measles virus caused neurologic disease in athymic nude mice by intracerebral inoculation. The incubation periods of the disease, however, were extremely long, ranging from 59 to 140 days when the mice were inoculated with 10⁴ plaque forming units (PFU) of the virus. The Edmonston strain was highly infectious in the nude mouse brain since virus infection was established even with 1 PFU of the virus. Virus titers in the brains of infected mice increased with the time of incubation. These results indicate that the extremely long incubation period of the disease is ascribed to very slow development of virus infection in the mouse brain. On the other hand, the incubation periods of the Biken strain of SSPE virus were very short (generally within 2 weeks) even with inoculations of 1 PFU of the virus. However, the extent of the dissemination of infection in brains was not significantly different between the two viruses as examined by immunofluorescent staining.

Development of a New Cell System for the Infectivity Assay of Dengue Viruses

A newly established cell line, GK, derived from the kidney tissue of Mongolian gerbils, produced plaques by infection of prototype and wild-type dengue virus strains. Both prototype and wild strains of type 2 virus grew in GK cells and formed plaques at 35.5C and at 31C, while types 1, 3, and 4 wild strains grew and formed plaques only at 31C. In GK cells, plaque formation and the growth of dengue viruses depended on the high (35.5C) and low (31C) incubation temperatures.
Virus yields in GK cells of all the 14 dengue virus strains tested, including four prototype and ten wild-type viruses, were 5 to 1, 000-times lower than those in C6/36 cells. After five serial passages in GK cells, types 2, 3, and 4 prototype viruses and type 2 wild strain increased virus yields, and one strain of prototype virus and one strain of wild-type virus decreased mouse neurovirulence.

Some Biochemical and Functional Characteristics of Macrophages Activated by Tetrahymena pyriformis

Phagocytosis, enzyme activities and capacity to release hydrogen peroxide (H₂O₂) and superoxide anion (O₂^-) of peritoneal macrophages from mice inoculated with Tetrahymena pyriformis, a free-living ciliate, were examined in comparison with resident and BCG-activated macrophages. Fc receptor-mediated phagocytosis of sheep erythrocytes was markedly increased in Tetrahymena-activated macrophages to the same level as that seen in BCG-activated ones. Tetrahymena-activated macrophages showed an increased level of acid phosphatase (lysosomal enzyme) and a reduced level of alkaline phosphodiesterase I (plasma membrane ectoenzyme) as compared with resident macrophages. Similar changes in the activities of the two enzymes were also observed in BCG-activated macrophages. Both Tetrahymena- and BCG-activated macrophages exhibited more enhanced capacity to release H₂O₂ and O₂^- than resident macrophages when stimulated with phorbol myristate acetate. In the macrophages from mice inoculated with varying doses of Tetrahymena, a significant correlation was observed between the increased capacity of H₂O₂ and O₂^- release as observed in the present study, and the enhanced toxoplasmacidal activity as observed in a previous study, in a dose-dependent fashion.

Age of Appearance of IgG, IgM, and IgE Antibodies Specific for Loa loa in Gabonese Children

IgG, IgM, and IgE antibodies against the filaria Loa loa were measured in umbilical cord blood and in blood from young Gabonese children by an ELISA technique using a homologous metabolic antigen. For children in eight consecutive age groups and adults the percentage of the population positive for each of the antibody classes was determined. The number of children with maternal IgG decreased until one year of age when new synthesis began to become apparent. IgM antibodies were detected only after six months, probably indicating an early infancy as opposed to a fetal infection. The percentage of individuals positive for IgM or IgE reached a peak between two and three years old, followed by a slight decline. Over half of the individuals over one year of age had IgM antibody against L. loa, indicating long-term synthesis of this class of immunoglobulin in many people. In the first two years of life, IgE antibodies were usually accompanied by L. loa-specific IgM. This specific IgE did not appear to trigger the synthesis of nonspecific IgE. By the age of two, 95% of the population had some antibodies against L. loa and by five the percentage of individuals positive for each antibody class had reached adult levels.

