MICROBIOLOGY and IMMUNOLOGY Volume 29, Issue 10

Reversion to Bacillary Forms of Serratia marcescens Spheroplasts Induced by Carbenicillin

Bacterial cells of Serratia marcescens were easily induced to form spheroplasts in liquid medium by the addition of carbenicillin. The spheroplasts were unable to divide, but they were able to revert to the bacillary forms in liquid medium not containing carbenicillin. Four phases of the reversion sequence could be differentiated by scanning electron microscopy. (1) After 3hr of incubation in carbenicillin-free medium, some projections arose out of the spheroplasts, and grew and elongated. (2) Their elongation resulted in a morphological change in the spheroplasts from spherical bodies to long irregular bacillary forms. (3) Further incubation caused several constricted areas in the bacillary form. (4) The long bacillary forms split along the constricted areas to become the parent bacillary forms of S. marcescens. When the long bacillary form that developed during the reversion was retreated with carbenicillin, it was immediately induced to become a spheroplast again.

Characterization of Extracellular Substance of Vibrio anguillarum Toxic for Rainbow Trout and Mice

An extracellular toxic substance was separated from the cell-free culture filtrate of Vibrio anguillarum (strain NCMB571). Two fractions (GI and GII+III) obtained by Sephadex G-200 chromatography following DEAE-cellulose chromatography were lethal to rainbow trout and mice. Material separated from the GI fraction by Sepharose 4B affinity chromatography (GI-A fraction) was lethal to these animals. By sodium dodecylsulfate polyacrylamide gel electrophoresis, the GI and GI-A fractions were found to be composed of components with molecular weights of 44K and 34K, and 44K, respectively. The 44K protein band was associated with carbohydrate. Peripheral vascular disorder was observed in fish and mice that died after inoculation with GI or GI-A fraction. The toxic substance was sensitive to potassium periodate but was resistant to trypsin and acetone. Heat inactivation of the toxic substance was almost complete at 100C for 20min and complete at 121C for 20min. The toxic activity was not associated with hemolytic or proteolytic activity. Homologous antitoxin completely neutralized the toxic activity.

Plasmid Profiles of Neisseria gonorrhoeae in Peninsular Malaysia

The plasmid profiles of 160 strains of Neisseria gonorrhoeae isolated in Peninsular Malaysia, comprising 80 penicillinase-producing (PPNG) and 80 non-penicillinase-producing (non-PPNG) isolates, were determined. The 80 PPNG isolates were divided into two plasmid groups. All of them harbored two common plasmid species, a 4.4 megadalton (Md) R plasmid previously associated with β-lactamase production in PPNG strains from the Far East and a 2.6Md multicopy plasmid of unknown function. In addition to these two plasmids, 60 (75%) PPNG isolates also carried a large 24.5Md conjugative plasmid.
In contrast, the 80 non-PPNG strains were divided into three plasmid groups. All of them possessed the 2.6Md cryptic plasmid, and 35 (44%) isolates also harbored the 24.5Md transfer plasmid. Besides these two plasmids, one non-PPNG isolate carried an additional 7.8Md cryptic plasmid.

Reassembly of a Regularly Arranged Protein in the Cell Wall of Lactobacillus buchneri and Its Reattachment to Cell Walls

Regularly arranged protein (RA protein) isolated from the cell wall of Lactobacillus buchneri was chemically modified by amidination, acetylation, succinylation, and amidation. The modified RA proteins were examined for their ability to reassemble into a regular array and to reattach to the cell walls from which the regular array had been detached. Only amidinated RA protein could be either reassembled into a regular array or reattached to the cell walls; RA proteins modified by the other methods lost the ability for both reassembly and reattachment. The unmodified RA protein could be reattached to periodate-oxidized cell walls, but not to methylated ones. These results suggest that the positive charge of the amino group as well as the negative charge of the carboxyl group of RA protein plays an important role (s) in morphogenesis of the hexagonal array and in its attachment to the underlying cell wall layer. The periodate-insensitive lone hydroxyl groups of the neutral polysaccharide molecule in the cell wall seem to be the receptor sites for RA protein in the attachment to the cell wall.

