Ken-ichi Tomochika

Reexpression of RAG-1 and RAG-2 genes in activated mature mouse B cells.

Recombination activating genes (RAG-1 and RAG-2), involved in V(D)J rearrangement of immunoglobulin genes, have been thought to be expressed only in immature stages of B-cell development. However, RAG-1 and RAG-2 transcripts were found to be reexpressed in mature mouse B cells after culture with interleukin-4 in association with several different co-stimuli. Reexpression was also detected in draining lymph nodes from immunized mice. RAG-1 and RAG-2 proteins could be detected by immunofluorescence microscopy in the nuclei of B cells cultured in vitro and in the germinal centers of draining lymph nodes. These findings suggest that RAG gene products play a heretofore unsuspected role in mature B cells.

A Sandwich Cup Method for the Penetration Assay of Antimicrobial Agents through Pseudomonas Exopolysaccharides

We developed new sandwich cup method to assay the penetration of various antimicrobial agents through Pseudomonas exopolysaccharides. Using alginate extracted from mucoid‐type Pseudomonas aeruginosa and gellan gum from Pseudomonas elodea, the role of exopolysaccharides as a barrier against drug penetration was examined. The penetration of positively charged hydrophilic drugs such as aminoglycosides and polypeptides was markedly inhibited by the gels tested, but that of β‐lactams, quinolones, and macrolides was not inhibited. The penetration of gentamicin was strongly influenced by the gel concentration, the solution to be used, and the presence of Ca2+. These results suggest that the microenvironment at the infection site could greatly influence drug penetration through biofilms in vivo.

Detection of Genes Encoding Cholera Toxin (CT), Zonula Occludens Toxin (ZOT), Accessory Cholera Enterotoxin (ACE) and Heat‐Stable Enterotoxin (ST) in Vibrio mimicus Clinical Strains

A total of 51 clinical strains of Vibrio mimicus were searched for the presence of virulence‐associated genes, like ctx, zot or ace genes which locate in “cholera virulence cassette,” and the st gene by polymerase chain reaction. Moreover, the pathological potential of each clinical strain was also examined by rabbit ileal loop (RIL). Three strains showed to have the ctx gene, of which only one strain was zot gene‐positive. Meanwhile, one other strain was zot+ but ctx−. All of these four strains were found to have the ace gene and to belong to serogroup O115. Nine strains showed to carry the st gene. However, none of these ST‐gene‐positive strains was indicated to contain the genes located in the “cholera virulence cassette.” It is of interest to note that all of the RIL‐positive and/or virulence gene‐positive strains were restricted to three serogroups, O20, O41 and O115. These results suggest a significant association between O antigens and enterotoxic activities in V. mimicus clinical strains, and clearly demonstrate multifactorial virulence potentials of this human pathogen.

The C-terminal domain promotes the hemorrhagic damage caused by Vibrio vulnificus metalloprotease

Vibrio vulnificus, an opportunistic human pathogen, produces a 45-kDa zinc metalloprotease (V. vulnificus protease; VVP) as an important virulence determinant. VVP injected intradermally into the dorsal skin causes the hemorrhagic damage through specific degradation of type IV collage in the vascular basement membrane. The N-terminal 35-kDa polypeptide (VVP-N), the catalytic domain, also evoked the hemorrhagic skin reaction within minutes. However, the hemorrhagic activity of VVP-N was one-third of that of VVP. Besides, the proteolytic activity of VVP-N toward the reconstituted basement membrane or type IV collagen was found to be about 50 % of VVP. VVP-N, like VVP, was quickly inactivated by an equimolar amount of alpha(2)-macroglobulin, a broad-spectrum plasma protease inhibitor. These findings indicate that the C-terminal 10-kDa polypeptide, the substrate-binding domain mediating the effective binding to protein substrates, functions to augment the hemorrhagic reaction of VVP.

Adaptational Changes of Fatty Acid Composition and the Physical State of Membrane Lipids Following the Change of Growth Temperature in Yersinia enterocolitica

Yersinia enterocolitica is capable of growing in a broad range of temperatures from 4 to 45 C. How this organism alters its membrane lipids in response to the change of growth temperature is very interesting. The fatty acids of membrane lipids of cells cultured at 5, 15, 25 and 37 C were analyzed and the physical states of these membrane lipids were characterized. The major phospholipids of this bacterium were phosphatidylethanolamine, phosphatidylglycerol, cardiolipin, lysophosphatidylglycerol and lysophosphatidylethanolamine. No significant difference in phospholipid composition in response to culture temperatures was observed. It was reported in our previous paper that the major fatty acids of membrane phospholipids of Y. enterocolitica were C15:0, C16:0, C16:1, cyclopropane C17:0 and C18:0, Some differences in the fatty acid composition were, however, observed with the change of culture temperature. When the culture temperature was raised, the saturated and cyclopropane fatty acids substantially increased and the unsaturated ones decreased. A reverse phenomenon was observed when culture temperature was lowered. From the viewpoints of membrane physical state, adaptational changes were analyzed using a nylon microcapsule method. Phase transition in membrane lipids of cells grown at each culture temperature took place in the range of about 5 C below and about 10 C above the culture temperature. It is, therefore, considered that Y. enterocolitica maintains its membrane rigidity and fluidity in response to growth temperature by changing the membrane fatty acid composition.