Immunosuppressive Activities of Peritoneal and Splenic Macrophages in Murine Leprosy

The ability of peritoneal macrophages (PM) and splenic macrophages (SM) to suppress tumor growth and lymphocyte transformation in vitro was studied in infected mice with Mycobacterium lepraemurium (MLM). Both PM and SM of leprous mice showed cytostatic activity against tumor cells in vitro. However, such cells showed significantly less cytostatic activity on a per cell basis than highly activated macrophages obtained from Corynebacterium parvum-immunized mice. Furthermore, this cytostatic activity declined as the infection progressed.
Mitogen-induced transformation of splenic lymphocytes was also suppressed in the presence of adherent PM and SM from leprous mice. PM from leprous mice showed significantly less activity than PM from C. parvum-immunized mice in terms of suppression of lymphocyte transformation. Moreover, PM from leprous mice treated with C. parvum or sodium thioglycollate broth demonstrated significantly less ability to suppress lymphocyte transformation than did PM from similarly treated normal mice or untreated leprous mice. These findings demonstrated that MLM infection stimulates the mononuclear phagocyte system but does not activated it to the extent that it confers enhanced resistance to MLM on the host.

Immunogenic Dialyzable Factor Derived from a Ribosomal Fraction of Salmonella typhimurium

Dialyzable factors (DF) were prepared from ribosomal fractions of several organisms including rough mutants of Salmonella typhimurium LT2, salmonella species of different serogroups, other enteric bacteria and gram-positive organisms, and tested for their immunogenicity against S. typhimurium infection in mice. All of them conferred local resistance on mice challenged intramuscularly with S. typhimurium LT2 in the early stage of immunization before the establishment of delayed-type hypersensitivity (DTH) to salmonella antigens. Although DFs of enteric bacteria including rough mutants of S. typhimurium induced DTH to salmonella antigens, only DF of a two-heptose mutant of S. typhimurium LT2 afforded significant mouse protection but others only prolonged the mean time to death. DF of Listeria monocytogenes induced the cross-reacting immunity which afforded the low level of mouse protection as well as an increase in mean time to death without inducing DTH. Passive transfer of anti-O antibody did not enhance the mouse protection provided by each DF. Resistance conferred by DF of S. typhimurium LT2 consisted of two phases: (i) nonspecific macrophagc activation resulting in reduction of organisms at the infected site, which became active in the early stage of immunization and (ii) salmonella-specific immunity capable of preventing systemic infection, which became active in the late stage of immunization.

Requirement of Anionic Groups for the Mitogenicity of a Fungal Mitogen, Vesiculoge

Active site(s) of a B-cell mitogen, vesiculogen, was investigated by means of chemical and enzymic modifications. Vesiculogen is a non-dialyzable fraction of a hot water extract from a fungus, Peziza vesiculosa (Yadomae et al, Microbiol. Immunol. 23, 997 (1979)), and was composed of protein (-60%), carbohydrate (-30%), and a small amount of amino sugar, uronic acid, phosphate, and lipid. The mitogenicity was not affected by periodate oxidation, N-acylation, defatting treatment, destruction of the three dimentional structure, protease digestion, nuclease digestion, N-bromosuccinimide treatment, and β-mercaptoethanol treatment. However, the mitogenicity was decreased by a modification of carboxyl groups, such as 1-ethyl-3(3-dimethylamino propyl)-carbodiimide or dicyclohexylcarbodiimide treatment. Vesiculogen contains a large amount of acidic amino acids. These results suggest that the mitogenicity of vesiculogen is due to the presence of anionic groups, such as aspartic acid and glutamic acid, and that the mitogenic substance is a novel, heat stable polyanionic B-cell activator obtained from Ascomycotina.

Polysaccharides with Sulfate Groups Are Human T Cell Mitogens and Murine Polyclonal B Cell Activators (PBAs)

In our previous paper, we reported that various types of carrageenan, dextran sulfate and fucoidan, which are sulfated homopolysaccharides with high molecular weights, were human T cell mitogens and murine polyclonal B cell activators (PBAs) and that heparin, a sulfated heteropolysaccharide, was a very weak human mitogen and mouse PBA.
Here we used cellulose sulfate (Mr 7-9×10³), dextran sulfate with two different low molecular weights (Mr 5×10³ and 8×10³), two different condroitin sulfates (Mr 3.5×10⁴), polyvinyl sulfate and polygalacturonic acid to investigate mitogenic activities of polysaccharides in detail.
The following results were obtained. 1. Low-molecular-weight sulfated homopolysaccharides, dextran sulfate and cellulose sulfate, were very weak or not human T cell mitogens. However, they were better murine PBAs. 2. Sulfated heteropolysaccharides, chondroitin 4-sulfate and chondroitin 6-sulfate, hardly induced mitogenic changes in human T cells and mouse B cells, even though the molecular weight of these substances was more than 1×10⁴. 3. There were no other polymers examined so far which activated both human T cells and murine B cells.
The relationship among molecular size, sulfate groups and lymphocyte activation is discussed in detail.