The Role of NK Cell Activity in Age-Dependent Resistance of Mice to Murine Cytomegalovirus Infection

The resistance of mice to cell culture passaged murine cytomegalovirus (CC-MCMV) infection developed with age. In parallel with this finding, augmentation of the splenic NK cell activity in older mice was always higher than that of younger mice. The splenic NK cell activity reached the maximum level at 6 day post infection (PI) in 2-4-week-old mice while in 6-8-week-old mice it peaked at 4 days PI. When the dose of CC-MCMV was increased, the NK cell activity was potentiated accordingly. However, it was decreased on the infection with increased doses of the salivary gland passaged MCMV (SG-MCMV).
NK cells augmented by MCMV infection actually inhibited in vitro replication of MCMV when they were added to mouse embryonic fibroblast (MEF) monolayers infected with CC-MCMV. Splenic and peritoneal macrophages inhibited in vitro replication of MCMV, but their activities were less potent than those of NK cells.

Large-Scale Survey of Hepatitis B Virus Infection in Families

To investigate HBV transmission in families on three islands in Okinawa, Japan, prevalence of HBV markers in two groups of inhabitants was determined. One group consisted of members of families in which there was at least one HBsAg carrier (carrier families); the other group consisted of members of families in which there were no HBsAg carriers (non-carrier families). A total of 3, 261 serum samples were collected from subjects on Iriomote Island, Hateruma Island, and Yonaguni Island. These samples were tested for HBsAg by reversed passive hemagglutination (RPHA) and for antibody to hepatitis B core antigen (anti-HBc) by radioimmunoassay. Overall prevalences of HBsAg and anti-HBc were 8.2 and 65.8 per cent respectively. The prevalence of anti-HBC among members of carrier families (80.8%) was significantly higher than that among members of non-carrier families (61.6%) (P<0.001). The prevalence of anti-HBc among members of carrier families was higher in all age groups, and was particularly so in children. Within carrier families, the prevalence of anti-HBc was significantly higher in families in which there was at least one HBsAg carrier with HBeAg (94.5%) than in families with no HBeAg-positive carriers (76.1%). This difference was especially marked in young children. These data suggest that in families with HBsAg carrier (s), the risk of transmitting HBV to members, particularly to young children, is higher than in families without carriers, and that the risk is further increased in families with HBeAg-positive carrier (s).

Distinct Reactivities of Four Monoclonal Antibodies with Human Interleukin 2 Receptor

Two new murine monoclonal IgG1 antibodies, H-31 and H-A26, were characterized in comparison with two previously obtained monoclonal antibodies against human interleukin 2 (IL-2) receptor (IL-2R), anti-Tac and HIEI. In immunofluorescence assays with various human hematopoietic cells, H-31 and H-A26 antibodies both reacted with only IL-2 R-positive cells, and they precipitated IL-2R molecules, glycoproteins with molecular weights of 60K and 53K daltons (gp60/gp53), from human T-cell leukemia virus type I (HTLV-I)-carrying MT-2 cells, as demonstrated by sequential immunoprecipitation after absorption of IL-2R with anti-Tac. Antibody-binding competition assays showed that H-31 and anti-Tac, and H-A26 and HIEI, respectively, competed reciprocally in binding to the cells, and that anti-Tac also inhibited the binding of HIEI but not vice versa. H-31, like anti-Tac, strongly inhibited the IL-2-dependent proliferation of normal activated T-cells, absorption of IL-2 and direct binding of IL-2 to the cells, while H-A26, like HIEI, inhibited those processes only weakly. The spectra of reactivities of these antibodies with various simian cell lines derived by HTLV-I infection were different, as revealed by immunofluorescence studies. Human IL-2R was shown to express a unique antigenic determinant, detected with HIEI, that was not detectable in IL-2 R molecules of Old and New World monkeys, and also to express determinants common to simian IL-2R molecules. These observations indicate that H-31 and H-A26 recognize human IL-2R molecules and that the antigenic sites on the IL-2R molecule defined by H-31, H-A26, anti-Tac, and HIEI are different.