Analysis of the Structural Gene Encoding a Hemolysin in Vibrio mimicus

An environmental isolate of V. mimicus, strain E‐33, has been reported to produce and secrete a hemolysin of 63 kDa. The hemolysin is enterotoxic in test animals. The nucleotide sequence of the structural gene of the hemolysin was determined. We found a 2,232 bp open reading frame, which codes a peptide of 744 amino acids, with a calculated molecular weight of 83,903 Da. The sequence for the structural gene was closely related to the V. cholerae el tor hlyA gene, coding an exocellular hemolysin. The amino terminal amino‐acid sequence of the 63 kDa hemolysin, purified from V. mimicus, was determined by the Edman degradation method and found to be NH2‐S‐V‐S‐A‐N‐N‐V‐T‐N‐N‐N‐E‐T. This sequence is identical from S‐152 to T‐164 predicted from the nucleotide sequence. So, it seems that the mature hemolysin in V. mimicus is processed upon deleting the first 151 amino acids, and the molecular mass is 65,972 Da. Analyzing the deduced amino‐acid sequence, we also found a potential signal sequence of 24 amino acids at the amino terminal. Our results suggest that, like V. cholerae hemolysin, two‐step processing also exists in V. mimicus hemolysin.

Actions of Vibrio vulnificus Metalloprotease on Human Plasma Proteinase-Proteinase Inhibitor Systems : A Comparative Study of Native Protease with Its Derivative Modified by Polyethylene Glycol

Vibrio vulnificus, an opportunistic human pathogen causing wound infection and septicemia, produces a metalloprotease (VVP) which is suspected to be a virulent determinant. The interactions of VVP, as well as its derivative (PEG1‐VVP) modified with polyethylene glycol, with a variety of human plasma proteins were investigated. We found that native VVP and its derivative were able to act directly on many biologically important human plasma proteins even in the presence of α‐macroglobulin, the sole plasma inhibitor of native VVP. The activities of both classical and alternative pathways of the complement cascade system were drastically abolished by incubation with either VVP. Furthermore, these proteases rapidly digested the Aα‐chain of human fibrinogen into fragment(s) with no clotting ability. Therefore both VVPs are thought to function as a fibrinogenolytic enzyme, causing delay of the coagulation reaction. VVP and PEG1‐VVP were also shown to destroy plasma proteinase inhibitors including α1‐proteinase inhibitor, a major inhibitor in human plasma. Because endogenous proteolytic enzymes and their inhibitors are indispensable in maintaining physiological homeostasis, these findings suggest that VVP (and PEG1‐VVP) may cause an imbalance of human plasma proteinase‐proteinase inhibitor systems, thus eliciting an immunocompromised state in the host and facilitating the development of a systemic V. vulnificus infection such as septicemia.

Analysis of seawaters for the recovery of culturable Vibrio parahaemolyticus and some other vibrios

We investigated the recovery of dormant and injured cells along with the normally culturable cells of Vibrio species with special emphasis on V. parahaemolyticus using both selective and non‐selective media at moderate (20 C) and standard (37 C) culture temperatures from a bay water environment. Culture temperatures (20 or 37 C) did not affect the recovery of V. parahaemolyticus but did for other vibrios. We observed similar seasonality of V. parahaemolyticus as in most other environmental studies. V. parahaemolyticus and other Vibrio species were recovered in higher numbers by a replica plating method compared to most probable number (MPN) and direct TCBS (thiosulfate citrate bile‐salt sucrose) agar counts. Even with the replica plating method, however, vibrios number goes down to a minimum level and V. parahaemolyticus was undetectable during the cool temperature period of the year, although total bacterial cells and CFU on nutrient agar (with 2% NaCl) did not vary so much during the study period.

Detection of Virulence Associated Genes in Clinical Strains of Vibrio mimicus

A total of 42 clinical strains of Vibrio mimicus were examined for the presence of virulence associated genes toxR, toxS, toxT, tcpP, ctx and tcpA by PCR assay. Almost all strains were shown to have the toxR gene, while the toxS gene was found in 27 strains. On the other hand, five strains possessed both toxT and tcpP genes, but others had neither. Only two strains were positive for amplification of the ctx gene, whereas no PCR product with tcpA primers was detected. The results indicate the incomplete copies of virulence cascade in V. mimicus strains. The pathogenesis and epidemic potential of this species is also discussed.

Studies on Osmotic Stability of Liposomes Prepared with Bacterial Membrane Lipids by Carboxyfluorescein Release

The authors measured the osmotic stability of liposomes prepared with membrane lipids of bacteria, using the osmotic‐shock release of entrapped carboxyfluorescein as an indicator. The sub‐second physical changes of liposomes suspended in a solution of low osmotic pressure were examined by stopped flow spectrophotometry. The entrapped carboxyfluorescein was released when the liposomes burst on inflow of excess water. Liposomes prepared with the lipids of a stable Staphylococcus aureus L‐form strain were more resistant to low osmotic pressure than those prepared from the wild strain of S. aureus, and liposomes prepared from Mycoplasma orale were even more resistant. Cardiolipin enhanced the lipid membrane stability in S. aureus and cholesterol in M. orale. The stability of lipid membranes to low osmotic pressure could be precisely determined by the present method.