Fibrinogen Binding Inhibits the Fixation of the Third Component of Human Complement on Surface of Groups A, B, C, and G Streptococci

Effects of fibrinogen binding to M protein-positive and-negative streptococci on fixation of the third component of human complement (C3) were determined. In all test cultures of serological groups A, B, C, and G fixation of C3 was observed in normal human serum as revealed by quantitative fluorescent immunoassay. Fibrinogen binding inhibited the fixation of C3 on streptococci. The degree of inhibition was proportional to the extent of fibrinogen binding. Thus, inhibition of C3 fixation was most pronounced in strongly fibrinogen-positive streptococci of groups A, C, and G and not demonstrable in fibrinogen-negative cultures of groups C and G. Trypsinization of the streptococci destroyed their capacity to bind fibrinogen and consequently the inhibitory effects on C3 fixation. The carboxymethylated α and β chains of fibrinogen moderately inhibited C3 fixation whereas γ chain had no influence. These studies may indicate that fibrinogen binding structures other than M protein could also be involved in streptococcal pathogenicity.

Chemical Characterization of Capsular Polysaccharide from Cryptococcus neoformans Serotype A-D

During a study of serotyping of Cryptococcus neoformans, we found that the type strain of C. neoformans (CBS 132) was serotype A-D. This strain agglutinated with both factor 7 serum (specific for serotype A) and factor 8 serum (specific for serotype D) in our serotyping system. Therefore, we investigated the chemical structure of the antigenic capsular polysaccharide of this strain. The soluble capsular polysaccharide was obtained from the culture supernatant fluid by precipitation with ethanol. Column chromatography of the polysaccharide on DEAE-cellulose yielded three fractions (F-1 to F-3). The major antigenic activity was found in the F-3 fraction. The results obtained by methylation analysis, controlled Smith degradation-methylation analysis, partial acid hydrolysis, and other structural studies of F-3 polysaccharide indicated that the polysaccharide contains mannose, xylose, and glucuronic acid at a ratio of 7:2:2, and has a backbone of α(1-3)-linked D-mannopyranoside residues with a single branch of β(1-2)-xylose and glucuronic acid. The ratio of mannose residues with or without a branch in the F-3 polysaccharide was 4:3 and its molecular weight calculated from the average of the degree of polymerization was 46, 500 daltons. These results indicate that the chemical structure of the capsular polysaccharide of serotype A-D is very similar to those from serotypes A and D, suggesting that small differences in the molar ratio and pattern of linkage of monosaccharides in the branch of the polysaccharides of the three serotypes may be responsible for their different specificities.

IgM Induction in Murine B Hybridomas with Ia-Restricted T Cell Clones

The mechanism of MHC-restricted T and B cell interactions in antibody response was studied with IgM-inducible B hybridomas and antigen-specific helper T cell clones. B hybridomas were prepared by fusion between splenic B cells from (CBA/N (H-2^k)×BALB/c (H-2^d)) F₁ (NBF₁) male mice and a B lymphoma cell line, M12. 4. 5. A B hybridoma clone, 1M70, which expressed I-A^d but not I-A^k determinants was chosen in the present study. IgM secretion was induced in 1M70 when it was cocultured with a “resting” KLH-specific and H-2^d restricted helper T cell clone in the presence of KLH. A “resting” KLH-specific and H-2^k restricted T cell clone did not induce IgM secretion in 1M70 even in the presence of KLH. However, when these KLH-specific T cell clones were activated by KLH and appropriate antigen presenting cells, both H-2^d and H-2^k restricted T cell clones induced IgM secretion in 1M70 even in the absence of KLH. A monoclonal anti-I-A^d antibody inhibited IgM secretion induced by a “resting” H-2^d restricted T cell clone, but not by an “activated” T cell clone. These results indicated that T cell clones recognized antigens in the context of Ia molecules on B hybridomas in a MHC-restricted manner and were activated to produce B cell stimulatory factors which in turn acted on B hybridomas in a non-MHC-restricted manner and induced differentiation of B hybridomas into IgM secreting cells.